butterflies

This week in Zoology, Entomology and Science

It's been a very busy week in the world of zoology and entomology and science in general.

Here are some hand-picked snippets of stories that caught my attention in the last seven days, covering a range of topics including Chagas disease, the grasslands of Santa Cruz, sex determination in ants, flight stability in fruit flies, the etiquette of insect identification, monarch butterfly migrations, gifts for science geeks, "participation points", how ants avoid collisions, pollination is more than bees, describing new moth species, how trap-jaw ants jump, how parasitic tapeworms influence ants, replacing pesticides with plants' chemical defences, Sir David Attenborough's butterfly, co-authorships, fellowships, conserving Antarctica, building better and making the most of PhDs, and Neonicotinoids and butterfly declines.

 


New Report on Chagas Disease Causes Storm of Concern

There has been a great increase in concern, and spread of misinformation recently in response to a press release and policy paper earlier this month. The publication advocates for more research into Chagas disease, caused by a parasitic organism, Trypanosoma cruzi, carried by assassin bugs in the subfamily Triatominae. The result in social media especially has been the misidentification of nearly every indoor "bug" or assassin bug as a "kissing bug" carrying Chagas.

Trypanosoma cruzi crithidia  by Photo Credit:Content Providers(s): CDC/Dr. Myron G. Schultz - This media comes from the Centers for Disease Control and Prevention's Public Health Image Library (PHIL), with identification number #613.Note: Not all PHIL images are public domain; be sure to check copyright status and credit authors and content providers.English | Slovenščina | +/−. Licensed under Public Domain via Commons - https://commons.wikimedia.org/wiki/File:Trypanosoma_cruzi_crithidia.jpeg#/media/File:Trypanosoma_cruzi_crithidia.jpeg

Trypanosoma cruzi crithidia by Photo Credit:Content Providers(s): CDC/Dr. Myron G. Schultz - This media comes from the Centers for Disease Control and Prevention's Public Health Image Library (PHIL), with identification number #613.Note: Not all PHIL images are public domain; be sure to check copyright status and credit authors and content providers.English | Slovenščina | +/−. Licensed under Public Domain via Commons - https://commons.wikimedia.org/wiki/File:Trypanosoma_cruzi_crithidia.jpeg#/media/File:Trypanosoma_cruzi_crithidia.jpeg

Source/read more Bug Eric



Through the Grasslands of Santa Cruz County

I love those grey-golden expanses of grass that role and wave under the low standing winter sun, and those mountain ranges with names like Mule and Mustang that cast their deep shadows. So when I had to deliver art work to my little Patagonia gallery (Creative Spirits Artists) I took my time on southbound Highway 83. I did not stop for every Hawk that perched on the power lines, but a whole heard of Pronghorns was too good. There were at least two dozens of them, grazing not too far from the road side.

Source/read more Arizona Beetles, Bugs, Birds and More



Sex Determination in Ants

Yin and Yang, Venus and Mars, the Moon and the Sun, however you want to describe it, becoming a female or a male can make a big difference in your life, and not just for human beings. Dr. Misato O. Miyakawa, a former post-doc at the Okinawa Institute of Science and Technology Graduate University (OIST) and Professor Alexander S. Mikheyev, leader of the Ecology and Evolution Unit have discovered the two ancient genetic components of sex determination in ants. This paper has just been published in PLOS Genetics

Source/read more Okinawa Institute of Science and Technology Graduate University

Citation Misato O. Miyakawa, Alexander S. Mikheyev. QTL Mapping of Sex Determination Loci Supports an Ancient Pathway in Ants and Honey Bees. PLOS Genetics, 2015; 11 (11): e1005656 DOI: 10.1371/journal.pgen.1005656



How Do Fruit Flies Maintain Flight Stability?

Have you ever wondered why insects move in the funky ways they do? Or how physical laws shape the design of animals' sensors and neural computation for locomotion?

