Arkansas/Oklahoma Insect Collecting Trip “iReport”—Rich and Ted’s excellent adventure

This is the seventh “Collecting Trip iReport”; this one covering a 5-day trip to Arkansas and Oklahoma from June 7–11, 2019 with my friend and local collecting buddy Richard Thoma. As with all previous “iReports” in this series, this one too is illustrated exclusively with iPhone photographs.

Previous iReports include the following
2013 Oklahoma
2013 Great Basin
2014 Great Plains
2015 Texas
2018 New Mexico/Texas
2018 Arizona

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…and so it begins!

Day 1 – Ozark National Forest, vic. Calico Rock, Arkansas
It’s been many years since I’ve visited these sandstone glades overlooking the White River near Calico Rock. Conditions were partly sunny when we arrived, but water on the ground suggested rain earlier in the day. We had only a short time to start exploring before the wind started blowing up and the smell of rain filled the air. I did manage to beat one Amniscus sexguttata from a branch of living Pinus echinata and collect a couple of Strigoderma sp. from Coreopsis lanceolata flowers before steady rain forced us to retreat.

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White River near Calico Rock, Arkansas—before the rain.
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White River near Calico Rock, Arkansas—rain’s a comin’!

Day 2 – Ouachita National Forest, Winding Stair Campground & Ouachita Trail, Oklahoma
We walked the trail from the campground S about 2½ miles and back. I started off with Acmaeodera tubulus on Krigia sp. flowers, eventually finding a lot of them on this plant at higher elevations along with a single Acmaeodera ornata, and I beat a few Agrilus cepahlicus off of Cornus drummondii. This had me thinking it would be a good buprestid day, but it wasn’t, the only other species collected being some Chrysobothris cribraria off of small dead Pinus echinata saplings and Pachyschelus laevigatus on Desmodium sp. Also beat a few miscellaneous insects off of Cercis canadensis and Vaccineum arborea and swept some from grasses and other herbaceous plants. Back at the campground I collected Chrysobothris dentipes on the sunny trunks of large, live Pinus echinata trees.

Emerald Vista, along the Talihema Scenic Drive.
Acmaeodera tubulus on flower of Rosa carolina.
Acmaeodera tubulus on flower of Rosa carolina.
Canthon sp.
Apheloria virginiensis reducta (ID by Derek Hennen).
The biggest cairn I’ve ever seen.

Ouachita National Forest, Talimena Scenic Dr at Big Cedar Vista, Oklahoma
There were lots of native wildflowers like Coreopsis tinctoria and Ratibida columnifera in bloom, so we stopped to check them out. There were lots of butterflies, however, I found only a single Typocerus zebra on Coreopsis lanceolata.

View south from Talimena Scenic Drive at Big Cedar Vista.
Coreopsis tinctoria (plains coreopsis).
Ratibida columnifera (upright prairie coneflower).

Ouachita National Forest, Winding Stair Campground, Oklahoma
We returned to the campground in the evening to do some blacklighting. I had high hopes, but only five cerambycids came to the lights, all represented by a single individual: Monochamus carolinensis, Acanthocinus obsoletus, Amniscus sexguttatus, Eutrichillus biguttatus, and Leptostylus tranversus (the first four are pine-associates). I also picked up a few other miscellaneous insects.

Rich processes the day’s catch as the blacklight hums in the background.

Day 3 – Medicine Park Primitive Campground, Oklahoma
There wasn’t much insect activity going on in eastern Oklahoma, so we drove out west to the Wichita Mountains for hopefully better luck. We found a small park with a primitive campground in the city of Medicine Park—my first thought was to beat the post oaks dotting the campground, but when I went into the native prairie between the campground and the creek I never came out! Right away I found what must be Acmaeodera ornatoides on flowers of Opuntia sp., then I found more on flowers of Gallardia pulchella along with Acmaeodera mixta. The latter were also on flowers of Thelesperma filifolium along with Acmaeodera neglecta—took a nice series of each, and I also got a few of the latter on flowers of Coreopsis grandiflora. Strangalia sexnotata were on flowers of C. tinctoria and Torilis arvensis, and then on the latter plant I saw a male Strangalia virilis—a Texas/Oklahoma specialty that I’ve never collected before! I spent the next hour looking for these guys and ended up with 3 males and 2 females along with a few Trichiotinus texanus—another Texas/Oklahoma specialty—and a single Agrilaxia sp. nr. flavimana (could be A. texana). One single Typocerus octonotatus was on flowers of Achillea millefolium. I think we may come back here tomorrow—I’d like to look for more S. virilis and beat the post oaks (the reason we stopped here to begin with).

A cacophony of native wildflowers!
An orgy of Euphoria kernii (Kern’s flower scarab) in Opuntia sp. flower. Multiple color forms exist for this species.
At first I thought this was a type of hover fly (family Syrphidae), but eventually I determined it to be Esenbeckia incisuralis, a horse fly (family Tabanidae)—incredible emerald green eyes!
Papilio polyxenes asterius (black swallowtail) caterpillar.
Echinocereus reichenbachii baileyi (lace hedgehog cactus).

Lake Lawtonka nr. Ma Ballou Point, Oklahoma
We stumbled into this area while looking for stands of Sapindus drummondii (soapberry)—found a small stand along the road, but it was too inaccessible. The same diversity of blooms were present as at the previous spot, so I picked a few longhorns off flowers of Coreopsis grandiflora and Gaillardia pulchella. Super windy, so we didn’t stay long.

View across Lake Lawtonka from Ma Ballou Point.
Neochlamisus sp. (case-bearing leaf beetle) larvae inside their “casas de caca” on Monarda fistulosa (bee balm).
I believe this is Harrisina coracina, a leaf skeletonizer in the family Zygaenidae. Both BugGuide and the Moth Photographers Group show records only from Texas.

Day 4 – Wichita Mountains National Wildlife Refuge, Oklahoma
Before starting the day’s collecting, we wanted to go into the Wichita Mountains National Wildlife Refuge to have a look around. On the way into the refuge we some American bison near the road and had to stop, take photos, and simply admire these massive, majestic beasts. We then went to the Cedar Plantation, where I had visited before back in 2012 and photographed black individuals of Cicindelidia obsoleta vulturina (prairie tiger beetle). No tiger beetles were out now (they come out in the fall), but I’d hoped to maybe see Cylindera celeripes (swift tiger beetle) along the 2-tracks in the area. No such luck—nevertheless, we saw a myriad of interesting insects, including several more Esenbeckia incisuralis (green-eyed horse flies) and a beautiful Trichodes bibalteatus (checkered beetle), the latter of which I photographed on flowers of Ratibida columnifera and Achillea millefolium with the big camera. Afterwards we visited the “prairie dog town” and got marvelous views and photographs of black-tailed prairie dogs.

Native American wildlife on a native American landscape.
American bison (Bison bison bison).
Wichita Mountains from Cedar Plantation.
Acmaeodera mixta on flower of Rudbeckia hirta (black-eyed Susan).
Typocerus octonotatus on inflorescence of Achillea millefolium (yarrow).
Strangalia sexnotatus on flower of Ratibida pinnata (gray coneflower)
Trichodes bibalteatus on flower of Rudbeckia hirta (black-eyed Susan).
Trichodes bibalteatus on flower of Ratibida pinnata (gray coneflower)
The author walks a bison trail through the Cedar Plantation.
Black-tailed prairie dog at its burrow entrance.
“Watch you lookin’ at, Willis?!”
Black-tailed prairie dog (Cynomys ludovicianus).

Medicine Park, Jack Laughter Park, Oklahoma
We’d noticed this spot yesterday because of the old post oaks and wealth of wildflowers blooming up the mountainside. There wasn’t much going on today, however—just a few Acmaeodera mixta on flowers of Gaillardia pulchella. I did find an Anthaxia (Haplanthaxia) sp. on my arm! Otherwise I spent some time photographing the landscape and some geometrid larvae on flowers of Gaillardia pulchella.

Opuntia sp. (prickly-pear cactus) amidst rocky exposures.
Small Oncoptus fasciatus (large milkweed bugs) nymphs colonize seed pods of Asclepias asperula (antelope-horns).

Medicine Park Primitive Campground, Oklahoma
We returned to this spot since we had so much luck yesterday. I was hoping to collect more Acmaeodera ornatoides and Strangalia virilis, but there was much less going on today than yesterday—basically didn’t see anything for the first hour and a half. I didn’t give up, however, and kept checking the area where we saw most of the S. virilis yesterday, and eventually I saw another male in the same area as yesterday on the same stand of Torilis arvensis. I found two more males in the same area over the next hour, so three males on the day was a good reward for the time spent looking for them. I also collected Trichodes apivorus and Trichiotinus texanus on flowers of Allium sp. Interestingly, beating the post oaks—the reason why I originally wanted to stop here—produced nothing. So, not very many specimens on the day, but happy with those I did get.

Thelesperma filifolium (stiff greenthread).
Coreopsis grandiflora (large-flowered tickseed).
Gaillardia pulchella (firewheel).
Coreopsis tinctoria (plains coreopsis).
Torilis arvensis (erect hedge parsley), introduced.
Opuntia sp. (prickly-pear cactus).
Opuntia sp. (prickly-pear cactus).
Allium sp. (wild onion).

Medicine Park, Jack Laughter Park, Oklahoma
I was pretty much done for the day after spending all morning at the refuge and most of the afternoon at the previous spot, but Rich wanted to take another look at Jack Laughter Park because he’d found some interesting grasshoppers there. As with earlier in the day there were few beetles of interest to me, but I did collect a couple of Trichiotinus texanus on flowers of Cirsium undulatum. I checked out some large post oaks with large dead branches thinking that might be what Strangalia virilis was breeding in but never saw any, and eventually I turned my attention to photographing a few interesting native plants that I found along the way.

Krameria lanceolata (trailing krameria).
Cirsium undulatum (wavyleaf thistle or gray thistle) inflorescence.

Cirsium undulatum (wavyleaf thistle or gray thistle) can be distinguished by its wavy leaves that are gray-green on both upper and lower surfaces.

Day 5 – Epilogue
We were tempted to do one last little bit of collecting on the way back to St. Louis, but since had pretty good luck during the last couple of days and the drive alone would take more than nine hours we decided to leave well enough alone and get home at a reasonable hour. A walk with Beauregard when I got home to stretch the post-drive legs was the perfect way to end the mini-vacation.


©️ Ted C. MacRae 2019

2018 Arizona Insect Collecting Trip “iReport”

Hot on the heels of the previous installment in this series, I present the sixth “Collecting Trip iReport”; this one covering a trip to Arizona during July/August 2018 with Art Evans and—like the previous installments in this series—illustrated exclusively with iPhone photographs (see previous installments for 2013 Oklahoma2013 Great Basin2014 Great Plains, 2015 Texas, and 2018 New Mexico/Texas).

This trip was a reunion of sorts—not only had it been 20 years since I’d collected in Arizona, it had also been 20 years since I’d spent time in the field with Art Evans—which just happened to be in southeast Arizona! For years I looked forward to our next opportunity, and when he told me of his plans for an extended trip to take photographs of his forthcoming Beetles of the Western United States, I couldn’t pass up the chance. Art had already been out west for five weeks by the time I landed in Phoenix on July 28th, and together we drove to Cave Creek Canyon in the Chiricahua Mountains and spent the night before beginning a 7-day adventure in and around the “Sky Islands” of southeastern Arizona.

As with the recent New Mexico/Texas post, the material collected still has not been completely processed and curated, so I don’t have final numbers of taxa collected, but there were a number of species—some highly desirable—that I managed to find and collect for the first time, e.g., the buprestids Acmaeodera yuccavoraAgrilus restrictus, Agr. arizonicusChrysobothris chiricauhuaMastogenius puncticollis, and Lampetis webbii and the cerambycids Tetraopes discoideus and Stenaspis verticalis. Who knows what as-yet-unrecognized goodies await my discovery in the still unprocessed material?!


Day 1 – Chiricahua Mountains, Cave Creek Canyon
After arriving at Cave Creek Ranch late last night, we awoke to some stunning views right outside our room!

View of Cave Creek Canyon at Cave Creek Ranch, Chiricahua Mountains.

Cave Creek Ranch, Cave Creek Canyon, Chiricahua Mountains.

Cave Creek Ranch, Cave Creek Canyon, Chiricahua Mountains.

The first buprestid of the trip was a series of Pachyschelus secedens on Desmodium near Stewart Campground. We beat the oaks and acacia along the way to Sunny Flat Campground but didn’t find much. Once we got near Sunny Flat I did some sweeping in an area with new growth of Helianthus sp. and got a series of Agrilus huachucae, a few lycids, and one Leptinotarsa rubiginosa. I beat one Acmaeodera cazieri from Acacia greggii and found another on flower of prickly poppy (Argemone sp.). On the roadside at Sunny Flat I found several Acmaeodera spp. on a yellow-flowered composite – one A. rubronotata, one A. solitaria(?), and three A. cazieri. Also collected one A. cazieri on a rain gauge, Mecas rotundicollis and one as yet undetermined acanthocinine cerambycid on miscellaneous foliage, one tiger beetle (Cicindela sedecimpunctata?) on the roadside, and two orange lycids in flight.

Majestic peaks loom over the canyon.

Blue pleasing fungus beetle (Gibbifer californicus) – family Erotylidae.

Me with Margarethe Brummermann.

Reddish potato beetle (Leptinotarsa rubiginosa) is an uncommon relative of the much more well known (and despised) Colorado potato beetle (L. decemlineata).

Margarethe Brummermann searches for beetles in Sunny Flat Campground.

Bordered patch (Chlosyne lacinia) – family Nymphalidae.

Desert flats east of Portal, Arizona
We came to this spot to look for Sphaerobothris ulkei on joint-fir (Ephedra trifurca), but after not finding any for awhile I got distracted by some big buprestids flying around. Caught several Hippomelas sphenicus, one Gyascutus caelatus, and two Acmaeodera gibbula on Acacia rigida, and the first and third were also on Prosopis glandulosa along with Plionoma suturalis. We finally found S. ulkei – searched the area for almost three hours, and Art and I each caught two and Margarethe caught one – also one each of P. suturalis and A. gibbula. I also got a mating pair of A. gibbula on Acacia greggii. After dinner, we went back and placed an ultraviolet light – checked it a couple hours later and got a nice series of Cylindera lemniscata and a few meloids (for Jeff).

Desert flats below Portal, Arizona – dominant woody vegetation is mesquite (Prosopis glandulosa), sweet acacia (Acacia constricta), and three-pronged joint-fir (Ephedra trifurca).

Art Evans photographing Hippomelas planicauda in the ‘studio’ afterwards.

Sphaerobothris ulkei, collected on Ephedra trifurca.

Day 1 of the trip ended in typical monsoon fashion – heavy, thunderous rainstorms moved into the area during late afternoon, dimming prospects for blacklighting. Still, we set them up anyway at several spots and checked them later in the evening (flood waters preventing us from going to all the spots we wanted to). Not surprisingly, the one trap that yielded interesting specimens was in the lowest (warmest) area and received the least amount of rain. For me it was a nice series of Cylindera lemniscata.


Day 2 – Southwestern Research Station, Chiricahua Mountains, Arizona
There is a large stand of a narrow-leaved milkweed (Asclepias sp.) at the station, so we stopped by in our way up the mountain to check it for beetles. Got a nice little series of Tetraopes discoideus (tiny little guys!) on the stems as well as a few Rhopalophora meeskei, two Lycus spp., and one Pelonides humeralis on the flowers.

Tetraopes discoideus (family Cerambycidae).

Rhopalophora meeskei and Lycus sp. on Asclepias sp.

IMG_3151 (Edited)

At the Southwestern Research Station with Barbara Roth, Art Evans, and Margarethe Brummermann.

Road from Southwestern Research Station to Ruster Park
After leaving the SWRS on our way up to Rustler Park, we stopped to check a couple of bushes of New Mexico raspberry (Rubus neomexicanus). Margarethe thought there might be lepturines on the flowers, but instead we found a few Acmaeodera spp. and some Rhopalophora meeskei.

New Mexico raspberry (Rubus neomexicanus).

