Saturday, 30 May 2020

Air-breathing Limpets

For many people, the most familiar members of the gastropods are the terrestrial snails. Gastropods started their evolution as marine animals, breathing through gills, but members of one lineage would instead evolve their own version of a lung, a large hollow in the mantle cavity opening through a hole alongside the head called the pneumostome. Possession of this lung cavity would enable slugs and snails to thrive in the terrestrial environment but the structure had originally evolved in a marine context, and even today one may find marine lung-bearers occupying habitats along the coast. One such group is the siphon limpets or 'false limpets'* of the Siphonarioidea.

*You know, normally I don't overly concern myself with vernacular names. They are not regulated and not obliged to follow reason. But even so, the name 'false limpet' makes me grit my teeth. The name is presumably inspired by the fact that siphonariids are not direct relatives of the 'true' limpets of the Patellogastropoda. But the limpet morphotype, where the typical spiral gastropod shell is reduced to a simple cap, has evolved on multiple occasions. As well as the siphonariids and patellogastropods, there are the keyhole limpets of the Fissurellidae, the freshwater limpets of the Ancylini, and many others, all consistently referred to as 'limpets'. The name refers to a morphology, not to a clade, and by that measure the siphonariids are no more 'false' than any other limpets.

Flat siphon limpets Siphonaria atra, copyright Ria Tan.


Living siphonarioids are placed within a single family, the Siphonariidae, whose members with their cap-shaped, often radially ribbed shells are found in littoral environments in temperate and tropical regions of the world. A second family, the Acroreiidae, is recognised from the Cretaceous and early Tertiary; the inclusion of these smooth, thin shells in the Siphonarioidea is somewhat tentative (classification of limpets in the fossil record is always a challenge because their simple shell form renders them light on distinguishing characters). Siphonariids are readily distinguished from other living limpets by the presence of a groove on the underside of the right side of the shell marking the position of the pneumostome. In dorsal view, this groove is often indicated by an asymmetry in the outline of the shell with one side produced. The pneumostome is also associated with a broad gap in the ring of muscle holding the shell in place; the ring is more complete in other limpets. Seemingly as a result of this lower extent of muscle, siphonariids cling to their home rocks with less tenacity than other limpets and are mostly restricted to more sheltered locations (Simone & Seabra 2017). On the other hand, they do have a more flexible foot than their competitors, allowing them to potentially move more quickly. Like other limpets, siphonariids are grazers, scraping microalgae as they crawl about. Siphonariids have a weaker radula than patellogastropods and so scrape somewhat less forcefully; when members of the two clades occupy the same habitats, patellogastropods are generally the more abundant. The majority of siphonariids (where known) have planktonic larvae but some species are known to be direct developers.

Siphonaria lessonii, copyright Mikelzubi.


Obviously, the marine but lung-possessing siphonariids are potentially of great interest in understanding how the gastropod lung evolved. Many earlier researchers thought that the siphonariids may have evolved from terrestrial ancestors who had returned to the seashore but this is no longer thought likely to be the case. In most lunged gastropods, gas exchange is effected in the mantle cavity via dense blood vessels in the cavity wall but in siphonariids a gill structure is present within the lung (this lung-gill combination makes the siphonariids particularly well suited for moving freely both above and below the water surface). The gill of siphonariids is quite similar to that of the sacoglossans, a group of herbivorous sea-slugs. Though it was long presumed that the lung-bearing gastropods belonged to a single clade, more recent molecular phylogenies have confused the issue (Kocot et al. 2013). The sacoglossans are likely to be close to the ancestry of lunged gastropods as a whole, but it is possible that siphonariids are more closely related to the sacoglossans than the other lung-bearers. It remains an open question whether the siphonariid combination of lung and gill represents an intermediate stage towards the vascular lung of the terrestrial forms, or whether siphonariids and other lung-bearers each evolved their pneumostome from close but distinct ancestors.

REFERENCES

Bouchet, P., J.-P. Rocroi, B. Hausdorf, A. Kaim, Y. Kano, A. Nützel, P. Parkhaev, M. Schrödl & E. E. Strong. 2017. Revised classification, nomenclator and typification of gastropod and monoplacophoran families. Malacologia 61 (1–2): 1–526.