Source/read more Newswise



Insect Identifications and Etiquette

I’ve been a student of insects for most of my life, and of the many aspects of entomology that interest me, field collecting and identification remain the most enjoyable. My interest in beetles first began to gel during my days at the university (despite a thesis project focused on leafhoppers), and early in my career I settled on wood-boring beetles (principally Buprestidae and Cerambycidae) as the taxa that most interested me. To say that species identification of these beetles can be difficult is an understatement, but I was fortunate to have been helped by a number of individuals — well-established coleopterists — who freely shared their time and expertise with me during my early years and pointed me in the right direction as I began to learn the craft.

Source/read more Beetles in the Bush



Seasonal monarch butterfly migrations may help lower infection levels

Seasonal migrations may help lower infection levels in wild North American monarch butterfly populations, according to a study published November 25, 2015 in the open-access journal PLOS ONE by Sonia Altizer from the University of Georgia, and colleagues.

Danaus plexippus  |  Kenneth Dwain Harrelson/Wikimedia Commons  [CC BY-SA 3.0]

Danaus plexippus | Kenneth Dwain Harrelson/Wikimedia Commons [CC BY-SA 3.0]

Source/read more Eureka Alert

Citation Sonia Altizer, Keith A. Hobson, Andrew K. Davis, Jacobus C. De Roode, Leonard I. Wassenaar. Do Healthy Monarchs Migrate Farther? Tracking Natal Origins of Parasitized vs. Uninfected Monarch Butterflies Overwintering in Mexico. PLOS ONE, 2015; 10 (11): e0141371 DOI: 10.1371/journal.pone.0141371



The Best Gifts of 2015 for Science Geeks

Want to find the perfect holiday gift for the science fan in your life? No need to experiment—we've done the research and selected some of the most electrifying goodies, from Plutonic pendants to mossy home décor, to fascinate your favourite brainiac.

  1. Pluto Pendant Necklace
  2. "Adventures in the Anthropocene"
  3. Women in Science Tee Shirts
  4. Planetary Glass Set
  5. Ernst Haeckel Science Illustration Pillows
  6. Marimo Moss Ball Light Bulb Terrarium
  7. Pandemic Legacy Board Game
  8. MEL Chemistry Sets
  9. Petrified Wood Cheese Tray
  10. Edison Touch Lamp

Source/read more Smithsonian Mag



Why I don’t use “participation” points

Do you think giving students “participation” points is a good idea? I don’t.

I’ve been promising for over two years that I’d be writing about why class credit for participation is a Bad Idea. So here’s the post!

People put “participation” points* in the syllabus for a variety of reasons. In my experience, professors count 5-10% of the total grade towards “participation,” and sometimes more. It seems that a student’s level of “participation” can make the difference of a whole letter grade, by making an otherwise-B into a C if a student gets a poor participation score, or can lift a B into an A if they get full credit for participation. In most of the syllabi I’ve reviewed, these participation points are rarely calculated quantitatively. A student could go into the final exam without having any idea what their participation grade is. That seems wonky, doesn’t it?

Source/read more Small Pond Science



Avoiding collision leads to common routes

Ants, when walking around in cluttered environments, are known to follow a limited number of common routes. Researchers show that similar routes emerge when an algorithm for collision avoidance, based on the apparent motion of obstacles, is combined with a target direction.

Source/read more Science Daily

Citation Olivier J. N. Bertrand, Jens P. Lindemann, Martin Egelhaaf. A Bio-inspired Collision Avoidance Model Based on Spatial Information Derived from Motion Detectors Leads to Common Routes. PLOS Computational Biology, 2015; 11 (11): e1004339 DOI: 10.1371/journal.pcbi.1004339


Pollination is more than bees

Other creatures visit more flowers than bees do, and may be almost as important in pollinating crops.

Romina Rader at the University of New England in Armidale, Australia, and her colleagues analysed data from 39 field studies of pollination by honey bees, other bees and other insects, including flies, beetles, moths and ants. They found that other insects carried out 25–50% of all visits to crop flowers. Although these 'non-bees' were less effective at pollinating on each visit, their increased visits made them roughly as effective as bees.

