Wednesday, 28 April 2021

Tuesday, 27 April 2021

Building a Strong Community: A Key Step in Entomology Student Life | Entomology Today

Group hike

This post Building a Strong Community: A Key Step in Entomology Student Life appeared first on Entomology Today - Brought to you by the Entomological Society of America.

Even pre-pandemic, life as a graduate student in entomology or other scientific fields can make it difficult to build social connections and find one's place in a community. One entomology graduate student shares advice for creating or growing social groups as an important part of a healthy student work-life balance.

The post Building a Strong Community: A Key Step in Entomology Student Life appeared first on Entomology Today.

The Lipinia Skinks

For a long time in the history of herpetology, many of the smaller skinks in the Asia-Pacific region were combined in a single sprawling genus Lygosoma. For an equally long time, this state of affairs had been considered unsatisfactory, with not much defining Lygosoma other than "it ain't anything else". However, it was until the mid-20th Century that researchers began reliably identifying recognisable subgroups within the lygosomine mass that they could carve off into separate genera. One of these ex-Lygosoma isolates is now recognised as the genus Lipinia.

Yellow-striped tree skink Lipinia vittigera, copyright Sergey Yeliseev.


Lipinia is a genus of about thirty known species of small skinks (reaching at most a snout-vent length of nearly six centimetres) found in south-east Asia and the islands of the tropical Pacific. Even now, the genus remains difficult to clearly define with its species having a fairly unspecialised habitus. It belongs to a group of genera in which the lower eyelid usually has a transparent window, presumably allowing the skink to retain some modicum of vision even with its eyes closed. Within this cluster of genera, distinguishing features of Lipinia include smooth scales, slightly to strongly expanded subdigital lamellae, and the loss of the postorbital bone. They often show a strongly striped dorsal pattern with a pale mid-dorsal stripe anteriorly (Shea & Greer 2002; Poyarkov et al. 2019). Species are diurnal and may be arboreal, semi-arboreal or terrestrial in habits (terrestrial species are quite reclusive). The clutch of eggs laid by females is usually quite small, two at most (one for each oviduct). In a number of species, one of the oviducts is vestigial and only a single egg is laid.

Moth skink Lipinia noctua, from Ecology Asia.


The most widespread species in the genus is the moth skink Lipinia noctua, found over a range extending from eastern Indonesia to the Pitcairn Islands (I have no idea why it is called a 'moth skink'). It is believed to have originally been native to New Guinea before spreading over its current range in association with humans, an inadvertent stowaway in ocean-crossing boats and canoes*. It was doubtless assisted in this spread by its ovoviviparous habit: that is, rather than laying eggs in the manner of related species, eggs are retained in the mother's body until young can be born free-living. So thorough was the transmission of this little skink by humans that its genetics have been investigated in relation to the settlement of the islands (Austin 1999). They support a picture of rapid eastward expansion; when Polynesian explorers discovered the islands that would eventually become their people's home, the skinks were there discovering them too.

*A note on terminology: though the manned craft used by the initial settlers of the Pacific islands are commonly referred to in English as 'canoes', these were not just the small craft many people associated with the term. Polynesian waka/vaka/etc. (the exact term, of course, varies linguistically) can be sizable ships, twenty metres or more in length, with commensurately sizable crews. Those used for long ocean crossings would have double hulls or outriggers and would largely be propelled by sail rather than oars.

REFERENCES

Austin, C. C. 1999. Lizards took express train to Polynesia. Nature 397: 113–114.

Poyarkov, N. A., Jr, P. Geissler, V. A. Gorin, E. A. Dunayev, T. Hartmann & C. Suwannapoom. 2019. Counting stripes: revision of the Lipinia vittigera complex (Reptilia, Squamata, Scincidae) with description of two new species from Indochina. Zoological Research 40 (5): 358–393.