Further up the road we made another quick stop to check roadside flowers – just a single A. rubronotata on a yellow-flowered composite, but spectacular views of the valley below.

Looking west from the Chiricahua Mountains, Arizona.

Gayle Nelson once told me about finding Chrysobothris chiricahuae on pine slash at Rustler Park, so I was pleased to see several fresh slash piles when we arrived. I saw a Chrysobothris (presumably this species) on the very first branch in the very first pile that I looked at, but I missed it (damn!) and didn’t see any more in that pile. However, in the next pile I visited I saw two and got them both. I looked at a third pile and didn’t see any, nor did I see any more on the two previous piles that I looked at. Still, two is better than none (assuming this is, indeed, what they are!).

Rustler Park, Chiricahua Mountains, Arizona.

Chiricahua National Monument
Not a bug collecting stop, but we wanted to drive into the monument and see the incredible rock formations which are best appreciated by driving through Bonita Canyon and then up to Massai Point. The unusual spires, columns, and balancing rocks are a result of erosion through vertical cracks in the compressed volcanic ash which was laid down in layers 25 million years ago and then uplifted. Tilting during uplift caused vertical fractures and slippage, into which water then worked its way to create today’s formations. One of the columns I saw is 143 feet tall and only 3 feet in diameter at one point near the base! Mexican jays were our constant, close companions as we hiked through the pinyon pine/oak/juniper woodland.

Vicinity Gleeson, Arizona
There is a wash across N Ghosttown Trail with stands of Baccharis sarothroides growing along the sides. Art previously collected a single Cotinis impia on one of the plants, so we came back to check them. We didn’t find any, but we did find two fine males and one female Trachyderes mandibularis on a couple of the plants. I also found a dead Polycesta aruensis.

Vicinity Tombstone, Arizona
Art saw Gyascutus caelatus here previously, so we came back and found them abundantly in sweet acacia (Acacia rigidula), which was in full bloom. They were extremely flighty and hard to catch, so we each got only four. I also collected one Stenaspis solitaria on the same and a Trachyderes mandibularis female in flight.

Trachyderes mandibularis female

At another spot nearby, we stopped to look for Lampetus webbii, which Art had seen but not been able to collect when he was here a couple of weeks ago. We did not see any (but read on…), and I saw but did not collect a Trachyderes mandibularis and two Stenaspis solitaria. I also saw and photographed some giant mesquite bugs (Thasus neocalifornicus).

Giant mesquite bugs (Thasus neocalifornicus).

Note the heavily armed and thickened hind legs of the male (L) versus the more slender and red/black banded hind legs of the female (R).

Not sure of the ID (other than ‘DYC’ – damned yellow composite).

The day ended enjoying steaks, Malbec, and Jameson with two of the best hosts ever!


Day 3 – Box Canyon, Santa Rita Mountains, Arizona
Our first stop of the day was Box Canyon, a gorgeous, rugged canyon on the east side of the range. Mimosa dysocarpa was in bloom, off which I beat two Agrilus aeneocephalus, several Hippomelas planicauda, and one Stenaspis solitaria. Norm gave me an Acmaeodera cazieri that he’d collected on an unidentified yellow-flowered composite, and right afterwards I found some small, low-growing plants with purple flowers and sticky leaves (eventually ID’d as Allionia incarnata, or trailing four o’clock) to which Acmaeodera yuccavora and A. cazieri were flying in numbers. After that I crawled up top and beat the mesquites, getting one Chrysobothris sp., a mating pair of S. solitaria, and a couple of large clytrine leaf beetles.

Box Canyon from just above the dry falls.
Prickly poppy (Argemone mexicana) blooming along the roadside.

Hippomelas planicauda mating pair on Mimosa dysocarpa.

Allionia incarnata, flower host for Acmaeodera cazieri and Acm. yuccavora.

Acmaeodera cazieri (left-center).

Acmaeodera yuccavora.

Lubber grasshopper (Taenipoda eques). The striking coloration warns potential predators that it is chemically protected.

Datana sp. caterpillars.

Vicinity Duquesne, Arizona
We came here to look for Tetraopes skillmani (this is the type locality). We found the host plant (Sarcostemma sp.), but there were no beetles to be seen anywhere. Maybe another location nearby…

Sarcostemma sp. (family Asclepiadaceae).

Patagonia Pass, Patagonia Mountains, Arizona
We went up higher into the mountains to get into the oak woodland, where I hoped to find some of the harder-to-collect oak-associated Agrilus spp. Right away I beat one Agrilus restrictus off of Emory oak (Quercus emoryi), but no amount of beating produced anything more than a single Enoclerus sp.. I also beat the Arizona oak (Q. arizonica) and got only a single Macrosaigon sp. On Desmodium sp. I collected not only Pachyschelus secedens but a nice series of Agrilus arizonicus. For me it is the first time I’ve collected either A. restrictus and A. arizonicus, the former being quite uncommon as well, so all-in-all not a bad stop.

Agrilus arizonicus mating pair – the males are brighter green than the females, which are more coppery.

Unidentified plant.

Me, Art Evans, and Norm Woodley.

Sycamore Canyon, Santa Cruz Mountains, Arizona
We came here for night lighting, but while we still had light I did some sweeping in the low vegetation and collected a mixed series of Agrilus arizonicus (on Desmodium sp.) and Agrilus pulchellus – the latter a first for me, along with two small cerambyids that could be Anopliomorpha rinconia. Conditions were perfect (warm, humid, and no moon), and we had lots of lights (Art’s five LED units, Steve’s MV/UV combo setup, and my UV setup), but longhorned beetles were scarce – just one Prionus heroicus and one Lepturges sp. for me, and Steve got a few others including a nice Aegomorphus sp. I did also collect a few scarabs – Chrysina gloriosa and Strategus alous – because they’re just so irresistible!

A beacon in the night!

Art, Steve, and Norm checking the lights.

Chrysina gloriosa.

A male oz beetle (Strategus aloeus).

Eacles oslari is a western U.S. relative of the imperial moth (E. imperialis).

Insects whirring around my head!

Day 4 – Prologue
One of the downsides (if you can call it that) of having great collecting is the need to take periodic “breaks” to process all the specimens and make my field containers available for even more specimens. Thanks to Steve and Norm for making their place available to Art and I so we can do this before heading out to our next set of localities.

Copper Canyon, Huachuca Mountains, Arizona
Copper Canyon is the classic spot for finding the charismatic Agrilus cavatus (see photo), but first we did some sweeping in the low vegetation near the parking area, where Norm got one Agrilus arizonicus and two Agrilus latifrons – and gave them to me! (Thanks, Norm!) I did some beating of the oaks, and after much work I ended up with a single Agrilaxia sp. and pogonocherine cerambycid on Emory oak (Quercus emoryi) and a couple of giant clytrines on the Arizona oak (Q. arizonicus). I then started sweeping the low-growing Acaciella angustissima – right away I got two A. cavatus. They were in the area past the cattle guard on the right where lots of dead stems were sticking up, and although I continued to sweep the plants more broadly in the area I never saw another one. Finally, Norm called me up to a small Mimosa dysocarpa near the car off which he collected three Agrilus elenorae – and gave them to me! (Thanks, Norm!) I gave the tree a tap and got one more, and in my last round of sweeping I came up with a Taphrocerus sp. (must be some sedges growing amongst the grasses).

Copper Canyon to the northwest.

Copper Canyon to the north.

Agrilus cavatus on its host plant, prairie acacia (Acaciella angustissima).

Robber fly (family Asilidae) with prey (a ladybird beetle).

Bear Canyon Crossing, Huachuca Mountains, Arizona
There was quite a bit of Mimosa dysocarpa in bloom along the roadsides on the west side of the Bear Canyon crossing, which I beat hoping to find some more Agrilus elenorae. I didn’t find any, but I did get several more Hippomelas planicauda, which is a nice consolation prize – and a great photo of the last one! Other than that I did a lot of sweeping and found only a single Acmaeodera cazieri.

Bear Canyon to the south.

Bear Canyon to the north.

Hippomelas planicauda on one of its hosts, velvetpod mimosa (Mimosa dysocarpa).

Appleton-Whittell Research Ranch of the National Audubon Society, Elgin, Arizona
Cool temperatures and a blustery wind discouraged most insects from finding our blacklights. However, our blacklight did find some other interesting local residents. These two individuals could be the stripe-tailed scorpion, Paravaejovis (Hoffmannius) spinigerus, a common species in Arizona and southwestern New Mexico.


Day 5 – Miller Canyon Recreation Area, Huachuca Mountains, Arizona
There was a lot of Baccharis sarothroides growing in the lower canyon near the parking area, so I checked it all out hoping to find Tragidion annulatum. None were seen, and in fact there was very little insect life in general. I did pick up a couple of Acmaeodera solitaria by sweeping – not anything significant but the 15th species buprestid of the trip and found a dead Cotinis mutabilis, and Art got a nice series of Chalcolepidius click beetles on B. sarothroides and Prosopis glandulosa. Puzzling the lack of insect activity, given how green all the plants were and how fresh the growth looked. I guess we’ll have to look elsewhere.

Acanthocephala thomasi, a leaf-footed bug (family Coridae).

I was all lined up for a side shot of the bug when suddenly he took flight.

Turkey vultures hanging out waiting for me to die!

Actually they were all hanging out around a dead cat, some of which I scared up as they were feeding on it.

Vicinity Naco, Arizona
We decided to try some desert thorn-scrub habitat so headed east towards Bisbee. Just north of Naco we saw some habitat where it had rained recently – everything was green with the sweet acacia (Acacia rigidula) and creosote (Larrea tridentata) in full bloom. Immediately out of the car I found a Dendrobias mandibularis on Baccharis sarothroides (and when I came back to it later I found a big, major male on it – see photos). On the sweet acacia we found a handful of Gyascutus caelatus (one of which I got a nice photo of), a mating pair of Sphaenothecus bivittatus, and a Cymatodera sp. Finally, out along the roadsides a riot of different yellow composites were in full bloom, including Heliomeris longifolia off which Art got a couple of Acmaeodera solitaria and I got two specimens of a large Acmaeodera sp. (blue-black with numerous small irregular yellow spots).

Dendrobias mandibularis – major male.

Them’s some mandibles!

Gyascutus caelatus on Acacia rigidula.

A blister beetle (family Meloidae) in the genus Zonitis – either sayi or dunnianus – on Heliomeris longifolia.

Heliomeris longifolia – host flower for both the Zonitis blister beetle and Acmaeodera sp. jewel beetle.

Vicinity Tombstone, Arizona
We decided to go back to the spot north of Tombstone where Art had earlier seen Lampetis webbii and give that species another shot. We looked at the Rhus sp. tree that he’d seen them on, and then we each followed the wash in opposite directions looking at the Rhus trees along them, which growing above the banks but never further away than about 25 feet. Along the way I collected several more Gyascutus caelatus on sweet acacia (Acacia rigida), which were more abundant this time than last and also easier to catch. After walking about 1/4-mile down the wash I saw something fly from a Rhus tree and land low on the bushes nearby. I quickly netted it, pulled it out, and was elated to see that it was, indeed, Lampetis webbii! I searched the Rhus in the area more carefully but didn’t find any more, then found some Rhus growing up along the road. At one point, I saw a large buprestid fly and land high in the top of another Rhus tree. I couldn’t tell for sure if it was L. webbii, but I extended my net as far as I could, positioned it beneath the beetle, and tapped the branch hoping it would fall in. Unfortunately, it flew away instead of dropping, so I can’t say for sure whether it was L. webbii or just a wayward G. caelatus. At any rate, L. webbii is yet another species that I have not collected before now and the 17th buprestid species of the trip.

Lampetis webbii, collected on Rhus sp.

Stenaspis solitaria on Acacia rigidula.

Ramsey Canyon, Huachuca Mountains, Arizona
After returning from Tombstone, we visited Pat & Lisa Sullivan at their home at the end of Ramsey Canyon. Pat is a scarab collector who runs lights at his home nightly, and after a delicious dinner we spent the rest of the evening checking the lights. I was hoping to collect Prionus heroicus, and I got my wish. Also got Prionus californicus and several other non-cerambycid beetles such as Chrysina beyeri, C. gloriosa, Lucanus mazama, and Parabyrsopolis chihuahuae (the latter a first for me). I also placed a prionic acid lure (thanks Steve!) and got three more male P. heroicus. We also hunted around the rocks and roadsides hoping to find Amblycheila baroni but didn’t find any. Art did, however, find a female P. californicus and gave it to me (thanks!).

Meeting Pat Sullivan!

Darkling beetles (family Tenebrionidae) such as this one come out at night to feed on decaying vegetation.

Chrysina beyeri (family Scarabaeidae) is one of three species in the genus occurring in Ramsey Canyon.

Black-tailed rattlesnake (Crotalus molossus), collected by Pat in Ramsey Canyon.

Sidewinder (Crotalus cerastes lateropens), collected by Pat in Yuma County.

“Sometimes the best collecting is inside!”

Day 6 – Vicinity Sonoita, Arizona
Unsuccessful attempt to collect Hippomelas martini, only recently described (Bellamy & Nelson, 1998) and part of the type series taken somewhere near this spot (“20 mi NE Patagonia, Hwy 82”) by “sweeping roadside vegetation”. At other locations it had been recorded on Calliandra sp., and I found patches of the plant here along and on top of the road cuts. This gives me confidence that I found the right spot, but I didn’t encounter this or any other beetles by sweeping the patches or visually inspecting them.

Box Canyon, Santa Rita Mountains, Arizona
We decided to come back to Box Canyon since we’d had such good luck last time. I started at the spot above the dry falls where I collected so many Acmaeodera cazieri and A. yuccavora on flowers of Allionia incarnata. This time it was hotter, drier, and windier, and the flowers were semi-closed. Still I found a few of each. I then started walking down the road towards the lower canyon crossing where I would meet up with Art. Things were really hopping on the Mimosa dysocarpa, with Hippomelas planicauda abundant (finally collected my fill) and several other Buprestidae also beaten from the plants: Agrilus aeneocepahlus, Acmaeodera scalaris, Acmaeodera cazieri, Chrysobothris sp., and a species of Spectralia! (seven species of Buprestidae at one location I think is the high for the trip.) I checked other plants and flowers along the way down but didn’t find much.

Halfway down from the “dry falls”.

The “dry falls” about halfway up the canyon.

Pseudovates arizonae – the aptly named Arizona unicorn mantis.

Lower Madera Canyon, Santa Rita Mountains, Arizona
Madera Canyon is perhaps the most famous insect collecting locality in Arizona – maybe in the country, and it is hard to make a visit to Arizona without stopping by here. We elected to work the lower canyon first in an area where Chrysobothris chalcophoroides has been taken on Arizona oaks (Quercus arizonicus). Hiking towards the oaks I found some Stenaspis solitaria in a Baccharis sarothroides and marveled at the variety of other insects active on the plants (see photos) – later I would also collect an elaphidiine cerambycid on the plant. Next I started working the oaks, beating every branch I could reach with my net handle. With one whack of the stick a single Paratyndaris sp. and a single Brachys sp. landed on my sheet – those would be the only buprestids I would collect off the oaks! Other than that I collected one Hippomelas planicauda on Mimosa dysocarpa for the record. While I was working the oaks up in the knoll, the weather started turning with blustery winds, and I could see the rain coming in the distance. By the time I got down from the knoll the rain had arrived, and I walked back to the car in a sunny downpour using my beating sheet as an umbrella!

Madera Canyon in the Santa Rita Mountains.

Acanthocephala thomasi on Baccharis sarothroides.

What appears to be a so-called “cricket killer” wasp (Chlorion aerarium) also feeds on sap on Baccharis sarothroides.

A longhorned beetle, probably in the genus Aneflus, rests on the foliage of Baccharis sarothroides.

Rain headed my way!

Rain passing into neighboring Florida Canyon.

Montosa Canyon, Santa Rita Mountains, Arizona
Just to try something different, we went to Montosa Canyon – the next canyon south of Madera Canyon – for tonight’s blacklighting. We set my sheet up just E of the crossing and Arts ground units back to the west along a gravel road on the south side of the crossing. Moths came in numbers, but the beetles were light – I collected only blister beetles (Epicauta sp.) and a Cymatodera sp. checkered beetle at the sheet, a series of tiger beetles and a female Strategus cessus at the second ground unit, and a male Strategus aloeus and two Stenelaphus alienus at the third ground unit.