Simone, L. R. L., & M. I. G. L. Seabra. 2017. Shell and body structure of the plesiomorphic pulmonate marine limpet Siphonaria pectinata (Linnaeus, 1758) from Portugal (Gastropoda: Heterobranchia: Siphonariidae). Folia Malacologia 25 (3): 147–164.

source http://coo.fieldofscience.com/2020/05/air-breathing-limpets.html

Friday, 29 May 2020

Beetle from Spain

Subject:  Spanish fly?
Geographic location of the bug:  Ipswich east anglia
Date: 05/27/2020
Time: 07:21 AM EDT
Your letter to the bugman:  Hi bugman just spotted this on a margarita plant and can’t identify it! From google images it looks like a spanish fly
How you want your letter signed:  Chris

Thick Legged Flower Beetle

Dear Chris,
This is not the Blister Beetle commonly called Spanish Fly.  It is a Thick Legged Flower Beetle,
Oedemera nobilis, which is profiled on Wildlife Insight where it states it is:  “a common beetle that can be identified by its dazzling colour and gap in the elytra (wing case). This gap in the elytra is not always so obvious but generally gives the appearance of wings that don’t close properly over its back. The males are very distinctive having obvious green bulges in their legs. These beetles certainly catch the eye with their metallic green wing cases glistenening in the sunlight as they feed in the open on flower heads.”

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Toebiter from Canada

Subject:  Huge black beetle
Geographic location of the bug:  Ontario Canada
Date: 05/26/2020
Time: 11:56 PM EDT
Your letter to the bugman:  What is this bug?
How you want your letter signed:  Hello

Toe-Biter

This is not a Beetle.  It is anaquatic Giant Water Bug commonly called a Toe-Biter.

 

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



Thursday, 28 May 2020

Wednesday, 27 May 2020

The Colletinae: Going to Ground

In a recent post, I considered one of the families of short-tongued bees, the Halictidae. In this post, I'll turn my attention to members of one of the other short-tongued bee families, the Colletidae. Specifically, I'm looking at members of the subfamily Colletinae.

Mating ball of male ivy bees Colletes hederae, copyright Charles J. Sharp.


Members of the Colletidae differ from other bee families in that their glossa, the 'tongue' at the end of the proboscis, is apically bilobed or bifurcate. They are also distinctive in lining their nests with a plasticky, cellophane-like material. It has been thought that this material was made from dry saliva but the bulk of it is now known to come from a large gland in the abdomen that opens near the base of the sting (Almeida 2008). A nesting female will swallow droplets of the glandular secretion from her partially protruded sting then regurgitate it as she licks the wall of the nest cell. This waterproof lining both protects the cell from outside elements while preventing the loss of moisture from within. Many colletids, including colletines, leave the cell food provisions in a semi-liquid state; other bees whose nests are less watertight will dry and compact the provisions, presumably because the bulk of them would otherwise be lost before the larva hatched. In colletines, the egg is attached to the cell lining when laid, suspended above the provisions for the hatching larva to swandive into upon emergence. All colletids are solitary nesters with species nesting either in burrows in the ground or in hollows in vegetation; the majority of colletines are ground nesters*.

*One species, Colletes daviesianus, has apparently taken in Germany to boring its nests in the sandstone and mortar used in building construction.

Female Colletes daviesianus, copyright Donald Hobern.


In his 2007 edition of The Bees of the World, Charles Michener recognised five subfamilies within the Colletidae. The Colletinae were distinguished from three of these subfamilies by their retention of a covering of dense hair over the body (from the last subfamily, the Diphaglossinae, they differ in features of the glossa and wing venation). The hind leg of the female bears a well-developed scopa (dense arrangement of hairs for the carrying of pollen) on the femur and tibia with a corbicula (bare patch within the scopa where a ball of compacted pollen may be carried) on the underside of the femur. Hairiness is an ancestral characteristic for bees and phylogenetic studies have established that the Colletinae as recognised by Michener is a paraphyletic grouping (e.g. Almeida & Danforth 2009). As a result, it has been further subdivided with the name 'Colletinae' now restricted to what Michener had recognised as the tribe Colletini. As such, the Colletinae now includes just two genera of moderate-sized bees (seven to sixteen millimetres in length). The larger of these, Colletes, is found in temperate and tropical regions around the world except for the Indo-Australian region where it is notably absent. The other genus, Maurecolletes, is restricted to South America. One of the most distinctive features of Colletinae in the strict sense compared to other ex-colletines is the lack of the basitibial and pygidial plates, flattened and hardened plates possessed by other hairy colletids at the base of the hind tibia and at the end of the abdomen.