Shea, G. M., & A. E. Greer. 2002. From Sphenomorphus to Lipinia: generic reassignment of two poorly known New Guinea skinks. Journal of Herpetology 36 (2): 148–156.

source http://coo.fieldofscience.com/2021/04/the-lipinia-skinks.html

Monday, 26 April 2021

Squash Vine Borer

Subject:  Hairy red and black fly(?)
Geographic location of the bug: Texas (San Antonio)
Date: 04/24/2021
Time: 02:09 PM EDT
Your letter to the bugman:  This gorgeous hairy-breeched insect was obsessed with my (non-flowering) cucumber plant. It looks like a fly but I can’t find it in any databases. I checked for wasps and bees, too! Seen April 24th (late spring)
How you want your letter signed:  Jennifer

Squash Vine Borer

Dear Jennifer,
This is not a Fly.  It is a Moth that benefits by mimicking a Wasp.  This is a Squash Vine Borer, and since cucumbers are in the squash family, we presume it is a female laying eggs.  You can get additional information on BugGuide.

The post Squash Vine Borer appeared first on What's That Bug?.



Checker-Spot in Santa Monica Mountains

Subject:  Spreading Wings on a Warm Spring Day
Geographic location of the bug:  Mulholland Gate, California
Date: 04/24/2021
Time: 10:40 PM EDT
Your letter to the bugman :  Dear Bugman,
While hiking in the Santa Monica mountains, I spotted this winged beauty. April 24, 2021
I also spotted two other winged creatures on flowers, there were several in the area and strangely didn’t seem to be alive.
How you want your letter signed :  Melanie on the Irish Chain

Chalcedon Checkerspot

Dear Melanie,
We immediately recognized your lovely butterfly as one of the Checker-Spots and turning to Charles Hogue’s
Insects of the Los Angeles Basin, we identified your individual as a Chalcedon Checker-Spot, Euphydryas chaldecona, and Hogue specifies:  “Though rarely seen in the basin’s flatlands, this species may be quite abundant in the surrounding foothills, visiting flowers in the spring and early summer” and later of the preferred caterpillar food plants “locally they are particularly fond of Sticky Monkey Flower (Diplacus longiflorus), a common native shrub of the coastal sage plant community.”  It is pictured on Butterflies and Moths of North America and on BugGuide and well as here on BugGuide where it it is recognized as a subspecies, Euphydryas chalcedona chalcedona, and where it states on the BugGuide info page that the range is:  “Primarily relatively near the Pacific Coast, west of desert areas, in areas of broken terrain, from northern British Columbia to northern Baja California Norte. Inland in mountains of eastern Oregon and Washington, across northern Idaho and just into extreme western Montana. Also inland in desert mountains across the Mojave and Sonoran Deserts of southern California and Nevada into southern Arizona and perhaps northwestern Sonora.”  It may have appeared “not alive” because it was seen earlier in the day and it had not yet warmed enough so that it might fly.  We cannot conclusinvely identify your images of the Solitary Bee and Wasp.

The post Checker-Spot in Santa Monica Mountains appeared first on What's That Bug?.



Sunday, 25 April 2021

In the Arms of Pseudisograptus

From the Ordovician to the early Devonian, the graptoloids were a major component of the oceanic fauna. These colonial floaters are among the characteristic fossils of the early Palaeozoic and have received a lot of attention due to their use in biostratigraphy. The evolution of graptoloids has been presented as a process of increasing simplification, of progressive reductions in colonial complexity and density. Like all illustrations of evolutionary trends, this is an overly simplistic representation of how things actually occurred but it's not entirely incorrect. The history of graptoloids was indeed marked by a number of significant transitions were particular growth forms overran their predecessors. One genus that may have played a significant role in the lead-up to one of these turnovers was Pseudisograptus.

Pseudisograptus manubriatus koi, entire fossil and close-up diagram of initial thecae, from Cooper & Ni (1986).