A gorgeous sunset to start the evening.

A deepening dusk brings the promise of insects at the lights. 

A bee assassin bug, Apiomerus flaviventris.

An ocotillo, or calleta, silkmoth – Eupackardia calleta.

One of the western riparian tiger beetles.

Day 7 (last day) – Vicinity Continental, Arizona
There was a photo posted on BugGuide of Stenaspis verticalis taken last week, so we decided to give it a shot and see if we could get lucky and find it ourselves. We checked all the Baccharis sarothroides within ½-mile if the spot but didn’t find it. I did, however, collect four Euphoria leucographa, two Chalcolepidius smaragdula, two Aneflus spp., and singletons of Stenaspis solitaria and Dendrobias mandibularis. I also took a couple of Hippomelas planicauda on Mimosa dysocarpa – just for the record!

Euphoria leucographa on Baccharis sarothroides.

Chalcolepidius smaragdinus on Baccharis sarothroides.

Lower Madera Canyon, Santa Rita Mountains, Arizona
We returned to work the lower canyon area. I’d heard that the tiger beetle Cicindelidia obsoleta santaclarae has been taken in the area last week so was hoping to run into it. While Art worked the east side of the road I worked the west, initially following FR-781 into what looked like grassland areas where the tiger beetle might occur. I didn’t see any but took Acmaeodera scalaris on Heterotheca sp. flowers and Acmaeodera solitaria on Argemone mexicana flowers. There was also a fresh wind-thrown mesquite (Prosopis glandulosa) with a bunch of Chrysobothris octocola and one Chrysobothris rossi on it. Still the area looked abused from grazing and was uninteresting, so I looked for another area to explore.

Northwest of the parking lot I spotted another grassy area that was dotted with Baccharis sarothroides, so I decided to give that area a look. After clambering several times through barbed wire fence, I reached the area and began to give it a look. Still no tiger beetles, but every time I passed a B. sarothroides I inspected it closely. I’d looked at several plants when I came upon one with a Stenaspis solitaria sitting in the foliage, and when I looked down on one of the stems and saw a big male Tragidion sp. on the underside of the stem. After securing it, I looked closer at the plant and saw a pair of annulated antennae crawling up another stem – I knew right away it was a mating pair of Stenaspis verticalis! After carefully moving to the other side to confirm, I dared to take a few photos in situ (see below) and then secured the couple. Of course, this gave me newfound motivation to work the entire area to look for more. It was very hot by then, and I was already quite thirsty, but I summoned up all the stamina that I could and worked as many plants as I could, ending up with six Tragidion spp. and three Stenaspis verticalis. The latter was one of my top priority targets for this trips, and the only thing more satisfying than getting it is doing so on my last day on the field.

View to south edge of Madera Canyon – Elephant Head is at the right.

Chrysobothris octocola female ovipositing on freshly killed mesquite (Prosopis glandulosa).

Tragidion sp. mating pair on Baccharis sarothroides.

Mating pair of Stenaspis verticalis arizonensis on Baccharis sarothroides.

Chalcolepidius lenzi at a sap flow on Baccharis sarothroides.

Lateral view of Chalcolepidius lenzi.

Barrel cactus in bloom.

Montosa Canyon, Santa Rita Mountains, Arizona
We  returned to Montosa Canyon and stopped at the Astronomy Vista partway up. It was hotter than bejeebuz! There was not an insect to be seen except giant cactus bugs and a single Euphoria leucographa that Art found on a sapping Baccharis sarothroides. Temp was 103°F even at this elevation!

Stunning vista during the day! 

We needed to escape the heat, and I wanted to see oaks for one more crack at Mastogenius, so we drove up to the 13-km marker and I collected on the way back down to below the 12-km marker. Conditions were much more agreeable (temps in the 80s), and near the top there was a Ceanothus sp. bush in bloom, off which I collected Rhopalophora meeskei and Stenosphenus sp. – both genera represented by individuals with black versus red pronotum. Then I started beating the (Mexican blue, I believe) oaks, and right away I got a Mastogenius sp.! Kinda small, so I’m thinking not M. robusta and, thus, probably M. puncticollis (another species new to my collection). I also beat a largish Agrilus sp. that I don’t recognize, a few clerids, two R. meeskei, one Stenosphenus sp., and a couple of leaf beetles. There was also another type of oak there – Arizona white, I believe, which I beat as well but only got one clerid.

Spectacular views from 7000 ft!

A lichen moth on flowers of Ceanothus sp.

The biggest, fattest, bristliest tachinid fly I have ever seen!

The spectacular vistas just keep on coming!

An ancient alligator juniper stares down yet another sunset (perhaps its 50 thousandth!).

We stopped by the Astronomy Vista again on our way back down the canyon, and I found a pair of Moneilema gigas on cholla (Opuntia imbricata).

Obligatory dusk shot of Moneilema gigas on Opuntia imbricata.

Another individual on the same plant.

Sunset over “Las Cuatro Hermanas”.

It was a fantastic seven days in the field with Arthur, and it was a great pleasure to (in some cases, finally) meet Margarethe, Barbara, Steven, Norm, and Pat. I appreciate the warmth, generosity, and hospitality that all of them displayed to me and look forward to our next encounter, hopefully in the near future. Now, for some light reading during the plane ride home!

© Ted C. MacRae 2019

Summer Insect Collecting iRecap

At the beginning of the season I was planning to spend the first week of June collecting insects in southeastern New Mexico. Family issues intervened, however, and left me with a week of vacation time and no plans on how to use it. I’ve never been one to not use vacation time, so I quickly came up with a backup plan—a Friday here and a Monday there to create several 3–4 day weekends. Long weekends may not allow travel to far off and exotic places, but they do allow me to travel a bit further than I would for a regular weekend. I also took advantage of my frequent travel for work to stop off at favorite collecting sites for an evening of blacklighting (much more fun than sitting in a hotel room) or a half-day in the field before getting back home. I always have my big camera with me for serious insect photography when the opportunity arises, but I also take frequent iPhone snapshots to document the “flavor” of my time in the field. In previous years, I’ve collected snapshots from my extended trips into “iReports”, which were later followed by posts featuring subjects that I spent “quality camera time” with (see 2013 western Oklahoma, 2013 Great Basin, and 2014 Great Plains). I’ve decided to do the same thing now, only instead of a single trip this report covers an entire summer. I realize few people have the patience for long-reads; nevertheless, enough readers have told me that they like my trip reports and all of their gory details to make this a worthwhile exercise. If you’re not among them, scan the photos—all of which were taken with a stock iPhone 5S and processed using Photoshop Elements version 11—and you’re done!


Searching for the Ghost Tiger Beetle
Central/Northwest Missouri (12–14 June 2015)

In mid-June my good friend, colleague, and fellow cicindelophile Chris Brown and I followed the Missouri River Valley across the state and and up along its northwestern border to visit previously known and potentially new sites for Ellipsoptera lepida—the Ghost Tiger Beetle. We first saw this lovely white species back in 2000 while visiting some of the large sand deposits laid down in central and east-central Missouri by the 1993 flood. In the years since these sites have become increasingly encroached by forests of eastern cottonwood (Populus deltoides), making them less and less suitable for the beetle (it also remains one of only two tiger beetles known to occur in Missouri that I have not yet photographed). In the meantime several new sand deposits have been laid down in northwestern Missouri by flooding in 2011, so the question has come up whether the beetle has yet occupied these new sites. We started out at a couple of potentially new sites in east-central Missouri (and did not find the beetle), then went to one of two known sites in central Missouri. We did not find the beetle there either, but we did find this eastern hognose snake  (Heterodon platirhinos).

Eastern hognose snake (Heterodon platirhinos)

Eastern hognose snake (Heterodon platirhinos) | vic. Eagle Rock Conservation Area, Boone Co.

Hognose snakes are well known for their vaired repertoire of defensive behaviors—from flattening of the head and hissing to rolling over and playing dead (a behavior called thanatosis)—the latter behavior often accompanied by bleeding from the mouth and even defecating onto itself. This one, however, was content to simply flatten its head and hiss, its tongue constantly flickering.

Eastern hognose snake (Heterodon platirhinos)

The flattened head is an attempt by the snake to make itself appear larger and more imposing.

Standing its ground as tenaciously as it did, I took advantage of the opportunity to close in tight and take a burst series of photos, which I used to create this animated gif of the snake’s constantly flickering tongue.

Eastern Hognose Snake (Heterodon platirhinos)

After an evening of driving to northwest Missouri and a stay in one of our favorite local hotels (eh hem…), we awoke to find the scene below at our first destination.

Ted MacRae & Chris Brown look out over a flooded wildlife refuge

Ted MacRae & Chris Brown look out over a flooded Thurnau Conservation Area, Holt Co.

No tiger beetles there! What to do now. One thing I love about modern times is the ability to pull out the smart phone and scan satellite images of the nearby landscape. Doing this we were able to locate a large sand deposit just to the south and navigate local, often unmarked roads to eventually wind up at a spot where we could access the area on foot. But before we did this we needed gas, and the only gas station for miles was a Sinclair station with a bona fide, original green dinosaur—one of the most potent and iconic corporate symbols ever! I remember these from my childhood, but this is the first one I’ve seen in years.

Authentic Sinclair dinosaur

An authentic Sinclair dinosaur guards the only gas station for miles.

Rain the night before had made the roads muddy, and it was only with some difficulty that we finally located a way to access the sand deposits we had seen on the satellite images. Even then we needed to hike a half-mile to access the sand plain, but once we got there this is what we saw:

Sand plain deposited 2009

Sand plain deposited 2011 along Missouri River, Thurnau Conservation Area, Holt Co.

At first we were optimistic—the habitat looked perfect for not only E. lepida but also the more commonly seen Cicindela formosa generosa (Eastern Big Sand Tiger Beetle) and, at least in this area, C. scutellaris lecontei (LeConte’s Tiger Beetle). We saw no adults however, as we searched the plain, and we wondered if the cool, cloudy conditions that lingered from the previous evening’s storms were suppressing adult activity. After awhile, however, we noted that we hadn’t even found evidence of larval burrows, and that is when we began to think that maybe four years wasn’t long enough for populations to establish in such a vast expanse of new habitat. Eventually Chris did find a single E. lepida adult—a nice record but certainly not evidence of a healthy population.

Sand plain deposited 2009

Seemingly perfect habitat, but void of active adults or evidence of larval burrows.

The next sand plain we visited was a little further north at Corning Conservation Area, also in Holt Co. and also laid down by the 2011 flood. Once again we saw no active tiger beetles in the area, and by this point we were convinced that the species were not just inactive but had not yet even colonized the plains. It should be noted that large sand expanses such as these actually are not exactly a natural process, but rather the result of river channeling and the use of levees to protect adjacent farmland. Before such existed, the river existed as an intricate system of braided channels that rarely experienced catastrophic flooding. Nowadays, with the river confined to a single, narrow channel, the river valley doesn’t experience a normal ebb and flow of water. Only when water levels reach such extreme levels in the narrow channel that they breach a levee does the adjacent valley flood, with the area immediately downstream from the levee breach receiving huge amounts of sand and mud scoured from the breach zone. Tiger beetle species adapted to ephemeral sand plain habitats along big rivers probably

Sand plain deposited 2009

Another sand plain deposited in 2011 at Corning Conservation Area, Holt. Co.

Cottonwoods and willows were already colonizing the edge of the plain, and the latter were heavily infested by large blue leaf beetles. As far as I know the only species of Altica in Missouri associated with willow is A. subplicata, although admittedly it is a large, diverse genus and there could be other willow-associates within the state that I am unaware of. The beetles seemed especially fond of the smaller plants (1–3′ in height), while taller plants were relatively untouched.

Altica bimarginata (willow flea beetle)

Altica subplicata? (willow flea beetle) | Holt Co., Missouri

Altica bimarginata (willow flea beetle)

Beetles congregated heavily on smaller willow plants.

Altica bimarginata (willow flea beetle)

Despite the heavy adult feeding we could find no larvae on the foliage.

Few other insects were seen. I did see a large, standing, dead cottonwood (Populus deltoides) and checked it out hoping hoping to find a Buprestis confluenta adult or two on its naked trunk (a species I found for the first time last year and still have yet to find in Missouri, although it is known from the state). No such luck, but I did collect a couple of large mordellids off of the tree. Let me say also that there were some interesting other plants in the area…

Wild hemp (Cannabis sativa)

Wild hemp (Cannabis sativa)

After satisfying ourselves that Corning also was not yet colonized by the tiger beetles, we drove further north into Atchison Co., the northwesternmost county in the state, to check out one more sand plain deposited by the 2011 flood at Nishnabotna Conservation Area. The sand plain at this area was much smaller than the two previous plains we had visited, and it was also far less accessible, requiring a bushwhacking hike through thick vegetation that was quite rank in some areas. Nevertheless, we soldiered on, motivated by the hope that maybe the third time would be a charm and we would find the beetles that we were searching for. The hike was not all bad—eagles were abundant in the area, and in one distant tree we could see a female perched near her nest with two large nestlings sitting in it. The passing storm system and sinking sun combined to create a rainbow that arched gracefully over the tree with the nest, resulting in one of the more memorable visions from the trip.

Rainbow over eagle's nest

Rainbow over eagle’s nest (tree is located at left one-third of photo).

By the time we got close enough to get a better photograph of the nest the female had departed, but the two nestlings could still be seen sitting in the nest. Sadly, the rather great effort we made to hike to the sand plain was not rewarded with any tiger beetles, and in fact the sand plain was little more than a narrow, already highly vegetated ridge that will probably be completely encroached before the tiger beetles ever find it.

Eagles in nest

Eagles in nest

Ellipsoptera lepida was not the only tiger beetle we were hoping to see on the trip. The Sandy Stream Tiger Beetle, E. macra, has also been recorded from this part of the state, and being members of the genus Ellipsoptera both species can be attracted to lights at night. In one last effort to see either of these species, we went to Watson Access on the Nishnabotna River, near its confluence with the Missouri River. Thunder clouds retreating to the east were illuminated by the low hanging sun to the west, creating spectacular views in both directions. Unfortunately, the insect collecting at the blacklights after sunset was not near as interesting as the sky views that preceded it.

Sunset lit thunderclouds

Sunset lit thunderclouds to the east…

Sunset on the Nishnabotna River

… and a bright colored sunset to the west on the Nishnabotna River, Atchison Co.

The next day we had to start making our way back to St. Louis. But while we were in the area we decided to check on the status of one of Missouri’s rarest tiger beetlesParvindela celeripes (formerly Cylindera celeripes)—the Swift Tiger Beetle. Not known to occur in Missouri until 2010, this tiny, flightless species is apparently restricted in the state to just three small remnants of loess hilltop prairie in Atchison and Holt Counties. We were close to one of these—Brickyard Hill Conservation Area (where Chris and I first discovered the beetles) so stopped by to see if adults were active and how abundant they were. To our great surprise, we found adults active almost immediately upon entering the site, and even more pleasantly surprising the adults were found not just in the two small areas of the remnant where we had seen them before but also in the altered pasture (planted with brome for forage) on the hillside below the remnant (foreground in photo below). This was significant in our minds, as it was the very first time we have observed this beetle in substantially altered habitat. The beetle was observed in relatively good numbers as well, bolstering our hopes that the beetles were capabale of persisting in these small areas and possibly utilized altered pastureland adjacent to the remnants.

Loess hilltop prairie

Brickyard Hill Conservation Area, loess hilltop prairie habitat for Parvindela celeripes

As we made our way back towards St. Louis, there was one more site created by the 1993 flood where we observed E. lepida in the early 2000s that we wanted to check out and see how the beetle was doing. In the years since we first came to Overton Bottoms, much of its perimeter has converted to cottonwood forest; however, a large central plain with open sand exposures and bunch grasses persists—presumably providing acceptable habitat for the species. Chris had seen a few beetles here in a brief visit last summer, but this time we saw no beetles despite a rather thorough search of the central plain. It seemed untenable to think that the beetles were no longer present, and we eventually decided (hoped) that the season was still too young (E. lepida is a summer species, and the season, to this point, had been rather cool and wet). The photos below show what the central plain looks like—both from the human (first photo) and the beetle (second photo) perspective. I resolved to return later in the month to see if our hunch was correct.