The absence of these plates is intriguing in light of the ground-nesting habits that seem to be the norm for Colletes (the nesting habits of Maurecolletes seem to be unknown). In other ground-nesting bees, the basitibial and pygidial plates are used to press the soil of the nest walls and opening into place. One would think this would mitigate against their loss. An explanation may be provided by the fact that some South American Colletes nest in the hollows of dead, pithy plant stems instead of in the ground, a characteristic shared with members of the less hairy colletid subfamilies belonging to the sister group of the colletines (Almeida & Danforth 2009). Ground-nesting Colletes species also bear noteworthy resemblances to stem-nesting colletids. Nest cells are closed with a layer of the cellophane-like wall membrane rather than the earthen plugs used by other ground-nesting bees. In many species, cells are lined up in a burrow divided by transverse partitions rather than placed in their own individual side branches. The possibility has been suggested that stem-nesting arose within the common ancestors of modern colletines and less hairy colletids. Ground-nesting in Colletes would then represent a secondary reversion by these species to the previous habit. When they did so, they retained the adaptations and habits that had originally been associated with their time in the twigs.

REFERENCES

Almeida, E. A. B. 2008. Colletidae nesting biology (Hymenoptera: Apoidea). Apidologie 39: 16–29.

Almeida, E. A. B., & B. N. Danforth. 2009. Phylogeny of colletid bees (Hymenoptera: Colletidae) inferred from four nuclear genes. Molecular Phylogenetics and Evolution 50: 290–309.

Michener, C. D. 2007. The Bees of the World 2nd ed. John Hopkins University Press: Baltimore.

source http://coo.fieldofscience.com/2020/05/the-colletinae-going-to-ground.html

First Luna Moth Sighting of the Year

Subject:  Luna Moth
Geographic location of the bug:  Wakefield Quebec
Date: 05/27/2020
Time: 10:38 AM EDT
Your letter to the bugman:  This guy was a pleasant surprise today to my 5 year old son/ant and bug collector
How you want your letter signed:  Gene

Luna Moth

Dear Gene,
We are so excited that your submission is our first Luna Moth posting of the year, though one can only guess how many Luna Moth submissions arrived between April 21 when Daniel last checked his emails and now.  Canadian sightings are occur around June, and our earliest sightings, sometimes as early as January or February, are generally from Texas and Florida.

The post First Luna Moth Sighting of the Year appeared first on What's That Bug?.



Karner Blues and Possibly Solved Mystery

Subject:  Karner blue butterfly
Geographic location of the bug:  Albany Pine Bush, Albany, NY
Date: 05/27/2020
Time: 05:43 PM EDT
Your letter to the bugman:  Hi What’s that Bug!
Here’s a mystery for you. I’m quite certain this is a Karner blue butterfly, Plebejus melissa samuelis. You may be aware that our Albany Pine Bush in upstate New York is one of the few habitats this endangered subspecies can thrive, since its larvae feed only on the wild blue lupine that grows here. I saw quite a few Karner blues out among the lupines on this visit! None of our other local blues have that much orange along the wing, so it has to be a Karner.
The mystery: what the heck is going on with its abdomen? What is that orange stuff at the end? I thought it might be laying an egg, but as far as I can tell their eggs are light gray or white, not orange. And anyway it’s not on a lupine–I think the plant is a raspberry or blackberry. It stayed in this position for a couple of minutes before fluttering off, and I didn’t realize there was anything weird until I looked at the photos.
I’ll also include a better image of a different individual for your enjoyment. This little guy seemed to be more interested in lapping up my sweat than anything else–I tried to coax it onto a lupine, but it wouldn’t leave!
How you want your letter signed:  Susan B.

Karner Blue with possible Dipteran parasites

Dear Susan,
Though we are quite excited to post your Karner Blue images, we will start with the mystery.  We don’t know what that is, but we suspect it is not a good thing.  We suspect this might be evidence of parasitism, possibly Dipteran, meaning a type of fly.  Though we don’t often site Wikipedia, it does provide this information “A tachinid fly,
Aplomya theclarum, has also been listed as a Karner blue butterfly parasite.”*  We will attempt to get a second opinion on this matter.  Meanwhile, we really are thrilled with your images of Karner Blues.  Not only was it described by one of Daniel’s favorite writers, Vladimir Nabokov, it is a new species for our site that currently contains over postings. 

Karner Blue

*Haack, Robert A. (1993). “The endangered Karner blue butterfly (Lepidoptera: Lycaenidae): biology, management considerations, and data gaps”. In Gillespie, Andrew R.; Parker, George R.; Pope, Phillip E. (eds.). Proceedings, 9th central hardwood forest conference; 1993 March 8–10; West Lafayette, IN. Gen. Tech. Rep. NC-161. St. Paul, MN: U.S. Department of Agriculture, Forest Service, North Central Forest Experiment Station. pp. 83–100.