The graptoloid genus Pseudisograptus has been collected from rocks in Australia, North America and eastern Asia dating to the latter part of the Floian stage of the early Ordovician, a bit over 470 million years ago (Cooper & Ni 1986). It is characterised by colonies growing in two branches (stipes) with the stipes spreading outwards and upwards like a pair of wings (indeed, one species of this genus luxuriates in the name of Pseudisograptus angel). In large specimens, the stipes reach about two centimetres in length and about three millimetres wide (from inner margin to the outer apex of the individual thecae). Pseudisograptus species are very similar to, and until 1972 where classified with, species of the related genus Isograptus. They differ, however, in the arrangement and growth of the earliest thecae in the colony. Whereas Isograptus stipes grow outwards immediately from the oldest theca, Pseudisograptus have the first few thecae on each stipes elongated and growing downwards before the stipes makes a later sharp turn upwards. As a result, between the two 'wings' of the stipes there is a more or less distinct triangle (referred to as the manubrium) formed from the bases of the early thecae. At the top of the manubrium is an upright thread, the nema. In a number of graptoloid fossils, an inflated structure has been identified at the top of the nema that probably functioned as a float. I don't know if such a structure has ever been identified in a Pseudisograptus fossil but I imagine it would quite easily be lost in the course of preservation.

Basal section of Cardiograptus amplus, from Fortey et al. (2005). Not a true biserial graptoloid but illustrative of the way biserial forms may have evolved from biramous ancestors.


Pseudisograptus' disappearance from the fossil record coincides with one of the aforementioned turnovers in graptoloid diversity, the appearance of the biserial graptoloids. These forms, which had two rows of thecae arising from a single central line, rapidly replaced most of the earlier branched forms. The rapid appearance of the biserial graptoloids has made their origins difficult to work out but current thinking is that they arose from a form similar to Pseudisograptus, in which the upward growth of the stipes became steep enough that they met in the middle along the nema. One interesting detail is that two lineages appear to have achieved biseriality at about the same time from closely related but separate ancestors. In the glossograptids, the conjoined stipes met each other side-by-side; in the diplograptids, they met back to back. Pseudisograptus has, at different times, been implicated in the ancestry of both of these groups. Cooper & Ni (1986) regarded Pseudisograptus as paraphyletic and including the direct ancestors of the glossograptids. In contrast, more recent studies by Fortey et al. (2005) and Maletz et al. (2009) have placed Pseudisograptus closer to the diplograptids. These studies have been more agnostic as to whether Pseudisograptus was a direct ancestor or a close relative. If the former is the case then, while the exact Pseudisograptus morphotype would disappear at the end of the Floian, their genetic lineage would continue strong for nearly ninety million more years.

REFERENCES

Cooper, R. A., & Ni Y. 1986. Taxonomy, phylogeny, and variability of Pseudisograptus Beavis. Palaeontology 29 (2): 313–363.

Fortey, R. A., Y. Zhang & C. Mellish. 2005. The relationships of biserial graptolites. Palaeontology 48 (6): 1241–1272.

Maletz, J., J. Carlucci & C. E. Mitchell. 2009. Graptoloid cladistics, taxonomy and phylogeny. Bulletin of Geosciences 84 (1): 7–19.

source http://coo.fieldofscience.com/2021/04/in-arms-of-pseudisograptus.html

Friday, 23 April 2021

Woolly Orchids

The orchids of the Orchidaceae are widely recognised as one of the most diverse families of plants in the modern world, both in number of species and morphologically. They are readily distinguished from other flowering plants by a unique combination of features including the fusion of the male and female organs of the flower into a central column. Rather than being released as individual grains, pollen is aggregated into compact masses called pollinia that are attached to pollinators as whole units. Most orchid species also have the lower of the flower's three petals enlarged and differentiated into a distinctive lip that may present a bewildering array of shapes and colours. Because of their striking and colourful appearance, many orchids have long attracted attention from humans and many are popular ornamentals. But there are also some major groups of orchids that have been more neglected and one such group is members of the subtribe Eriinae.

Dendrolirium tomentosum, copyright Orchi.