Sand plain (people view)

Big Muddy NFWR, Overton Bottoms, south unit, sand plain habitat for Ellipsoptera lepida

Sand plain (tiger beetle view)

A tiger beetle’s eye view of its sand plain habitat

It doesn’t happen often, but every now and then I get caught by rain while out in the field, and this time we got caught by a rather ominous thunderstorm. The rain didn’t really become too heavy until shortly before we reached the car, but the lightning was a constant concern that made bushwhacking back more than a mile through thick brush one of the more unnerving experiences that I’ve had to date.


Trying for Prionus—part 1
South-central Kansas (26–29 June 2015)

Last summer Jeff Huether and I traveled to several locations in eastern Colorado and New Mexico and western Oklahoma to find several Great Plains species of longhorned beetles in the genus Prionus using recently developed lures impregnated with prionic acid—a principal sex pheromone component for the genus. These lures are extraordinarily attractive to males of all species in the genus, and on that trip we managed to attract P. integerP. fissicornis, and P. heroicus and progress further in our eventual goal to collect all of the species in the genus for an eventual molecular phylogenetic analysis. One species that remains uncollected by pheromones (or any other method) is P. simplex, known only from the type specimen labeled simply “Ks.” A number of Prionus species in the Great Plains are associated with sand dune habitats, so we had the idea that maybe P. simplex could be found at the dunes near Medora—a popular historical collecting site, especially with the help of prionic acid lures. Perhaps a long shot, but there’s only one way to find out, so we contacted scarab specialist Mary Liz Jameson at Wichita State University, who graciously hosted Jeff, his son Mark Huether, and I for a day in the field at Sand Hills State Park. We didn’t expect Prionus to be active until dusk, during which time we planned to place lure-baited pitfall traps and also setup blacklights as another method for attracting the adult males (females don’t fly). Until then, we occupied ourselves with some day collecting—always interesting in dune habitats because of the unique sand-adapted flora and the often unusual insects associated with them.

"Medora" Dunes

Sand Hills State Park (“Medora Dunes”), Kansas

Milkweeds (genus Asclepias) are a favorite of mine, and I was stunned to see a yellow-flowered form of butterfly milkweed (A. tuberosus). Eventually I would see plants with flowers ranging from yellow to light orange to the more familiar dark orange that I know from southern Missouri. I checked the plants whenever I saw them for the presence of milkweed beetles, longhorned beetles in the genus Tetraopes (in Missouri the diminutive T. quinquemaculatus is most often associated with this plant), but saw none.

Asclepias tuberosus "yellow form"

Asclepias tuberosus “yellow form”

In the drier areas of the dunes, however, we began to see another milkweed that I recognized as sand milkweed (A. arenicola). I mentioned to Jeff and Mary Liz that a much rarer species of milkweed beetle, T. pilosus, was associated with this plant and to be on the lookout for it (I had found a single adult on this plant at a dune in western Oklahoma a few years back). Both the beetle and the plant are restricted to the Quaternary sandhills of the midwestern U.S., and within minutes of me telling them to be on the alert we found the first adult! During the course of the afternoon we found the species to be quite common in the area, always in association with A. arenicola, and I was happy to finally have a nice series of these beetles for my collection.

Tetraopes pilosus

Two Sandhills specialties—Tetraopes pilosus on Asclepias arenaria

Milkweed beetles weren’t the only insects associated with sand milkweed in the area—on several plants we saw Monarch butterfly larvae, some nearing completion of the larval stage as the one shown in the photo below. Monarchs have been in the news quite a bit lately as their overwintering populations show declines in recent years for reasons that are not fully understood but may be related to recent droughts diminishing availability of nectaring plants for migrating adults and reduction of available food plants as agricultural lands in the U.S. become increasingly efficient.

Danaus plexippus larva

Monarch butterfly (Danaus plexippus) larva on Asclepias arenaria

We found some other interesting insects such as the spectacular Plectrodera scalator, cottonwood borer, and the southern Great Plains specialty scarab, Strigoderma knausi, both of which I took the time to photograph with the big camera—separate posts on those species will appear in the future. Sadly, no Prionus came to either our lures or our lights that evening, but some interesting other insects were seen during the day and even at the lights despite unseasonably cool temperatures and a bright moon. I’ll post photographs of these insects, taken with the “big” camera, in the coming weeks. In the meantime, my thanks to Mary Liz for hosting us—I look forward to our next chance to spend some time in the field together.

Ted MacRae, Mark Huether, Jeff Huether, Mary Liz Jameson

Ted MacRae shows Mark Huether, Jeff Huether, and Mary Liz Jameson how to take a panoramic selfie.

The following day, Adam James Hefel—at the time a graduate student at Wichita State University—and I traveled northwest of Wichita to Quivira National Wildlife Refuge. Adam has recently become interested in tiger beetles and had observed several interesting species on the margins of the salt marshes at Quivira. Several of these species were on my “still to photograph” list (and one even on my “still to see” list), so I was happy to have access to some local knowledge to help me

Salt marsh

Quivira NWR – salt marsh habitat for halophilic tiger beetles

The saline flats of the central U.S. are hyperdiverse for tiger beetles. Adam has seen six species in the saling flats of Quivira, including the saline specialists Cicindela fulgida, C. wllistoni, Ellipsoptera nevadica knausi, Eunota togata, and E. circumpicta johnsonii (formerly Habroscelimorpha) (both red and green forms) and the ubiquitous Cicindelidia punctulata. We managed to find all of these except C. willistoni, which is a spring/fall species—unusual for a saline specialist, but the extreme heat of the day made them exceedingly difficult to approach (and virtually impossible to photograph).

Salt marsh

Tiger beetles are found most often in alkaline flats with sparse vegetation

Salt marsh

The wide open central flats are devoid of not only vegetation but tiger beetles (and life in general!).

Ever fascinated by the diversity of milkweeds to be found in the central U.S., an unfamiliar Asclepias growing in the higher, drier areas around a salt marsh caught my attention. Of course, I checked them for milkweed beetles and quickly found a number of Tetraopes tetraophthalmus individuals. John Oliver kindly identified the milkweed from my photos as Asclepias speciosa (showy milkweed), which does not occur in Missouri (hence the reason I was not familiar with it) but that gets common in the Great Plains and foothills of the Rocky Mountain.

Asclepias speciosa

Asclepias speciosa, or showy milkweed.

Asclepias speciosa

The specific epithet “specioosa” refers to the large, showy flowers.

Tiger beetles were not the only wildlife encountered on the saline flats. Killdeer and western snowy plover adults were abundant in the area, and we found this next with eggs along the lightly vegetated edge of a saline flat around Big Salt Marsh. Cheryl Miller suggested they are probably plover eggs, since killdeer don’t usually scrape out a cup or put debris around the eggs, while snowy plovers are known to nest on or near salt flats and frequently surround their eggs with twigs, small bones or other debris.

Western snowy plover (Charadrius nivosus) eggs

Western snowy plover (Charadrius nivosus) nest with eggs at the edge of an open flat

During the drive into the refuge, I noted several stands of large cottonwood (Populus deltoides), many of which were half- or completely dead. To some, these trees may be just ugly, half-dead trees. For me, however, they offer an opportunity to look for the gorgeous and rarely encountered Buprestis confluens, a species which I found for the first time just last year (not too far from hear in north-central Oklahoma). After getting our fill of tiger beetles, we drove to a parking lot surrounded by some of these trees, and even before I got out of the car I could see an adult B. confluens sitting on the trunk of a large, dead tree at the edge of the parking lot! I quickly secured the specimen, then spotted the half-dead tree in the photo below and walked towards it to look for more. I did not see any adults sitting on the trunk, but what I did see was truly incredible—two adults just beginning to emerge from the trunk! Waiting for one of the adults to emerge naturally (we “helped” the other one along) and photographing the sequence would occupy the next hour, but what an experience (and, of course, photos to come in a separate post).

Populus deltoides surrounded by hemp

This large, half-dead Populus deltoides “screams” Buprestis confluenta!

Wild hemp (Cannabis sativa)

Wild hemp (Cannabis sativa) fills the are with a pungent aroma.

After a break from the heat and something to eat in the nearest town (20 miles away), I returned to the cottonwoods, broke out the hatchet, and began chopping. Cottonwood is an amazingly soft wood compared to hardwoods such as oak and hickory, but dead cottonwood is still tough, and only after much effort did I manage to chop out two pupae (one of which later successfully emerged as an adult) and two unemerged adults, resulting in a nice, if still rather small, series of a species that until last year was not represented in my collection and until this time by only a single specimen.

Chopping Buprestis confluenta unemerged adults/pupae

Chopping Buprestis confluenta unemerged adults/pupae

Buprestis confluenta pupa

Exposed Buprestis confluenta pupa in its pupal chamber.

With the setting sun illuminating distant thunderclouds, I returned to the salt marshes to setup blacklights for the evening in hopes of attracting some of the tiger beetles that we had seen earlier in the day—not in attempt to collect more specimens, but rather to take advantage of their attraction to the lights and reduced skittishness in the cool, night air in an attempt to photograph them (I already had live specimens for studio photographs if necessary, but I prefer actual field photographs whenever possible). Eunota togata was not attracted to the lights, but both E. nevadica knausi and E. circumpicta johnsonii came to the lights in numbers (both red and green forms of the latter), and I succeeded in getting some real nice photographs as a result.

Thundercloud illuminated by setting sun

Thundercloud illuminated by setting sun

On the way back home, and again with the sun dropping close to the horizon, I stopped by Overton Bottoms again to look for Ellipsoptera lepida. Chris and I hadn’t see it here two weeks ago, and I was thinking (hoping) that it might have still a bit early in the season. This time I found them, and although they were not numerous and were apparently confined to the southernmost exposures of the central sand plain, they were still plentiful enough to allow me to get the field shots that I’ve wanted of this species for so long (and providing fodder for yet another future post). This species never seems to be encountered in great numbers, and although I have seen them on a number of occasions it always amazes me just how difficult they are to see!

Sand plain

Another pass through Overton Bottoms looking for Ellipsoptera lepida, this time with success!


Tryin’ for Prionus—part 2
South-central Kansas (11–12 July 2015)

Although our long-shot effort for Prionus simplex at the dunes near Medora, Kansas didn’t pan out, another species we hoped to see was P. debilis—a rather uncommonly collected species that occurs in the tallgrass prairies of the eastern Great Plains and, to our knowledge, had not yet been demonstrated to be attracted to prionic acid. I’d only seen this species once myself, some 30 years ago when I collected four males at lights near the southwestern edge of Missouri. As it happens, longtime cerambycid collector Dan Heffern grew up in P. debilis-land near Yates Center—not too far from where we were just a few weeks ago. When I mentioned my search for the species, he told me how commonly he used to see it around his home—especially around the 4th of July—and put me in contact with a friend who still lives in the area and has several tallgrass prairie remnants on his land. I made arrangements to visit the following weekend, and with prionic acid impregnated lures in the cooler and blacklights and sheets in the cargo area I set off. As I passed south through eastern Kansas I began to see nice tallgrass prairie remnants about 20 miles from my destination, so I took a chance and set a trap as a backup in case things didn’t pan out near Yates Center.

Trap baited with prionic acid lure

Trap baited with prionic acid lure

Things did pan out, however, although for a long time it did not appear they would. Dan’s friend kept me company while I placed a couple of traps and setup the blacklights, and for a couple of hours after sunset no beetles were seen (although we did enjoy good beer and better conversation). Just when I was ready to throw in the towel I saw a male crawling on the ground near one of the lights, and over the course of the next hour I found nearly a dozen males crawling on the ground in the general area around the lights but never actually at the lights. Interestingly, no males were actually seen in flight, nor were any attracted to the trap placed near one of the lights; however, after I took down the lights and checked the other trap there were five males in it. This likely represents the first demonstration of attraction to prionic acid by males P. debilis. I brought a couple of live males home for photography, taking this iPhone shot of a sleeping beetle in the meantime.

Prionus debilis "sleeping"

Prionus debilis “sleeping”in its cage after being taken near an ultraviolet light

One the way back home the next morning, success already “in the bag”, I stopped to check the trap I had placed the previous day. Filled with anticipation as I approached the trap, I was elated to find 21 males in the trap!

Prionus debilis

Prionus debilis in prionic acid lure-baited trap

The male antennae of this and other Prionus species show numerous adaptations that are all designed to maximize the ability to detect sex pheromones emitted into the air by females. They are both hyper-segmented and flabellate, providing maximum surface area for poriferous areas filled with chemical receptors. Larval habits for this species remain unknown, but Lingafelter (2007) states “Larvae may feed in living roots of primarily Quercus and Castanea, but also Vitis, Pyrus, and Zea mays.” I am not sure of the source of this information and don’t really believe it, either, as I think it much more likely that they feed on roots of bunch grasses such as bluestems (Andropogon spp.) and other grass species common in the tallgrass prairies.

Prionus debilis

Prionus debilis “looking” out over its tallgrass prairie habitat

Before reaching St. Louis, I decided to stop off at the last two known sites for Missouri’s endangered (possibly extirpated), disjunct, all-blue population of Eunota circumpicta johnsonii (Johnson’s Tiger Beetle). This didn’t go well—I first tried Blue Lick Conservation Area in Cooper County, where Chris Brown and I made the last known sighting of this beetle in the state 12 years ago at a salt spring about 500 yards further down the road in the photo below. I’m unsure what adaptations adults and larvae may have for surviving prolonged flooding, but it certainly cannot be helpful for the beetle. I then visited nearby Boone’s Lick State Historic Site in Howard County, and while the site was not flooded the two small areas where salt springs were located during our survey were even more heavily encroached by vegetation than before. Not only were no beetles seen, there did not even seem to be the slightest possibility that beetles could occur there. I keep hoping that the beetle will, someday, be seen again, but in reality I think I am just having trouble accepting the fact that I may have actually witnessed the extirpation of this incredibly beautiful and unusual population of beetles.

Flooded road leading to saline lick tiger beetle habitat

Flooded road leading to last known Missouri site for Eunota circumpicta johnsonii


Chillin’ after work
Sand Prairie – Scrub Oak Preserve, central Illinois (15 July 2015)

By the time mid-July rolls along, temperatures are not the only thing heating up. My travel for work also reaches a fever pitch as I begin traveling to research plots in Illinois and Tennessee every  two weeks. It takes three days to make the +1,000-mile round trip, which means that I have two nights and an occasional afternoon stop to collect insects—much more fun than checking into hotel right after work, eating dinner at Applebee’s, and spending the evening switching back and forth between FOX and MSNBC to see who can make the most outrageous statement because IFC just isn’t offered. One of my favorite spots along this route to set up a blacklight is Sand Prairie – Scrub Oak Preserve in Mason County, Illinois. Nothing too spectacular showed up at the lights there this season, but as they say a bad day (or night) of bug collecting is better than a good day of just about anything else.

Ted MacRae at the blacklight

Calling all insects—the blacklight awaits you!

On this particular night a number of hawk moths (family Sphingidae) came to the lights, among the prettier of which included this Paonias excaecata (blinded sphinx) (kindly identified by Robert Velten).

Blinded Sphinx, Paonias excaecata

Paonias excaecata (blinded sphinx) | Sand Prairie – Scrub Oak Preserve, Mason Co., Illinois


More chillin’ after work
Pinewoods Lake, southeast Missouri (28 July 2015)

Another species of Prionus that I hadn’t seen for many years was P. pocularis, a species found in the pineywoods across the southeastern U.S. and, thus, reaching its northwestern distributional limits in the shortleaf pine (Pinus echinata) forests of the Ozark Highlands in southern Missouri. Like P. debilis, I had only seen this species once before—two males at a blacklight at Pinewoods Lake National Forest Recreation Area in Carter County many years ago. Unlike P. debilis, however, these were seen later in summer, as were a few other specimens known from the state. That being the case, I decided to try the prionic acid lures at Pinewoods Lake while traveling back up from Tennessee. I arrived at the lake shortly before sunset and, after getting the traps put out and the lights setup, had the chance to look out over the lake and its surrounding forests where I had collected so many insects back in the 1980s as a young, eager, budding coleopterist.