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Mourning Cloak

Subject:  Dark Winged Beauty
Geographic location of the bug:  Ventura, California
Date: 05/25/2020
Time: 07:27 PM EDT
Your letter to the bugman:  Dear Bugman,
I have noticed this beauty on my patio the past few days. It stays close and sometimes pauses  briefly to bask in the sunlight. I was hoping to catch a picture of the open wing span, but instead it kept it’s wings together, eventually took flight   pausing mid air about 6 inches from my face and then departed.
How you want your letter signed:  Melanie in the Irish Chain

Mourning Cloak

Dear Melanie on the Irish Chain,
Thank you so much for your entertaining telephone call describing this beauty, and you actually identified it as a Mourning Cloak during the call.  You are absolutely correct.  The Mourning Cloak often basks in the sun, and it is rarely seen nectaring from flowers.  According to BugGuide:  “Adults feed primarily on tree sap (oaks preferred) and rotting fruit; only occasionally on flower nectar.”  Your posting lured Daniel back to the site he has ignored for nearly five weeks, and he has never in the eighteen years the site has existed, been away that long, even in the early days of exhausted band width when after about ten days, Daniel could post no more until the first of the next month.  Thanks again for our enjoyable morning conversations and for making Daniel realize he really does need to make at least one posting per day.  Though the month is nearly over, Daniel never selected a Bug of the Month for May 2020, so since it is the first identification request we have filled since April 21, it is now the Bug of the Month for May 2020.

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Another Cramer’s Sphinx in Mount Washington

Gentle Readers,
Since the onset of COVID-19, Daniel has been overwhelmed with computer based activities, including teaching college students online and running ZOOM meetings, and to maintain mindfulness as well as having a real sense of physical accomplishment, he has eschewed all leisurely contact with the computer, including responding to and posting your many submitted identification queries, and he has instead devoted time to being in contact with the earth, his garden and the diversity of wildlife and plants that share that space with him.  Please forgive his inattentions to this website he really does love so much.  He has not been troubled with ill health, either physical or mental.  He just feels the need to unplug, slow down and enjoy life.  While it is not much to look at, this tattered Cramer’s Sphinx is the second that has visited his porch recently, the first being a much more beautiful individual in 2015, and allegedly the first local sighting in 50 years. There are only three sightings on BugGuide, so this must really be a North American rarity.  In order to be certain of this identification, Daniel has consulted both Julian Donahue and Bill Oehlke.

Cramer’s Sphinx

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Tuesday, 26 May 2020

Here We Go Again: Another Invasive Pest in Florida Citrus | Entomology Today

This post Here We Go Again: Another Invasive Pest in Florida Citrus appeared first on Entomology Today - Brought to you by the Entomological Society of America.

The mealybug species Nipaecoccus viridis, known as the lebbeck mealybug, is originally from Asia and was first found in Florida back in 2009, but in late 2018 it was found infesting citrus groves in the state. The author of a new report in the Journal of Integrated Pest Management discusses the implications of its arrival and the management options that are currently available and under evaluation.

The post Here We Go Again: Another Invasive Pest in Florida Citrus appeared first on Entomology Today.

Thursday, 21 May 2020

Lab Study Shows Asian Longhorned Tick Can Spread Rocky Mountain Spotted Fever | Entomology Today

This post Lab Study Shows Asian Longhorned Tick Can Spread Rocky Mountain Spotted Fever appeared first on Entomology Today - Brought to you by the Entomological Society of America.

Researchers at the U.S. Centers for Disease Control and Prevention have found that the invasive Asian longhorned tick (Haemaphysalis longicornis) can, at least under lab conditions, acquire and transmit the bacteria that cause Rocky Mountain spotted fever.

The post Lab Study Shows Asian Longhorned Tick Can Spread Rocky Mountain Spotted Fever appeared first on Entomology Today.

Wednesday, 20 May 2020

Gaga for Gum: Study Shows Sticky Mixture Distracts Fruit Fly Pest | Entomology Today

This post Gaga for Gum: Study Shows Sticky Mixture Distracts Fruit Fly Pest appeared first on Entomology Today - Brought to you by the Entomological Society of America.

A food-grade gum substance shows promise as a new tool for managing the invasive spotted-wing drosophila. The flies don't get stuck, but the scent interferes with their reproductive behavior, and the gum can last up to three weeks in the field.

The post Gaga for Gum: Study Shows Sticky Mixture Distracts Fruit Fly Pest appeared first on Entomology Today.