The Eriinae comprise about a thousand known species of orchid found mostly in the tropics of Asia and the west Pacific, with a handful of species described from Africa. Most are epiphytes and lithophytes (growing on rocks); a smaller number are terrestrial. Because the flowers of eriines tend to be fairly small and simple, they have attracted less notice than other members of the family, but in some parts of their range they are among the most abundant epiphytic orchids (Ng et al. 2018). Within the Orchidaceae, eriines are a subgroup of the subfamily Epidendroideae, characterised by compact, laterally compressed pollinia, and the tribe Podochileae, with duplicate leaves, a short and massive column, and often spherical silica cells in the stems (Szlachetko 1995). The features distinguishing Eriinae from other subtribes of Podochileae are more vague and there are reasons to believe the Eriinae ultimately represent the paraphyletic residue of the tribe once the more specialised subgroups are removed (Ng et al. 2018). One recent classification of the orchids recommended abandoning subtribes within the Podochileae altogether (Chase et al. 2015). Nevertheless, features characteristic of most eriines include a terminal or upper lateral inflorescence, eight pollinia per flower, and sticky caudicles on the pollinia composed of apical pollen grains. The lip is commonly divided into three lobes. Another common feature of the group (and the inspiration for the name of the type genus Eria, meaning 'woolly') is a covering of hairs on the flower and sometimes the inflorescence. In one genus, Trichotosia, the leaves are also hairy.

Ascidieria grandis, copyright Dick Culbert.


Historically, the majority of eriines have been included in a broad genus Eria. However, as with the subtribe as a whole, recent studies have indicated that this sense of Eria is not monophyletic and hence its species should probably be divided between several genera. Ng et al. (2018) recognised 21 genera among the eriines. The African species, previously placed in their own genus Stolzia, were united with the closely related Asian genus Porpax.

The pollination biology of eriines is, for the most part, not well known. Some have speculated that they were pollinated by beetles; one website I found showed pollinia attached to a gnat. The two species of the genus Callostylis have flowers whose appearance suggests pollination by pseudocopulation (tricking male insects into attempting to mate with them by mimicking females) but such flowers are unique within the Podochileae (Ng et al. 2018). At least some eriines have flowers producing 'pseudopollen' from broken-off hairs (Pansarin & Maciel 2017). This pseudopollen is collected and eaten by pollinators. Thus, though the most common means of attracting pollinators among orchids is via deception, at least some eriines are willing to pay their way in life.

REFERENCES

Ng, Y. P., A. Schuiteman, H. A. Pedersen, G. Petersen, S. Watthana, O. Seberg, A. M. Pridgeon, P. J. Cribb & M. W. Chase. 2018. Phylogenetics and systematics of Eria and related genera (Orchidaceae: Podochileae). Botanical Journal of the Linnean Society 186: 179–201.

Pansarin, E. R., & A. A. Maciel. 2017. Evolution of pollination systems involving edible trichomes in orchids. AoB Plants 9: plx033.

Szlachetko, D. L. 1995. Systema Orchidalium. Fragmenta Floristica et Geobotanica Supplementum 3: 1–152.


source http://coo.fieldofscience.com/2021/04/woolly-orchids.html

Online Entomology Outreach: Tips From a Long-Running Program | Entomology Today

emerald ash borer (Agrilus planipennis)

This post Online Entomology Outreach: Tips From a Long-Running Program appeared first on Entomology Today - Brought to you by the Entomological Society of America.

Emerald Ash Borer University has delivered critical knowledge about EAB and other invasive forest pests via webinar for more than a decade, and lessons learned from that experience can help improve other entomological extension and outreach efforts, as more of them adopt online formats in a post-pandemic world.

The post Online Entomology Outreach: Tips From a Long-Running Program appeared first on Entomology Today.