Pinewoods Lake at dusk

Pinewoods Lake at dusk

Quite some time passed and no Prionus beetles were seen at the light or in the trap (but several other longhorned beetles did occur). Recalling my experience with P. debilis in Kansas a few weeks earlier, I remained hopeful, and eventually my optimism was rewarded when I found this single male floating in the trap’s ethanol preservative. Curiously, it would be the only male seen that night, although several individuals of the related and much more common P. imbricornis were attracted to the prionic acid lures.

Prionus pocularis

Prionus pocularis in prionic acid lure-baited trap | Pinewoods Lake, Carter Co., Missouri

Several other insects did come to the blacklights, among the more photogenic being this underwing moth (genus Catacola, family Noctuidae) identified by Mathew L. Brust as Catocala neogama.

Catocala neogama

Catocala neogama at ultraviolet light | Pinewoods Lake, Carter Co., Missouri

Even more photogenic than underwings are royal moths (family Saturniidae), including this imperial moth, Eacles imperialis.

Eacles imperialis (imperial moth)

Eacles imperialis (imperial moth) at ultraviolet light | Pinewoods Lake, Carter Co., Missouri

Among the longhorned beetles I mentioned that did come to the lights was this Orthosoma brunneum (brown prionid). This species is closely related to prionid beetles (both are in the subfamily Prioninae). However, it is not a member of the genus Prionus, and, thus, is not attracted to prionic acid. It is perhaps no coincidence that males of this species do not exhibit the hypersegmentation and flabellate modifications of their antennae possessed by males in the genus Prionus, though they may still rely on sex pheromones for locating females.

Orthosoma brunneum

Orthosoma brunneum at ultraviolet light | Pinewoods Lake, Carter Co., Missouri

Even spiders were coming to the blacklights, perhaps attracted not by the light itself but by the ready availability of potential prey.

Black widow spider (Latrodectus mactans) female

Latrodectus mactans (black widow) at ultraviolet light | Pinewoods Lake, Carter Co., Missouri


Cicadamania!
White River Hills region, southwest Missouri (1–2 August 2015)

Although I had succeeded in finding Prionus pocularis earlier in the week at Pinewoods Lake, I wasn’t satisfied with having found just a single individual. I had nothing on the calendar the following weekend, so I decided to make a run down to one of my favorite areas in all of Missouri—the White River Hills of extreme southwest Missouri. The only other record of the species in Missouri is from that area, with its abundance of shortleaf pine forests (the species breeds in decadent pines), and I though how nice it would be to find more individuals in a part of the state that I love so much. The plan was to drive down, set a prionic acid trap or two once I got into the pine forests of the area, and then find a good spot to setup some blacklights with one more prionic acid trap that I could monitor. The plan was executed perfectly, and I ended up setting up the lights on a ridge just south of Roaring River State Park; however, the beetles never came. Nevertheless, like I said earlier a bad day/night of bug collecting is still better than just about anything else, and there was plenty at and near the lights to keep the night interesting. Once was this tiny walkingstick nymph that I found hanging out at the tip of a blade of grass. I was intrigued by the rather peculiar position adopted by the resting animal, with its forelegs and antennae extended straight out in front of the body with their tips resting on the grass blade.

Undet. juvenile walkingstick

Undetermined walkingstick nymph | Mark Twain N.F., Barry Co., Missouri

One thing I love about blacklighting for insects is the sounds of the night—katydids fill the black night with raspy calls while Whip-Poor-Wills and their country cousins the Poor-Will’s-Widows hoot and cluck in the distance.

Undet. adult katydid?

Undetermined katydid | Mark Twain N.F., Barry Co., Missouri

As I was photographing the walkingstick, I felt something crawling on my neck. After many years of doing this, I’ve learned not to freak out and slap wildly at something crawling on my neck, because 1) more often than not it is something interesting and 2) even if it isn’t particularly interesting it’s almost never capable of biting or stinging. Still, I don’t want to just grab it unseen or pin it against my neck—instead I kind of “scoop” it away with my fingers and toss it onto the ground beside me in one swift, assertive movement. This night’s mystery neck crawler was about as interesting as they get—Dynastes tityus (eastern Hercules beetle), the largest beetle in eastern North America. This one is a female by virtue of its lack of any horns on the head and pronotum.

Dynastes tityus female

Female Dynastes tityus (eastern Hercules beetle) | Mark Twain N.F., Barry Co., Missouri

After pulling the lights down for the night, I drove to Mincy Conservation Area, one of the many dolomite glades in the area in the next county over and one that I had not visited for some time. There are no hotels in the area, and my bones are a little too old to be sleeping on the ground, so I just pulled into the campground, took off my shoes, changed into PJs, and laid the driver’s seat all the way back for a surprisingly comfortable night’s sleep. My frugalness would have its reward, although I did not know it until I awoke early the next morning to a hauntingly beautiful fog. I’d never seen the glades in such manner—so serene. I knew the rising sun would quickly burn off the fog and and the moment would be lost if I didn’t act quickly, so I grabbed both big camera and iPhone and, put on some shoes (didn’t bother with changing out of my PJs), and walked the glade taking as many photos as I could. While the quality of the iPhone snaps doesn’t compare with those taken with the big camera, they nevertheless convey the quiet beauty of the glade.

Morning fog over the dolomite glade

Morning fog over the dolomite glade | Mincy Conservation Area, Taney Co., Missouri

Missouri coneflower (Rudbeckia missouriensis) is a characteristic plant of limestone and dolomite glades in the Ozark Highlands of southern Missouri.

Morning fog over the dolomite glade

Missouri coneflower (Rudbeckia missouriensis) | Mincy Conservation Area, Taney Co., Missouri

Morning dew makes spider webs abundantly conspicuous.

Morning fog on a spider web

Morning fog on a spider web | Mincy Conservation Area, Taney Co., Missouri

Eventually the rising sun began to burn through the cool, damp fog, portending another day of searing heat in the xeric glade landscape.

Morning fog over the dolomite glade

The rising sun begins to burn off the fog | Mincy Conservation Area, Taney Co., Missouri

Heading back to my car as temperatures began to rise quickly, I was struck by the cacophony of cicadas that were already getting into high gear with their droning buzz calls. As I passed underneath one particular tree I noticed the song was coming from a branch very near my head. I like cicadas, but I was there to look for the spectacular Plinthocoelium suaveolens (bumelia borer), a glade species associated with gum bumelia (Sideroxylon lanuginosum). Had it been the song of a “normal” cicada like Neotibicen lyricen (lyric cicada) or N. pruinosus (scissor grinder cicada) I would have paid it no mind. It was, instead, unfamiliar and distinctive, and when I searched the branches above me I recognized the beautiful insect responsible for the call as Neotibicen superbus (superb cicada), a southwest Missouri specialty—sumptuous lime-green above and bright white pruinose beneath. I had not seen this spectacular species since the mid 1980s (most of my visits to the area have been in the spring or the fall rather than high summer), so I spent the next couple of hours attempting to photograph an individual in situ with the big camera. This is much, much easier said than done—the bulging eyes of cicadas give them exceptional vision, and they are very skittish and quick to take flight. I knew I had the iPhone photo shown below if all else failed, and for some time every individual I tried to approach ended up fluttering off with a screech before I could even compose a shot, much less press the shutter. Persistence paid off, however, and I eventually succeeded in locating, approaching, and photographing an unusually calm female resting at chest height on the trunk of a persimmon tree. Along the way I checked the gum bumelia trees hoping to spot one of the beautiful longhorned beetles associated with that tree, but none were seen.

Neotibicen superbus

Neotibicen superbus

It was already high noon by the time I finished up at the Mincy glades, so I began to retrace my steps to check the prionic acid traps that I had set out the day before. Along the way I stopped by Chute Ridge Glade Natural Area in Roaring River State Park, another place where I have seen bumelia borers, so I stopped to try my luck there before continuing on to pick up the traps. Again, none were seen, but in addition to numerous individuals of N. superbus I found another species of cicada, still undetermined by more robust and nearly blackish and with a throatier call that sounding a bit like a machine gun (or table saw hitting a nail!). Despite the lack of bumelia borers, I enjoyed my time on the glade immensely and eventually had to call it quits if I was to get to all of my traps before nightfall.

IMG_6373_enh_1230x720


Still more chillin’ after work
Pinewoods Lake, southeast Missouri (11 August 2015)

Two attempts at Prionus pocularis in the past two weeks had netted me but a single specimen—this species was becoming my summer nemesis. So when I found myself back in Tennessee for field trial work and the timing still right I decided to spend the evening at Pinewoods Lake once again before heading back to St. Louis and see if the third time would be a charm. I found a new restaurant in the tiny nearby town of Ellsinore, and the dinner special that evening was fried catfish—hoo boy! My belly was in a good place after that, filling me with optimism that I would have success tonight. I got to the lake at dusk, quick setup the blacklights and put the prionic acid traps in place, and waited for the bugs to come in.

Pinewoods Lake at dusk

Pinewoods Lake at dusk, again!

The evening’s first visitor to the lights was a parandrine cerambycid—Neandra brunnea. Believe it or not, this was the first time I have ever seen the species alive (once before finding a dead specimen in a Japanese beetle trap waaaay back in the mid-1980s!)—a pretty nice find. In fact, Pinewoods Lake produced a number of good finds during those days back in the 1980s when I was collecting here regularly—longhorned beetles such as Acanthocinus nodosus, Enaphalodes hispicornis, and the aforementioned Prionus pocularis, male Lucanus elaphus stage beetles, the jewel beetle Dicerca pugionata on ninebark in the draws, and the seldom seen tiger beetle Apterodela unipunctata (formerly Cylindera unipunctata), just to name a few.

Neandra brunnea

Neandra brunnea | Mark Twain N.F., Pinewods Lake, Carter Co., Missouri

Seeing N. brunnea and the prospects of collecting P. pocularis weren’t the only things putting me in a good mood…

Blacklighting w/ beer

Blacklighting is better with beer!

My optimism, unfortunately, would eventually prove to be unfounded, as not only did P. pocularis never show up—either at the blacklights or the prionic acid traps, no other beetles showed up as well, longhorned or otherwise. When that happens, I have no choice but to start paying attention to other insects that show up at the lights. It was slim pickings on this night for some reason, making this already striking moth identified by Alex Harman as Panthea furcilla  (tufted white pine caterpillar or eastern panthea) in the family Noctuidae stand out even more so. 

Panthea furcilla

Panthea furcilla | Mark Twain N.F., Pinewoods Lake, Carter Co., Missouri

While walking between the blacklights and the prionic acid traps, something suspended between two trees caught my eye. I recognized it quickly as some type of orb weaver spider (family Araneidae), but I couldn’t exactly figure out exactly what was going on until I took a closer look and saw that there were actually two spiders! I’d never seen orb weaver courtship before, so I excitedly took a few quick shots with the iPhone and then hurried back to the car to get the big camera.

Neoscona sp. courtship

Be very, very careful boy!

Sadly, the male had already departed by the time I got back, so the quick iPhone photos I took are the only record I have of that encounter. Still, I got some good photos of just the female with the big camera, along with the quicker, dirtier iPhone shots—one of which is shown below. According to Eric Eaton these are likely a species in the genus Neoscona.

Neoscona sp.

Neoscona sp. | Mark Twain N.F., Pinewoods Lake, Carter Co., Missouri


Checking out a fen
Coonville Creek Natural Area, southeast Missouri (3 September 2015)

On yet another trip back to St. Louis from Tennessee, I made a spur-of-the-moment decision to visit Coonville Creek Natural Area in St. Francois State Park, an area I hadn’t seen in nearly 30 years and the outstanding feature being the calcareous wet meadow, or “fen”, that dominates the upper reaches of the creek drainage. Fen soils are constantly saturated, a result of groundwater from surrounding hills percolating through porous dolomite bedrock before hitting a resistant layer (in this case, sandstone) and seeping out onto the lower slopes. Constantly saturated soils and occasional fires (at least historically) have kept the fen open and treeless, with the cool groundwater allowing “glacial relicts” (i.e., plants common when glaciers covered the area) to persist. 

Calcareous wet meadow

Calcareous wet meadow | Coonville Creek, St. Francois State Park, St. Francois Co., Missouri

I saw a few Cicindela splendida (Splendid Tiger Beetles) on the rocky, clay 2-track leading to the area—a sure sign that fall was just around the corner, a female cicada on herbaceous vegetation in the fen (small, I think it’s not a species of Neotibicen), and a huge, fecund black and yellow garden spider (Argiope aurantia)—I love seeing the latter at this time of year when they have grown to their largest and the females are full of eggs. In reality, however, this visit turned into more of a botanical than an insect collecting experience. Insect activity in general was low, and my attention drifted instead to the diversity of wildflowers that were present on the fen—most new to me. False dragonhead (Physostegia virginiana), great blue lobelia (Lobelia siphilitica), and Spiranthes lacera (slender ladies’-tresses orchid)—its tiny white blossoms spiraling up the leafless spike were the most interesting, resulting in lots of time spent looking at them through the big camera.

Argiope aurantia

Argiope aurantia | Coonville Creek, St. Francois Co., Missouri


The always exciting amorpha borer
Otter Slough Conservation Area, southeast Missouri (23 September 2015)

As the dog-days of summer gave way to bright, blue skies and crisp, fall air, a distinctive insect fauna takes advantage of the explosion of goldenrod that blooms across a landscape morphing from shades of green to orange, yellow, and tawny. Many of these insects are widespread and super-abundant—soldier beetles, tachinid flies, bumble and honey bees, and scoliid, tiphiid, and vespid wasps are among the most conspicuous. Megacyllene robiniae, longhorned beetles commonly called locust borers  are also common on goldenrod during fall, but much less common is a closely related species that breeds in false indigo bush (Amorpha fruticosa)—Megacyllene decora, or the amorpha borer. I’ve seen this species several times, yet uncommonly enough that I still target it when I get the chance. One such place is Otter Slough Conservation Area—yet another interesting place along the way between Tennessee and St. Louis. On one of my final trips back this way I stopped by to see if these spectacular beetles would be out. My attention was first caught by egrets congregating in a mud flat exposed by recent dry weather. However, they were not what I was looking for.

Egrets congregating on mud flats

Egrets congregating on mud flats | Otter Slough, Stoddard Co., Missouri

There is no shortage of interesting insects to look at as I begin scanning the goldenrod flowers growing along the roadsides and around the edges of the shallow pools managed for fishing and shore birds. A fat, female Stagmomantis carolina (Carolina mantis) sat on one of the first inflorescences that I checked, but she also was not what I was looking for.

Undet. mantid

Stagmomantis carolina | Otter Slough, Stoddard Co., Missouri

After a bit of searching, I found what I was looking for! Over the course of the next two hours (all the time I had left before sundown) I would a total of three adults on goldenrod flowers at three disparate locations within the area—again not very many, making those that I did see a real treat.

Megacyllene decora

Megacyllene decora on goldenrod | Otter Slough, Stoddard Co., Missouri

As dusk fell over the area, insects began bedding down for the night. I was lucky to find the last amorpha borer in the dwindling light as it bedded down next to a bumblebee—perhaps the likely model for the beetle apparent mimetic coloration.

Megacyllene decora

Megacyllene decora and a bumble bee bed down together | Otter Slough, Stoddard Co., Missouri

The sun sinking over the horizon behind the wetlands put an end to the collecting, not only for the day but for the season, at least here in Missouri and surrounding states. It would not be the final day of collecting for me, however, as I managed to scrape together some free time amidst my hectic travel schedule and spend a week in eastern Texas for the Annual Fall Tiger Beetle Hunt. I’ll save that trip for another report and close this one out here, but be on the lookout for higher quality photos over the coming months of the really interesting insects that I encountered over this past season. Let me also say that if you’re still reading at this point, you have my deepest admiration for having the persistence to wade through all 8,376 of the words contained within this post!

Dusk over Plover Pond

Sunset over Plover Pond | Otter Slough, Stoddard Co., Missouri

© Ted C. MacRae 2015

My favorite of Missouri’s milkweeds

Milkweeds of the genus Asclepias are among my favorite plants, although I’m not fully sure why that is the case. Sure, their blooms are conspicuous and colorful, but so are those of many other plants. Perhaps one reason is their status as hosts for milkweed beetles (genus Tetraopes, family Cerambycidae). Four species of these beetles occur in Missouri, including the rare T. texanus. Another reason might be their diversity—in Missouri alone there are 16 different species, ranging from the ubiquitous common milkweed (A. syriaca) to the federally endangered Mead’s milkweed (A. meadii). The latter is one of six milkweed species occurring in Missouri that I have not yet seen, so I suppose I should withhold judgement until I’ve succeeding in finding all 16 species. Nevertheless, I would have to say that clasping milkweed (A. amplexicaulis) has to be my favorite of Missouri’s milkweeds.

Clasping milkweed (Asclepias amplexicaulis) | Sand Prairie Conservation Area, Scott Co., Missouri

Clasping milkweed (Asclepias amplexicaulis) | Sand Prairie Conservation Area, Scott Co., Missouri

Clasping milkweed (also known as sand milkweed—not to be confused with A. arenaria occurring further west in the Great Plains) is said to occur sporadically throughout Missouri in prairies, glades, rocky open woods, roadsides, and railroads. However, I have seen this species only a few times—all in dry sand habitats in the southeastern Mississippi Alluvial Plain (or, the “bootheel” as we say here in Missouruh). Until a few  years ago the only time I had ever seen this plant was many years in an eroded sandy opening on Crowley’s Ridge (an elevated ridge of alluvium and loess deposited during the last glacial maximum). Those plants were not in flower, but their was no mistaking their identity due to their erect stems and broad, cordate-clasping, tomentulose leaves with wavy margins. I would see this plant again a few years ago during my first visit to Sand Prairie Conservation Area, and although I would see it again on many subsequent visits, at no time did I succeed in seeing the blooms.

This species is characterized by broad, clasping, tomentulose leaves with wavy margins.

Broad, clasping, tomentulose leaves with wavy margins.

Finally, last year, I returned to Sand Prairie during late April (a weather-delayed installment of my Annual-Birthday-First-Bug-Collecting-Trip-of-the-Year). I had actually gone there to photograph Missouri’s unique intergrade population of the Festive Tiger Beetle (Cicindela scutellaris), but the weather was cool and the beetles apparently had decided to remain in their burrows. A bad day of collecting, however, is still better than a good day of just about anything else—perhaps because there are almost always consolation prizes, and my consolation prize on this day was my first sight of clasping milkweed plants in full bloom.

A single inflorescence atops each stem.

A single inflorescence atops each stem.

I may not be exactly sure why I like milkweeds so much, but I think I now know why I like clasping milkweed above all others. The softly colored green and pink blossoms are exquisite, to be sure, but more importantly the species is firmly linked in my mind to one of my favorite Missouri habitats. I imagine that clasping milkweed might be an attractive, if somewhat gangly, addition to a native wildflower garden. However, I’m not sure I would enjoy cultivated plants in my garden as much as I do seeing wild plants in one of Missouri’s rarest and most endangered natural communities.

Sand Prairie Conservation Area, Scott Co., Missouri

Sand Prairie Conservation Area, Scott Co., Missouri

Copyright © Ted C. MacRae 2013

The Loess Hills in Missouri

The term Mountains in Miniature is the most expressive one to describe these bluffs. They have all the irregularity in shape, and in valleys that mountains have, they have no rocks and rarely timber. – Thaddeus Culbertson, missionary, 1852


One of the things I enjoy most about the natural history of Missouri is its diversity. Lying in the middle of the North American continent, it is here where the eastern deciduous forest yields to the western grasslands. Coinciding with this transition between two great biomes is a complex intersection of landforms – the northern plains, recently scoured by glaciers; the southeastern lowlands, where the great Mississippi River embayment reaches its northern extent; the Ozark Highlands, whose craggy old rocks comprise the only major landform elevation between the Appalachian and Rocky Mountains; and the eastern realm of the vast Great Plains. This nexus of east and west, of north and south, of lowlands and highlands, has given rise to a rich diversity of natural communities – 85 in all according to Paul Nelson (2005, Terrestrial Natural Communities of Missouri). Despite the overwhelming changes wrought upon Missouri’s landscape during the past 200 years, passable examples of most of these communities still exist in many parts of the state and provide a glimpse of Missouri’s rich natural heritage.

Last month I talked about the critically imperiled sand prairie community in extreme southeast Missouri. This month, we travel 500 miles to the distant northwestern corner of the state to visit another critically imperiled community – the dry loess prairie. These communities are confined to thin slivers of bluff top along the Missouri River in Atchison and Holt Counties. The bluffs on which they lie are themselves part of a unique landform called the Loess Hills. Like the sand prairies of the southeastern lowlands, this angular landscape owes its birth to the glacial advances of the Pleistocene epoch (2.5 million to 10,000 years ago), when streams of meltwater – swollen and heavily laden with finely ground sediments (i.e., glacial “flour”) – filled river valleys throughout the Midwest during Pleistocene summers. Brutal cold during winter reduced these flows to a trickle, allowing the prevailing westerly winds to pick up the sediments, left high and dry, and drop them on leeward upland surfaces across Iowa and northern Missouri. The thickest deposits occurred along the abrupt eastern border of the Missouri River valley – at least 60 feet deep, and in places up to 200 feet. Loess (pronounced “luss”) is a homogeneous, fine-grained, quartz silt – undisturbed it is highly cohesive and able to stand in near vertical bluffs. It is also extremely prone to erosion, and as a result for 10,000 years now the forces of water have reshaped the Loess Hills into the landform we see today. Loess itself is not rare – thick deposits can be found in many parts of the world and over thousands of square miles across the Midwest. It is here, however, along the western edge of Iowa and northern Missouri – and nowhere else in North America – where loess deposits are deep enough and extensive enough to obliterate any influence by the underlying bedrock and dictate the form of the landscape.

It is this form that makes the Loess Hills so unique. The depth of the soil, its cohesiveness, its natural tendency to slump on steep slopes and sheer in vertical planes, and the action of water over the past several millenia have created a landscape of narrow undulating ridges flanked by steep slopes and numerous side spurs, intricate drainages with sharply cut gullies, and long, narrow terraces called “catsteps” cutting across the steep upper hillsides. It’s a sharp, angular, corrugated landscape, stretching 200 miles north and south in a narrow band of varying width from north of Souix City, Iowa, to its southern terminus in northwestern Missouri. Its western boundary is sharply delimited by the Missouri River valley, where lateral erosion (now halted by channelization of the river) and vertical sheering have created precipitous bluff faces. The eastern boundary is harder to delimit and is dependent upon the thickness of the loess. Deposits that fall below 60 feet in depth are unable to mask and reshape the rolling terrain of the eroded glacial till lying beneath. In general, this happens at distances of only 3 to 10 miles from the western edge of the landform.

Its southern terminus in Missouri, however, is the most arbitrary boundary. Discontinuous patches of deep loess terrain do occur as far south as Kansas City, but the dry hilltop prairies, common in the north, are gradually replaced by woodland in the south and disappear completely just north of St. Joseph. It is this interdigitation of two great biomes – the great deciduous forest to the east, and the expansive grasslands stretching far to the west – that give the Loess Hills such a fascinating natural history. This is due as much to the physical character of the Loess Hills themselves as to their ecotonal position at the center of the continent. Rapid drainage of rainwater off the steep slopes combines with direct sun and prevailing southwesterly summer winds to create very dry conditions on hilltops and south and west facing slopes, especially on the steeper slopes along the landform’s western edge. Such xeric conditions favor the growth of more drought-tolerant species derived from the western grasslands. North and east facing slopes and valley floors, protected from direct sun and drying winds, are able to retain more moisture, favoring the growth of woody plant species more common in the eastern forests. Seasonal moisture also shows a north-south gradient, with southern latitudes receiving higher annual rainfall totals that also favors the growth of woody plants, while the lower rainfall totals further north result in larger, more expansive grassland habitats. The steep slopes and rapid drainage create much more xeric conditions than those found further south in the flat to rolling terrain of the unglaciated Osage Plain, resulting in a more drought-tolerant mixed-grass prairie rather than the tallgrass prairie of western and southwestern Missouri. The distribution patterns of prairie versus woodland are dynamic and ever-changing, influenced by both natural and anthropogenic processes. Climatic conditions over much of the Loess Hills are capable of supporting either community type, both of which repeatedly expand and shrink as the balance tips in favor of one versus the other. In the past, the major influence was shifting periods of greater or lesser rainfall. During drier periods, grasslands expanded and woodlands shrank, finding refuge in only the moistest streamside habitats. Wetter periods allowed woody plants to migrate out of the valleys and up the slopes, especially those facing north and east. One particular very dry “hypsithermal” began about 9,000 years ago and lasted for several thousand years. Tallgrass prairies expanded as far east as present day Ohio, and todays tallgrass praires in the eastern Great Plains were invaded by even more drought-tolerant species from the shortgrass prairies further west. Eventually the hypsithermal abated, moisture levels increased, and the grasslands retreated in the face of the advanding forest. Not all of the drought-tolerant species were driven back, however, and scattered populations of these “hypsithermal relicts” still remain on locally dry sites far to the east of their normal range of distribution. Conspicuous examples of such in Missouri’s Loess Hills are soapweed yucca (Yucca glauca var. glauca) and the leafless-appearing skeletonweed (Lygodesmia juncea) (plant above, flower right). Both of these plants are normally found further west in the mixed grass prairies of the western Great Plains but are considered endangered in Missouri due to the great rarity of the dry loess prairies on which their survival depends. (Incidentally, note the crab spider legs extending from behind the petals of the skeletonweed flower). In total, more than a dozen plant species occurring in Missouri’s dry loess prairies are listed as species of conservation concern, along with one reptile (Great Plains skink) and one mammal (Plains pocket mouse).

As is typical, the insect fauna of the Loess Hills has been far less studied than its plants, but many of the species that have been documented in its prairies also show affinity to the Great Plains fauna. Both soapweed and skeletonweed have insect associates that rely exclusively on these hosts for reproduction, and as a result they are also highly restricted in Missouri. Evidence of one of these – a tiny cynipid wasp (Anistrophus pisum) that forms small spherical galls on the stems of skeletonweed – can be seen in the photo above. However, my purpose for visiting the Loess Hills this summer was to look for the rare and possibly endangered tiger beetle, Cicindela celeripes (see this post). Cicindela celeripes has not yet been recorded from Missouri but is known to occur in the Loess Hills of southwestern Iowa, and while I have not succeeded in finding it (yet!) I did observe several adults of this unusual May beetle species, Phyllophaga lanceolata. This May beetle occurs throughout the Great Plains in shortgrass prairie communities. Larvae feed in the soil on roots of grasses and other plants, while adults feed above ground on flowers and foliage. The heavy-bodied adults are unusual in the genus due to their conspicuous covering of scales (most species of Phyllophaga are glabrous or with sparsely scattered and indistinct setae) and by being active during the day. They are also relatively poorer fliers and are thus usually observed moving about on foot – as seen with this individual who was found on bare soil below a vertical cut. This snakeweed grasshopper (Hesperotettix viridis, ID by Eric R. Eaton) is another species more typically seen in the western United States, although populations have been found from across the continent. Preferred host plants include a variety of asteraceous shrubs, but as suggested by the common name snakeweeds (Xanthocephalum spp.) are highly preferred and account for its greater abundance in the west. Populations in northern and eastern portions of its range, which would include northern Missouri, are considered subspecies pratensis, while the more southern and western populations are considered the nominotypical subspecies. Interestingly (and unlike many grasshoppers), this species is considered beneficial by ranchers, since the plants on which it prefers to feed are either poisonous to livestock or offer little nutritional value while competing with more desirable forage plants for soil moisture. While exploring the upper slopes, I encountered sporadic plants of two of Missouri’s more interesting species of milkweed – whorled milkweed (Asclepias verticillata) and green milkweed (Asclepias viridiflora), raising my hopes that I might encounter one of the many Great Plains species of milkweed beetles (genus Tetraopes). However, the only species I observed was the common milkweed beetle, Tetraopes tetrophthalmus, which occurs broadly across eastern North America on the equally broadly distributed common milkweed (Asclepias syriaca).

It is a familiar refrain, but Missouri’s dry loess hill prairie communities are critically endangered. Historically, these communities were probably never as well developed as those further north, and only a few small remnants remain today due to significant woody encroachment following decades of fire suppression. Much of this encroachment has occurred in the past 50 years – Heinman (Woody Plant Invasion of the Loess Hill Bluff Prairies. M. A. Thesis, University of Nebraska at Omaha, 1982) used aerial photographs to show a 66 percent encroachment of shrubs and trees into the loess hill mixed-grass prairies between 1940 and 1981. Additional threats include overgrazing, erosion, invasion by exotic plant species and homesite development. Fewer than 50 acres of native dry loess hill prairie remain in Missouri – only half of which are now in conservation ownership. The majority of these can be found at Star School Hill Praire and Brickyard Hill Conservation Areas in Atchison County and at McCormack Conservation Area just to the south in Holt County. Controlled burning and selective cutting are being used at these sites to control woody plant invasions, but even these management techniques present challenges. Spring burns have been shown to promote the growth of big bluestem (Andropogon gerardii), which could allow it to encroach drier areas where mid-grasses such as little bluestem (Schizachyrium scoparium) and sideoats grama (Bouteloua curtipendula) typically dominate (Rushin 2005). Increases in tall grasses could shade out and eliminate some of the rarer low-growing forbs such as downy painted cup (Castilleja sessiliflora), locoweed (Oxytropis lambertii) and low milkvetch (Astragalus lotiflorus). Fall or winter burns may be more beneficial to forbs because the plants are allowed to complete flowering and seed set, but the steep slopes on which these communities occur make erosion a potential concern. Clearly, all factors must be considered when designing management plans for this rare and significant slice of Missouri’s natural heritage.


In addition to the links and references provided above, I highly recommend Fragile Giants: A Natural History of the Loess Hills, by Cornelia F. Mutel (1989). All of the above photographs were taken at Star School Hill Prairie Conservation Area on July 12, 2008. Additional photographs of Loess Hill habitats in extreme southwestern Iowa appeared in my earlier post, The hunt for Cicindela celeripes. The plants shown in photographs 5-7 are purple praire clover (Dalea purpurea), white prairie clover (D. candida), and lead plant (Amorpha canescens), respectively. Lastly, I would like to apologize for the length of this post – a consequence of my inability to temper my utter fascination with the natural world and desire to understand the depths its connectedness.

Sand Prairie Conservation Area

I have a love-hate affair with Missouri’s Southeast Lowlands (formally known as the Mississippi River Alluvial Basin, but simply called the “bootheel” by most folk in reference to the shape of its boundaries). Of the four main physiogeographic regions in the state, it is by far the most altered. Yes, the Ozark Highlands have been degraded by timber mismanagement, overgrazing, and fire suppression, yet many of its landscapes nevertheless remain relatively intact – just a few burn and chainsaw sessions away from resembling their presettlement condition. The northern Central Dissected Till Plains and western Osage Plains are more disturbed, their prairie landscapes having been largely converted to fields of corn, soybean, and wheat. Still, riparian corridors and prairie habitats ranging from narrow roadsides to sizeable relicts combine to provide at least a glimmer of the regions’ former floral and faunal diversity. The alterations these regions have experienced are significiant, yet they pale in comparison to the near-total, fence-row-to-fence-row conversion that has befallen the Southeast Lowlands. Its rich, deep soils of glacial loess, alluvial silt, and sandy loam originally supported vast cypress-tupelo swamps and wet bottomland forests – massively treed and dripping with biotic diversity. Exposed by relentless logging and an extensive system of drainage ditches and diversion canals, those same soils now support monotonous expanses of soybean, wheat, rice, and cotton. Giant plumes of dark smoke dot the unendingly flat landscape in late spring, as farmers burn wheat stubble in preparation for a double-crop of soybean (the need for which could be obviated by adopting more environmentally benign no-till drillers). Only a tiny fraction of the original swamp acres remain intact, preserved more by default due to their defiant undrainability than by human foresight, and wet bottomland forests now exist only as thin slivers hemmed in by levees along the Mississippi River to the east and the St. Francois River to the west. Solace is hard to find in these remaining tracts – hordes of mosquitoes and deer flies, desperate for blood to nourish their brood, descend upon anyone who dares to enter their realm, while impoverished locals leave behind waste of all manner in their daily quest for fish. The cultural history of the region parallels its natural history – nowhere in the state is the gap between wealth and poverty more evident, a testimony to its checkered history of race and labor relations.