Thursday, 22 April 2021

Unknown Thing

Subject:  bug or seed pod?
Geographic location of the bug:  Mill Creek, WA
Date: 04/20/2021
Time: 09:28 PM EDT
Your letter to the bugman:  Hello,
I was moving pots around on my deck and found several pods (?) like this in the angle where the deck meets the house. This was the largest but still isn’t very big (the USB connector is provided for scale). They required some effort to remove. This one even took some paint from the house.
Any ideas what this could be? I’ve used various image search engines but keep getting bowls of nuts, berries, and peas. Now I’m hungry! đŸ˜‰
Thanks for your help,
PJ
How you want your letter signed:  PJ

Egg Case we believe

Dear PJ,
We do not recognize this thing, but if faced with the choice of seed pod or egg case, we believe this is the latter.  It appears to be spun from silk, so that could mean a Spider or even an Orthopteran.  The eggs, if that is what they are, appear more Orthopteran to us but the case appears more like the egg case of a Spider.  Perhaps one of our readers will have a better idea.  So sorry your web search made you hungry.

Egg Case we presume

The post Unknown Thing appeared first on What's That Bug?.



Wednesday, 21 April 2021

Ants in the Nest: A Possible Emerging Pressure on Sea Turtles | Entomology Today

Loggerhead sea turtle, Cumberland Island, Georgia

This post Ants in the Nest: A Possible Emerging Pressure on Sea Turtles appeared first on Entomology Today - Brought to you by the Entomological Society of America.

Red imported fire ants and native ants may depress the emergence of sea turtle hatchlings, especially in nests near dune vegetation. A new study examines the interactions of ants with sea turtle nests and offers recommendations for reducing ant-related risks in sea turtle conservation.

The post Ants in the Nest: A Possible Emerging Pressure on Sea Turtles appeared first on Entomology Today.

Tuesday, 20 April 2021

Brood’s Clues: New Mapping Approach Puts Cicadas in Focus | Entomology Today

Magicicada septendecim

This post Brood’s Clues: New Mapping Approach Puts Cicadas in Focus appeared first on Entomology Today - Brought to you by the Entomological Society of America.

More than 20 broods of periodical cicadas inhabit the eastern United States, and researchers are refining their mapping of brood ranges with increasing precision at every new emergence. A new report in the Annals of the Entomological Society of America details new advances in mapping cicadas from researchers who studied Brood VI in 2000 and 2017.

The post Brood’s Clues: New Mapping Approach Puts Cicadas in Focus appeared first on Entomology Today.

Monday, 19 April 2021

Wingless Soldier Fly from Australia

Subject:  What’s this bug?
Geographic location of the bug:  Australia, Victoria, Dandenong
Date: 04/12/2021
Time: 05:02 AM EDT
Your letter to the bugman:  Hello bugman,
I’m curious about what this bug is. I have found a few in my shed. Any help will be greatly appreciated. A small donation haha.
Cheers
How you want your letter signed:  Nathan

Wingless Female Soldier Fly

Dear Nathan,
This is a wingless female Soldier Fly in the subfamily Chiromyzinae, and the first time we ever saw one of these, it had us puzzled for quite some time.  There are numerous images posted to iNaturalist.

Wingless Female Soldier Fly

The post Wingless Soldier Fly from Australia appeared first on What's That Bug?.



Toebiter

Subject:  Insect in Mass.
Geographic location of the bug:  Western Massachusetts
Date: 04/19/2021
Time: 12:09 PM EDT
Your letter to the bugman:  Can you help identify this large insect. It was walking a crosswalk at night.
How you want your letter signed:  M Grybko

Toebiter

Dear M Grybko,
This is a Toebiter, also known as a Giant Water Bug or Electric Light Bug.  This is one of the most frequent identification requests we receive.

The post Toebiter appeared first on What's That Bug?.