Yet, despite its shortcomings, I am continually drawn to this region for my explorations. Driving down the southeastern escarpment of the Ozark Highlands into the Lowlands is like entering another world – a world of grits, fried catfish, and sweet tea, a world where it is odd not to wave to oncoming vehicles on gravel back roads, a world where character is judged by the subtleties of handshake, eye contact, and small talk. Again, its natural history follows suit, with many insects occurring here and nowhere else in Missouri – a distinctly Southern essence in an otherwise decidedly northern state. My recent discussion of Cicindela cursitans in the wet bottomland forests along the Mississippi River is just one example of the unique gems I have encountered in this region. Others include the rare and beautiful hibiscus jewel beetle (Agrilus concinnus), a sedge-mining jewel beetle (genus Taphrocerus) that is new to science (and, due to my sloth, still awaiting formal description), the striking Carolina tiger beetle (Tetracha carolina), and numerous other beetle species not previously recorded from the state. The small and scattered nature of the habitat remnants and often oppressive field conditions make insect study challenging here, but the opportunity for discovery makes this region irresistible.

Prior to this season, I had already visited most of the publicly-owned examples of swamp and forest found in the Southeast Lowlands. One natural community, however, that I had not yet seen happened to be one of Missouri’s rarest and most endangered – the sand prairie (I suppose you’ve surmised this by now from the photos). While conducting our recent survey for Cicindela cursitans, I took the opportunity to explore a recently acquired example called Sand Prairie Conservation Area. Geologically, sand prairies lie on our state’s youngest landscape, arising during the relatively recent Pleistocene glacial melts. Tremendous volumes of water from the melting glaciers scoured through loose sands and gravels deposited earlier during the Cretaceous and Tertiary periods by the present day Ohio River (the Mississippi River, much smaller at that time, actually drained northward into Hudson Bay!). After the last of these glacial melts formally ended the “ice age” (only 10,000 years ago), two long sandy ridges were all that remained of the original sand plain. Water drains quickly through the sandy soil of these ridges, which lie some 10 to 20 feet above the surrounding land, creating dry growing conditions favorable for prairie and savanna habitats where only drought-tolerant plants can survive. Dr. Walter Schroeder has conservatively estimated that 60 square miles of sand prairie were present in the Southeast Lowlands at the time of the original land surveys. Because settlement was already occurring at that time, a substantial amount of sand prairie had already likely been converted to agriculture, urban centers, and travel routes to staging areas for access across the swamps. Considering the conversion that might have already taken place, it is possible that as much as 150 to 175 square miles of sand prairie occupied the sand ridges. Sandy areas with higher organic soil content and supporting tallgrasses would have been the first to be converted, since this organic content would have also made them the most suitable for agriculture. Those with lower organic content created drier conditions more suitable for shortgrasses and were the next to be converted. Today, less than 2,000 acres of sand prairie remain – not even 1% of the original amount, and these relicts likely represent the sandiest (and driest) examples of the original sand prairie.

Walking onto the site, I was immediately greeted by an otherworldly expanse of sand dunes, blows, and swales. Ever the entomologist, and with tiger beetles in the fore from hunting C. cursitans, I immediately thought of two dry sand associated species that I have seen in the sand woodlands of nearby Crowley’s Ridge – Cicindela formosa (big sand tiger beetle) and Cicindela scutellaris (festive tiger beetle). These are both so-called “spring-fall” species – i.e., adults are active primarily during spring and fall, so I thought it might be a little late (my first visit was in late June) to see either one. It wasn’t long, however, before I scared up a C. formosa (pictured – but unfortunately facing the setting sun) on one of the dunes. I also encountered one individual of another dry sand associated species, Cicindela lepida (a white “summer” species aptly named ‘ghost tiger beetle’) but was not able to photograph it (I have to say this – I’m a patient man, but photographing tiger beetles is hard. Actually, stalking them until you can get close enough to photograph them is hard. Stalking them until you can get even closer to photograph them with a ‘point and shoot’ – hoping and praying they settle into a pose with the sun on their back because you can’t use the blindingly dinky little built-in flash – just about breaks every last fiber of patience I have within my soul!). Though the site represents a new county record for both species, this is not unexpected, since we have recorded each at multiple dry sand sites near big rivers throughout the state. The occurrence of C. scutellaris at this site, on the other hand, would be significant, and though I did not find it on these two summer visits, I will certainly return this fall to have another look. Cicindela scutellaris has been recorded from just three widely separated locations in the state. Individuals from the two northern Missouri sites are assignable to the more northerly and laterally maculate subspecies C. scutellaris lecontei, but those from the Crowley’s Ridge population (some 20 miles to the west) show an intergrade of characters between C. s. lecontei and the more southerly all-green and immmaculate subspecies C. scutellaris unicolor. I should mention that I believe the classic definition of subspecies (i.e., allopatric populations in which gene flow has been interrupted by geographic barriers) has been grossly misapplied in Cicindelidae taxonomy, with many “subspecies” actually representing nothing more than distinctive extremes of clinal variation. Nevertheless, I am anxious to see if C. scutellaris does occur at Sand Prairie, and if so does it exhibit even more of the “unicolor” influence than does the Crowley’s Ridge population?

I’ve mentioned previously my weakness as a botanist, a fact I found especially annoying as I explored this new area and found myself unfamiliar with much of the flora that I encountered. I’ve taken photographs and will, over time, attempt to identify them. Still, some plants are unmistakeable, such as this clasping milkweed (Asclepias amplexicaulis, also known as sand milkweed) – unfortunately well past bloom. Asclepias is a favorite plant genus of mine (I’ve made it a personal goal to locate all 16 of Missouri’s native Asclepias), so you can imagine my delight when I encountered numerous robust green milkweed (Asclepias viridiflora) plants in full bloom. As I approached one of these plants, I noticed the unmistakeable form and color of a milkweed beetle (genus Tetraopes). It didn’t have the look of the common milkweed beetle (Tetraopes tetrophthalmus), which is widespread and abundant throughout Missouri on common milkweed (Ascelpias syriaca), and as soon as I looked more closely, I recognized it to be the much less common Tetraopes quinquemaculatus. Additional individuals were found not only on A. viridiflora, but also on A. amplexicaulis. The latter is also a suspected host (the larvae are root borers in living plants) in other parts of the species’ range, but in Missouri I’ve found this species associated only with butterfly weed (Asclepias tuberosus). These observations suggest not only that A. viridiflora may also be utlized as a host, but that three species of milkweed are serving as such in this part of the state – unusual for a genus of beetles in which most species exhibit a preference for a single milkweed species in any given area. More questions to answer!

Amazingly, there were no publicly owned representatives of this community type in Missouri until just recently, when the Missouri Conservation Department acquired Sand Prairie CA through the efforts of the Southeastern Sand Ridge Conservation Opportunity Area, a consortium of private and public agencies dedicated to the conservation and restoration of sand prairies in the Mississippi River Alluvial Basin. Restoration efforts are now underway to promote species that historically occupied native sand prairies on the Sikeston Sand Ridge. Fire is one such management tool, although there seems to be some debate about the role of fire in the history of this natural community. Some have argued that the Southeast Lowland sand prairies are an anthropogenic landscape, created by Native Americans who regularly cleared and burned the land after arriving in the Mississippi River Alluvial Plain. Had it not been for such intervention, the sand ridges communities would have remained sand woodlands and forests, dominated by hickories and oaks. Several lines of evidence – convincingly summarized by Allison Vaughn in “The Origin of Sand Prairies” (June 2008 issue of Perennis, Newsletter of the S.E. Missouri Native Plant Society) – suggest a more natural origin. These include the presence of rare sand prairie endemics that do not occur in the sand woodlands of nearby Crowley’s Ridge and the fact that the remaining sand prairie relicts have not succeeded back to sand woodland despite 150 years of post-settlement fire suppression. Perhaps the truth lies somewhere in between, with the driest prairies remaining open regardless of fire, while those with somewhat higher organic content in their soils supported shifting mosaics of prairie, savanna, and woodland as fire events (whether natural or anthropogenic) flashed across different areas. Regardless of their history, the sand prairies of the Southeast Lowlands are truly unique communities that deserve protection. Restoration efforts are well underway at Sand Prairie CA, as evidenced by the charred grass clump next to eastern prickly pear (Opuntia humifusa) in the above photo. There is still more work to do, however, as illustrated by this attractively scenic, yet unfortunately exotic Persian silktree (Albizia julibrissin) still remaining on the parcel – emblematic of Man’s pervasive alterations in even the most unique of landscapes.

For further reading on the sand prairies of the Southeast Lowlands, I recommend the excellent article, “A Prairie in the Swamp”, by A. J. Hendershott and this blog entry by the ever-eloquent author of Ozark Highlands of Missouri. In the meantime, so as not to disappoint the botanists who may stumble upon this silly post, I leave you with a few photographs of some of the wildflowers I saw during my visits. I consider the plant in the first photograph to be camphorweed (Heterotheca sp., either camporum or subaxillaris), frequntly associated with sandy soils in southern Missouri (especially the Southeast Lowlands). My colleague James informs me the second plant is plains puccoon (Lithospermum caroliniense), another sandy soil associate found primarily in the Lowlands and distinguished from the much more common L. canescens by its robustness and rougher pubescence. Both of these species were common near the perimeter of the barren sand areas and nearby. The third plant appears to be spotted beebalm (Monarda punctata) (my thanks to michael for the ID). It was confined, as far as I could tell, to a small area in a swale (moister?) away from the barren sand. This plant, a clump-forming perennial that prefers prairies and open sandy soils, is apparently not common in Missouri, having been found primarily in a few eastern counties adjacent to the Mississippi River.

Glades of Jefferson County

We stood a moment to contemplate the sublime and beautiful scene before us, which was such an assembly of rocks and water—of hill and valley—of verdant woods and naked peaks—of native fertility and barren magnificence… – Henry Rowe Schoolcraft, 1818-1819

In the Ozark Border south of St. Louis, a series of natural openings punctuate the dry, rocky forests of Jefferson County. Commonly called “glades” or “cedar glades,” these islands of prairie in a sea of forest are home to plants and animals more commonly associated with the Great Plains region further to the west. Extending in a narrow arc from central Jefferson County east and south into northern Ste. Genevieve County, these glades occur most commonly on south and southwest-facing slopes below forested ridges and are characterized by thin soils and exposed dolomite bedrock of Ordovician age. Glades are, in fact, a common natural feature throughout much of the Ozark Highlands, an extraordinary plateau where the great eastern deciduous forest begins to yield to the western grasslands. A much more extensive system of dolomite glades occurs in the White River Hills of southwest Missouri, where they often extend up steep slopes and over the tops of knobs to form what Schoolcraft called “naked peaks” and are now called “balds” (and spawning the “Baldknobbers” of Branson fame). Additional glade complexes occur throughout the Ozark Highlands on different rock substrates – igneous glades abound in the St. Francois Mountains, sandstone glades dot the Lamotte landscape in Ste. Genevieve County and the northern and western Ozarks, limestone glades can be found in the northern Ozarks near Danville and Lake of the Ozarks, and chert glades occur in extreme southwest Missouri. These different glade systems share a common feature – shallow soils where tree establishment is limited due to summer moisture stress. They differ vegetationally, however, due to differences in hydrology and soil chemistry as a result of their different substrates. Floristically, dolomite glades exhibit a high degree of diversity relative to other glade types.

The term “glade” is derived from the Old English “glad,” meaning a shining place – perhaps the early settlers found their open landscapes a welcome respite after emerging from the confining vastness of the eastern deciduous forest. Whatever the meaning, the glades of Jefferson County hold a special place in my heart, for I “grew up,” entomologically speaking, in those glades. As a young entomologist, fresh out of school, I spent many a day scrambling through the glades and surrounding woodlands. It was here where my interest in beetles, especially woodboring beetles, was born and later grew into a passion. For eight years I visited these glades often – attracted by the extraordinary diversity of insects living within the glades and congregating around its edges. My earliest buprestid and cerambycid papers contain numerous records from “Victoria Glades” and “Valley View Glades” – the two best-preserved examples of the glades that once occurred extensively throughout the area (more on this later). My visits to these glades ended in 1990 when I moved to California, and although I moved back to the St. Louis area in 1995, the focus of my beetle research has more often taken me to places outside of Missouri. It had, in fact, been some 10 years since my last visit to these glades until last week, when I was able to once again spend some time in them.

Ozark glades differ from the true cedar glades of the southeastern U.S. in that they are not a climax habitat – they depend upon periodic fires to prevent succession to forest. Some recent authors have suggested the term “xeric dolomite/limestone prairie” be used to distinguish the fire-dependent glades of the Ozarks from the edaphic climax cedar glades of the southeast (Baskin & Baskin 2000, Baskin et al. 2007). Fires have been largely suppressed throughout Missouri since European settlement, leading to encroachment upon the glades by eastern red-cedar (Juniperus virginiana). Pure stands of red-cedar have developed on many former glades, crowding out the herbaceous plants that depend upon full sun and leading to soil formation that supports further encroachment by additional woody plant species such as post oak (Quercus stellata), blackjack oak (Q. marilandica), flowering dogwood (Cornus florida), and fragrant sumac (Rhus aromatica) from the surrounding woodlands. Fire has returned to many of the Ozark glades situated on lands owned or managed by state and federal agencies such as the Missouri Department of Conservation, Missouri Department of Natural Resources, and U.S. Forest Service, as well as private conservation-minded organizations such as The Nature Conservancy. These agencies have begun adopting cedar removal and fire management techniques to bring back the pre-settlement look and diversity of the Ozark Glades. This is particularly true at Victoria Glades and Valley View Glades, the two largest and most pristine examples of the Jefferson County dolomite glade complex. Fires have been used to kill small red-cedars in the glades, as well as rejuvenate their herbaceous plant communities. Larger red-cedar trees are not killed outright by fire and must be removed by chainsaws. This above distant view of the TNC parcel at Victoria Glades shows many such burned red-cedars. The glades themselves are not the only habitat to benefit from this aggressive management – when I was doing my fieldwork here in the 1980’s the surrounding woodlands were a closed post oak forest bordered by fragrant sumac and with little or no understory in the interior. The photo at right now shows an open savanna with a rich understory of not only sumac and other shrubs, but also many herbaceous plants as well such as black-eyed susan (Rudbeckia hirta) and American feverfew (Parthenium integrifolium). Such open woodland more closely resembles what Schoolcraft saw across much of the Ozarks during his journey almost two centuries ago.