Still Unknown Caribbean Orthopteran with Cyan-colored Eyes

Subject:  Blue eyed grasshopper
Geographic location of the bug:  Saint Lucia, Lesser Antilles
Date: 04/19/2021
Time: 08:02 AM EDT
Your letter to the bugman:  No photo shop!!    This grasshopper, found in the open bathroom of our guest house here in Saint Lucia,  has electric blue eyes.     Date, April 19.     Local man says it is a “Clap-Clap” from call at night.   Is it known?   An earlier post had photo of this insect as “unknown orthopteran”.
How you want your letter signed:  Madeleine

Unknown Cyan-eyed Ensiferan from Santa Lucia

Dear Madeleine,
We cannot believe that 13 years have passed since that 2008 posting of the Unknown Caribbean Orthopteran with blue eyes, and there is a noticeable dearth of images online that illustrate this amazing insect.  It is also quite interesting that you also took images of this same unidentified Orthopteran in Saint Lucia, so there must be a population of them on the island.  First we would like to make a few corrections.  This is not a Grasshopper.  Grasshoppers are Orthopterans, but they have short antennae.  The members of the order with long antennae belong to the suborder Ensifera which includes Katydids and Crickets.  Also, we originally referred to this eye color as blue, but in teaching the color wheel to our photo and cinema students, we draw a distinction between the colors blue and cyan, and the eye color of this critter is definitely cyan.  See Reddit or Quora for the difference between blue and cyan.  That said, we are still not able to provide a species identification for this awesome insect.  We will attempt to contact Piotr Naskrecki who is an expert in Katydids to see if he recognizes it.

Unknown Cyan-eyed Ensiferan from Santa Lucia

Unknown Cyan-eyed Ensiferan from Santa Lucia

The post Still Unknown Caribbean Orthopteran with Cyan-colored Eyes appeared first on What's That Bug?.



Toxic Milkweed Grasshopper from South Africa

Subject:  Locust/grasshopper
Geographic location of the bug:  Near Rhodes Village, Eastern Cape South Africa
Date: 04/13/2021
Time: 06:01 AM EDT
Your letter to the bugman:  Well-camouflaged in our only indigenous tree in this area, the Ouhout, Leucosidea sericea
How you want your letter signed:  Russell

Toxic Milkweed Grasshopper

Dear Russell,
We apologize for the late response.  We have been without connectivity for a few days but now we are back.  It is interesting that your image is of such a well camouflaged Toxic Milkweed Grasshopper, because this family is known for aposomatic or warning coloration.  We are nearly positive your individual is
Phymateus leprosus, and according to iNaturalist, the common name is the Leprous Milkweed Locust.  Grasshoppers from this family often feed on milkweed and they are able make use of the toxic properties of milkweed which makes them unpleasant tasting or possibly toxic to some species.

 

The post Toxic Milkweed Grasshopper from South Africa appeared first on What's That Bug?.



Sunday, 18 April 2021

The Shells of Ducks and Swans

The freshwater environment has been a challenging one for bivalves. Though there is a reasonable diversity of freshwater bivalves around the world, they tend to be dominated by members of a select few lineages. One of the most successful groups of freshwater bivalves is the family Unionidae, and among the more widespread unionids are the freshwater mussels of the genus Anodonta.

Swan mussel Anodonta cygnea, copyright Gail Hampshire.


Anodonta species are found widely across northern Eurasia and North America, commonly referred to as 'mussels' in Eurasia and 'floaters' in North America. They are relatively large bivalves (one of the largest, the swan mussel Anodonta cygnea of Eurasia, can be up to about twenty centimetres across) with an irregularly elliptical shape and a relatively thin shell. One of their distinguishing features compared to other freshwater bivalves is the teeth of the hinge connecting the shell valves have been lost. Instead, the valves are primarily held together by the dorsal ligament (Moore 1969). Freshwater mussels are most commonly found in mud at the bottom of slow-moving or still waters, such as lakes or slow rivers.

One of the main hurdles to bivalve colonisation of fresh water has been the question of dispersal. In most marine bivalves, populations mostly disperse via their planktonic larvae. But because of the directed flow of water in rivers and the like, passive plankton fare less well in freshwater environments. If you just float along a stream, eventually you'll be washed out to sea. Anodonta species, like other unionids, solve the problem of getting back upstream through parasitic larvae called glochidia. Female Anodonta have the rear part of the gills modified into a pouch (or marsupium) in which the developing larvae are initially incubated. When they are released by their mother, the glochidia already possess a bivalved, sharp-edged shell. Released glochidia swim towards a suitable host in the form of a passing fish and use the valves of the shell to clamp onto a narrow appendage of the host's body such as its fins or gills. Eventually, a cyst forms around the attached glochid within with it develops until it is ready to emerge and attain maturity.

Winged floater Anodonta nuttalliana, a North American species, copyright Eric Wagner.


Freshwater molluscs have a history of being subject to taxonomic chicanery, through the Nouvelle École of late nineteenth-century France and other excesses of typological enthusiasm. Anodonta is no exception. The shells of freshwater mussels tend to be very plastic in morphology, their size, shape and appearance being strongly affected by their developmental environment. As a result, they include what were labelled by Riccardi et al. (2020) as "some of the most over-described species on the planet". The swan mussel A. cygnea alone has had somewhere in the region of 550 different species-group names applied to it at one time or another. Modern estimates of Anodonta diversity are considerably more conservative. Just four species are currently recognised from Eurasia (Riccardi et al. 2020) with the swan mussel and the duck mussel A. anatina being the most widespread (offhand, I don't know whether the mussels get their vernacular names because they're eaten by swans and ducks or because the shape of the shell is supposed to look like a swan or duck). Considering the travails of shell-based taxonomy, it is noteworthy that these species often cannot be distinguished with certainty without checking the soft tissue. North America is home to six or seven recognised species with diversity being higher to the west of the continent.

Nevertheless, there are still grounds for questioning the current taxonomy of Anodonta. Molecular studies of the genus by Chong et al. (2008), Bolotov et al. (2020) and Riccardi et al. (2020) have all suggested that Anodonta as currently recognised may be paraphyletic to closely related genera. In particular, there may be a divide between the Eurasian and North American lineages with the North American species closer to taxa found in eastern Asia. Anodonta has been a problem genus in the past and it sees no reason why it should allow itself to be reformed.

REFERENCES

Bolotov, I. N., A. V. Kondakov, E. S. Konopleva, I. V. Vikhrev, O. V. Aksenova, A. S. Aksenov, Y. V. Bespalaya, A. V. Borovskoy, P. P. Danilov, G. A. Dvoryankin, M. Y. Gofarov, M. B. Kabakov, O. K. Klishko, Y. S. Kolosova, A. A. Lyubas, A. P. Novoselov, D. M. Palatov, G. N. Savvinov, N. M. Solomonov, V. M. Spitsyn, S. E. Sokolova, A. A. Tomilova, E. Froufe, A. E. Bogan, M. Lopes-Lima, A. A. Makhrov & M. V. Vinarski. 2020. Integrative taxonomy, biogeography and conservation of freshwater mussels (Unionidae) in Russia. Scientific Reports 10: 3072.

Chong, J. P., J. C. B. Box, J. K. Howard, D. Wolf, T. L. Myers & K. E. Mock. 2008. Three deeply divided lineages of the freshwater mussel genus Anodonta in western North America. Conserv. Genet. 9: 1303–1309.

Moore, R. C. (ed.) 1969. Treatise on Invertebrate Paleontology pt N. Mollusca 6. Bivalvia vol. 1. The Geological Society of America, Inc. and The University of Kansas.

Riccardi, N., E. Froufe, A. E. Bogan, A. Zieritz, A. Teixeira, I. Vanetti, S. Varandas, S. Zaccara, K.-O. Nagel & M. Lopes-Lima. 2020. Phylogeny of European Anodontini (Bivalvia: Unionidae) with a redescription of Anodonta exulcerata. Zoological Journal of the Linnean Society 189: 745–761.

source http://coo.fieldofscience.com/2021/04/the-shells-of-ducks-and-swans.html