Victoria and Valley View Glades are dominated by little bluestem (Schizachyrium scoparium), Indian grass (Sorghastrum nutans), big bluestem (Andropogon gerardii) and prairie dropseed (Sporobolus heterolepis). A smaller but highly charismatic non-grass flora is also found on the glades – species such as Missouri evening primrose (Oenethera macrocarpa) (left), pale purple coneflower (Echinacea simulata) (pictured above and below), and prairie dock (Silphium terebinthinaceum) not only add beautiful color but also support both vertebrate and invertebrate wildlife. The Fremont’s leather flower (Clematis fremontii) is a true endemic, occurring only in this part of Missouri and entirely dependent upon these glades for its survival. Less well studied is the vast insect fauna associated with the glades. It is here where I first discovered the occurrence of Acmaeodera neglecta in Missouri. This small jewel beetle is similar to the broadly occurring A. tubulus but at the time was known only from Texas and surrounding states. In collecting what I thought were adults of A. tubulus on various flowers in the glades, I noticed that some of them were less shining, more strongly punctate, and exhibited elytral patterning that was often coalesced into longitudinal “C-shaped” markings rather than the scattered small spots typical of A. tubulus. These proved to be A. neglecta, which I have since found on many glade habitats throughout the Ozark Highlands. Both species can be seen in this photo feeding on a flower of hairy wild petunia (Ruellia humilis) – the lower individual is A. neglecta, while the upper individual and two inside the flower are A. tubulus. Another interesting insect-plant association I discovered at these glades was the strikingly beautiful Dicerca pugionata – another species of jewel beetle – and its host plant ninebark (Physocarpus opulifolius). Only a single Missouri occurrence had been reported for D. pugionata, despite the common occurrence of its host plant along rocky streams and rivers throughout the Ozark Highlands. This plant also grows at Victoria and Valley View Glades along the intermittent streams that drain the glades and in the moist toeslopes along the lower edges of the glades where water that has percolated through the rocks and down the slopes is forced to the surface by an impermeable layer of bedrock. Unlike the tall, robust, lush plants that can be found in more optimal streamside habitats with good moisture availability, the ninebark plants of Victoria and Valley View Glades are small and scraggly, usually with some dieback that results from suboptimal growing conditions. I surmise these plants have reduced capabilities for fending off attacks by insects, including D. pugionata, and as a result a healthy population of the insect thrives at these glades. Some might be inclined to call this beetle a pest, threatening the health of one of the glade’s plants. In reality, the insect finds refuge in these glades – unable to effectively colonize the vast reserves of healthy plants that grow along streams throughout the rest of the Ozarks, it strikes a tenuous balance with plants that are themselves on the edge of survival.

Despite the success in moving Victoria and Valley View Glades closer to their pre-settlement character, the integrity of these areas continues to be challenged. Poachers take anything of real or perceived value, and ATV enthusiasts view the open spaces as nothing more than tarmac. Pale purple coneflower occurs abundantly on these Jefferson County glades (but sparingly in other habitats – primarily rocky roadsides), where they provide a stunning floral display during June and sustain innumerable insect pollinators. Plants in the genus Echinacea also have perceived medicinal value, as herbalists believe their roots contain an effective blood purifier and antibiotic. There are no conclusive human clinical trials to date that fully substantiate this purported immune stimulating effect (McKeown 1999). Nevertheless, demand for herbal use has skyrocketed in recent decades, prompting widespread illegal harvesting of several coneflower species throughout their collective range across the Great Plains and Ozark Highlands. I witnessed massive removals of this plant from both Victoria and Valley View Glades during the 1980’s, but the pictures I took this year suggest that such illegal harvests have been suppressed and that the populations at both sites are recovering nicely.

The same cannot be said for the practice of rock flipping. This was a problem I witnessed back in the 1980’s, and I saw fresh evidence of its continued occurrence at both sites. The thin soils and sloping terrain leave successive layers of dolomite bedrock exposed, the edges of which shatter from repeated freeze-thaw cycles to create rows of loose, flat rocks along the bedrock strata. Lizards, snakes, tarantulas, and scorpions find refuge under these loose rocks, only to be ripped from their homes by flippers and transferred to a dark, cold terrarium to endure a slow, lingering death. As if poaching the glade’s fauna and watching them slowly die isn’t bad enough, the flippers add insult to injury by not even bothering to replace the rock in its original position after stealing its inhabitant, amounting to habitat destruction three times greater than the area of the rock itself. Firstly, the habitat under the rock is destroyed by sudden exposure of the diverse and formerly sheltered microfauna to deadly sunlight. Next, the habitat onto which the rock is flipped is also destroyed, as the plants growing there begin a slow, smothering death. Lastly, the upper surface of the rock, sometimes colonized by mosses and lichens that might have required decades or longer to grow, usually ends up against the ground – its white, sterile underside becoming the new upper surface. Rock flipper scars take years to heal, and nearly all of the flat, loose rocks seen in the more accessible areas of the glades exhibit scars of varying ages next to them. If a scar is fresh (first photo), I generally return to the rock to its original position – the former inhabitants cannot be brought back, but at least the original habitats are saved and can recover quickly. However, if a scar is too old (2nd photo) it is best to leave the rock in its new position – replacing it only prolongs the time required for recovery.

Even more damaging is ATV use. Herbaceous plants and thin soils are no match for the aggressive tread of ATV tires, and it doesn’t take too many passes over an area before the delicate plants are killed and loose soils ripped apart. I witnessed this become a big problem particularly on Victoria Glades during the 1980’s – actually finding myself once in a face-to-face confrontation with an ATV’er. Fortunately, he turned tail and ran, and it appears (for now) that such abuses have stopped, as I saw no evidence of more recent tracks during this visit. But the scars of those tracks laid down more than two decades ago still remain painfully visible. I expect several more decades will pass before they are healed completely.

My return to Victoria and Valley View Glades was a homecoming of sorts, and I was genuinely pleased to see the progress that has been made in managing these areas while revisiting the sites where my love affair with beetles was first kindled. Sadly, however, the larger glade complex of Jefferson County continues to deteriorate. Restoration acreage aside, red-cedar encroachment continues unabated on many of the remaining glade parcels – large and small – that dot the south and southwest facing slopes in this area. It has been conservatively estimated that as much as 70% of the original high quality glades in Missouri are now covered in red-cedar. Many of these are privately held – their owners either do not recognize their ecological significance or are loathe to set fire to them. An example can be seen in the picture here – this small parcel is part of the Victoria Glades complex but lies on private land in red-cedar choked contrast to the Nature Conservancy parcel immediately to the south. Small numbers of herbaceous plants persist here, but without intervention by fire or chainsaw their numbers will continue to dwindle and the glade will die. Aside from the loss of these glades, the continuing reduction of glade habitat complicates management options for preserved glades as well. Many glade associated invertebrates are “fire-sensitive” – i.e., they overwinter in the duff and leaf litter above the soil and are thus vulnerable to spring or fall fires. While these fires are profoundly useful for invigorating the herbaceous flora, they can lead to local extirpation of fire-sensitive invertebrate species within the burn area. Recolonization normally occurs quickly from unburned glades in proximity to the burned areas but can be hampered if source habitat exists as small, highly-fragmented remnants separated by extensive tracts of hostile environment. Grazing also continues to threaten existing remnants in the Jefferson County complex. Grazing rates are higher now than ever before, with greater negative impact due to the use of fencing that prevents grazers from moving to “greener pastures”. Over-grazing eliminates native vegetation through constant depletion of nutrient reserves and disturbance of the delicate soil structure, leading to invasion and establishment of undesirable plant species. Eventually, the glade becomes unproductive for pasture and is abandoned – coupled with fire suppression this leads to rapid woody encroachment. It is truly depressing to drive through Jefferson County and recognize these cedar-choked glades for what they were, able to do nothing but watch in dismay as yet another aspect of Missouri’s natural heritage gradually disappears. The continued loss of these remnant glades makes careful use of fire management on Victoria and Valley View Glades all the more critical – ensuring that a patchwork of unburned, lightly burned, and more heavily burned areas exists at a given time will be critical for preventing invertebrate extirpations within these managed areas.

I close by sharing with you a few more of the many photographs I took during this visit – stiff tickseed (Coreopsis palmata), three-toed box turtle (Terrapene carolina triunguis), climbing milkweed (Matelea decipiens – see the excellent post about this plant on Ozark Highlands of Missouri), downy phlox (Phlox pilosa), green milkweed (Asclepias viridiflora), and a “deerly” departed native browser.

Ozark Trail – Marble Creek Section

If you know wilderness in the way that you know love, you would be unwilling to let it go…. This is the story of our past and it will be the story of our future. – Terry Tempest Williams


During the past several years that Rich and I have been hiking the Ozark Trail, most of our hikes have taken place in the fall and winter months. From a hiker’s perspective, I really enjoy these off-season hikes – the foliage-free canopy affords unobstructed views of the terrain and vistas, the cool (even cold) temperatures are more comfortable under exertion (provided one has properly layered), and there are no mosquitos to swat, ticks to pick, or gnats to incessantly annoy. I also enjoy them as a naturalist, for the world is quiet and still, allowing me to focus on things I may not notice amidst the cacophany of life during the warmer months. By the end of winter, however, the biologist in me yearns to once again see bugs and flowers and the great interplay of life. Unfortunately, this makes something as simple as hiking from point A to point B rather difficult – too many distractions! Nevertheless, each spring Rich and I try to hike a small leg of the Ozark Trail before the crush of summer activities fills our calenders. Last week, we chose the Marble Creek Section, an orphan stretch (for the time being) in the rugged St. Francois Mountains that eventually will connect to the famed Taum Sauk Section. It would be our first return visit to the St. Francois Mountains since we first embarked on our goal to hike the entirety of the Ozark Trail.

The St. Francois Mountains are the geologic heart of the Ozark Highlands. Since their primordial birth 1.5 billion years ago, recurring cycles of erosion and deposition have worn them down and covered them up, only to see them reemerge once again as the younger rocks covering them were themselves stripped away. The Ozarks are an ancient landscape with ancient hills, and none are older than those of the St. Francois Mountains. It’s as if the Earth itself began in these mountains. We began our hike at Crane Lake, a clear, blue 100-acre lake built in the 1970s by the Youth Conservation Corps. The trail surrounding the lake was built in 1975 and is, in its own right, a National Recreation Trail. It meanders along the lakeshore and through hillside igneous glades and descends into a deep ravine below the dam where Crane Pond Creek cascades through spectacular rhyolite shut-ins. East of the lake the trail connects to the Ozark Trail proper and continues to Marble Creek campground. All told, we would be hiking a 9-mile stretch.

I knew we were in a special place almost from the beginning when I noticed a small flowering plant growing next to the trail under the mixed pine/oak canopy. I’m not a very good botanist, but I instantly recognized the plant as dwarf spiderwort (Tradescantia longipes), an Ozark endemic known from only a handful of counties in Missouri and Arkansas. I knew this only because I had just the night before read about this wonderful plant on Ozark Highlands of Missouri, a superb natural history blog focused on my beloved Ozarks. Reading about this lovely, diminutive member of the genus, I wondered if I might encounter it on my own hike the next day. As we searched off the trail and near the lakeshore we encountered dozens of the plants, each with one or two exquisite blue flowers. Our excitement at seeing a true Ozark endemic increased with each plant we encountered, giving us confidence that its future, at least in this area, appears secure. Of the numerous photographs I took, I share two that show its short, squat habit and filament-covered stamens. Eventually we decided we needed to move on – we had spent 20 minutes and only hiked 100 ft!

Looping around the south side of the lake, the trail traversed mesic to dry-mesic upland forest and afforded spectacular views of the lake and rugged north shore. The spring ephemerals had already come and gone, replaced by such classic woodland denizens as birdfoot violet (Viola pedata, pictured), fire pink (Silene virginica), cream wild indigo (Baptisia leucophaea), four-leaved milkweed (Asclepias quadrifolia), Pursh’s phacelia (Phacelia purshii), and shooting star (Dodecatheon meadia). Insect life was abundant, however, the only species seen in one of my chosen specialties, metallic wood boring beetles (family Buprestidae), were early spring species of Acmaeodera – pictured here is A. ornata on a dewberry (Rubus sp.) flower. This pretty little beetle occurs throughout eastern North America in early spring on a variety of flowers, where adults feed on pollen and mate. Eggs are laid on dead branches of certain hardwood trees, through which the larvae tunnel as they develop. Dry, dead wood contains little nutritional value, and the larvae cannot digest the cellulose. As a result, they eat considerable volumes of wood, extracting whatever nutrients they can for growth and ejecting the bulk as sawdust, which they pack tightly in their tunnels behind them. A year or more might be required before they have grown sufficiently to transform into the adult and emerge from the wood. A smaller relative, Acmaeodera tubulus, was also seen on flowers of native dwarf dandelion (Krigia biflora).

We stopped for lunch on a little point extending out towards the lake. The forest overstory was dominated by an open mixture of white oak (Quercus alba) and shortleaf pine (Pinus echinata). Thickets of highbush huckleberry (Vaccinium stramineum) and carpets of reindeer moss in the open areas belied the acidic nature of the igneous substrate. Stands of bastard toad flax (Comandra richardsiana) in full bloom were found at the tip’s dry, rocky tip. These interesting plants feed parasitically on neighboring plants, attaching to the roots of their hosts by means of their long, thin rhizomes. Resuming our hike, we descended down into a shaded, moist draw feeding the lake and saw a huge royal fern (Osmunda regalis var. spectabilis) bush. I had never seen this aptly named fern before, but it was immediately recognizeable by its large size (~5 ft in height) and presence of distinctive, fertile leaflets on some of its upper branches – a very striking and handsome fern, indeed. Nearby was a smaller, but no less attractive species of fern that I take to be marginal sheild fern (Dryopteris marginalis) – another species I have not seen before (or at least made the effort to notice).

Soon, we reached the dam and for the first time saw the spectacular rhyolite shut-ins. While perhaps not quite as impressive as the nearby and much more famous Johnson’s Shut-Ins, Rich and I nonetheless watched entranced as the water roared over the smooth igneous rock exposure, forming elegant cascades, rushing through narrow chutes, and swirling into small pools. Steep canyon walls rose sharply on each side of the shut-ins, as if standing guard. Clambering amidst the pines and cedars that cloaked them, we found this maidenhair spleenwort (Asplenium trichomanes) nestled within a crack on a vertical rock face under continuous deep shade. Reaching the top of the bluffs, we were greated by one of my favorite of all Ozark habitats – the igneous glade. Glades are natural island communities surrounded by a sea of forest. Their shallow, dry, rocky soil conditions support plants and animals more adapted to prairie or desert habitats. Specific communities are influenced by the type of rock below – igneous and sandstone substrates support lichens, mosses, and other acid soil-loving plants, while limestone and dolomite substrates support a more calcareous flora. The photo here shows the massive boulder outcroppings typical of igneous glades and their weather-resistant bedrock. We hoped to see a collared lizard (Crotaphytus collaris), perhaps Missouri’s finest saurian reptile, but today was not the day. We did, however, see adults of the beautiful and aptly named splendid tiger beetle (Cicindela splendida) sunning themselves on the bare rock surfaces – flashing brilliant green and clay-red. The adults we saw had spent the winter deep inside tunnels dug into the rocky soil the previous fall and were now looking for mates. Male tiger beetles grab females by the neck, their jagged, toothy jaws fitting precisely in grooves on the female neck designed specifically for such. As I looked upon this prairie island within the forest, I thought about how the St. Francois Mountains were once themselves islands. I realized the landscape we were exploring today was itself a fossil – with rhyolitic ‘islands’ amidst a ‘sea’ of cherty dolomite laid down a half billion years ago in the warm, tropical, Cambrian waters that surrounded the St. Francois Islands, by then already a billion years old themselves. Yes, the Earth itself seems to have begun here.

Leaving the glade and once again entering the acid pine forest, we came upon one of the most striking floral displays that either of us have ever witnessed – wild azalea (Rhododendron prinophyllum) in the midst of full bloom! I have known about several colonies of this plant for many years now but had only seen them at the very end of the bloom period, with just a few, pitiful, limply hanging flowers still attached. Today, the plants were absolutely dazzling. The blossoms were not only visually attractive, a deep pink color, but also unexpectedly fragrant. We stood amongst several specimen plants as tall as ourselves, taking picture after picture amidst the clovelike aroma wafting around us.

We checked our watches – we were now 3 hours into our hike and had traversed just 2 miles. Clearly, this was not a sustainable pace, so we put our heads down and focused on covering ground. Once leaving the vicinity of Crane Lake, the trail became rather difficult to follow – it obviously receives little use, and in one stretch some logging activities had obliterated the trail completely. Were it not for the sporadic pieces of orange flagging tape tied just within sight of the previous, we would not have know where to go. At one point, we got completely off-track and had to backtrack a full half mile before we found the proper trail. The day put our contour map reading skills to their greatest test yet. It was difficult and strenuous terrain, with steep up and down grades and few long ridgetop stretches until (thankfully) the final 2 miles, which terminated in a long descent (more thankfully) to Marble Creek Campground. Despite the difficulties in following the trail and our not bringing enough water, I would have to rank this section a close second to the Taum Sauk stretch for its ruggedness, spectacular vistas, and unique plant communities. Yes, the St. Francois Mountains are truly the heart of the Ozarks.