The contribution of different insect groups to flower visitation across the 37 crop studies for which visitation data were available. Crops are ordered, left to right, from mostly bee-dominated to mostly non-bee–dominated. (From Rader et al. 2015.)

The contribution of different insect groups to flower visitation across the 37 crop studies for which visitation data were available. Crops are ordered, left to right, from mostly bee-dominated to mostly non-bee–dominated. (From Rader et al. 2015.)

Source/read more Nature

Citation Romina Rader, Ignasi Bartomeus, Lucas A. Garibaldi, Michael P. D. Garratt, Brad G. Howlett, Rachael Winfree, Saul A. Cunningham, Margaret M. Mayfield, Anthony D. Arthur, Georg K. S. Andersson, Riccardo Bommarco, Claire Brittain, Luísa G. Carvalheiro, Natacha P. Chacoff, Martin H. Entling, Benjamin Foully, Breno M. Freitas, Barbara Gemmill-Herren, Jaboury Ghazoul, Sean R. Griffin, Caroline L. Gross, Lina Herbertsson, Felix Herzog, Juliana Hipólito, Sue Jaggar, Frank Jauker, Alexandra-Maria Klein, David Kleijn, Smitha Krishnan, Camila Q. Lemos, Sandra A. M. Lindström, Yael Mandelik, Victor M. Monteiro, Warrick Nelson, Lovisa Nilsson, David E. Pattemore, Natália de O. Pereira, Gideon Pisanty, Simon G. Potts, Menno Reemer, Maj Rundlöf, Cory S. Sheffield, Jeroen Scheper, Christof Schüepp, Henrik G. Smith, Dara A. Stanley, Jane C. Stout, Hajnalka Szentgyörgyi, Hisatomo Taki, Carlos H. Vergara, Blandina F. Viana, and Michal Woyciechowski. Non-bee insects are important contributors to global crop pollination. PNAS, November 2015 DOI: 10.1073/pnas.1517092112



Get to know them faster: Alternative time-efficient way to describe new moth species

Having collected thousands of moth and butterfly species from across Costa Rica, famous ecologist Daniel Janzen, University of Pennsylvania, and his team were yet to find out many of their names. When they sought help from Dr. Gunnar Brehm, the taxonomist realised he needed too much time to describe species in the framework of an extensive revision of the genus, especially as there are still only a few biologists skilled to do this.

Source/read more Eureka Alert

Citation Gunnar Brehm. Three new species of Hagnagora Druce, 1885 (Lepidoptera, Geometridae, Larentiinae) from Ecuador and Costa Rica and a concise revision of the genus. ZooKeys, 2015; 537: 131 DOI: 10.3897/zookeys.537.6090



Trap-Jaw Ant Jumps with Its Legs or Its Mandibles

Trap-jaw ants have powerful mandibles that they use to capture and crush prey, and to fling themselves from danger. Now new research shows that a species of trap-jaw ant jumps with its legs, a previously unseen jumping behaviour, rather than its jaws. The discovery makes this species, Odontomachus rixosus, the only species of ant that can jump with either its legs or its mandibles.

Odontomachus rixosus  |  Bernard Dupont./Flickr  [ CC BY-SA 2.0 ]

Odontomachus rixosus | Bernard Dupont./Flickr [CC BY-SA 2.0]

Source/read more Entomology Today



Parasitic tapeworm influences the behaviour and lifespan of uninfected members of ant colonies

Aggressive behaviour of entire ant colony reduced / Lifespan of uninfected nest-mates curtailed but increased in infected ants.

Ants are quite often infected by parasites. For example, tapeworms use ants as intermediate hosts for a part of their development phase before they complete their life cycle in their main host. Researchers at Johannes Gutenberg University Mainz (JGU) have now discovered that such parasites not only change the appearance and behaviour of infected ants but also have an effect on the behaviour of uninfected members of the colony. The overall aggressiveness of an ant colony diminishes if it contains members who are infected with a parasite. The investigations being undertaken by a team of Mainz-based evolutionary biologists headed by Professor Susanne Foitzik are designed to uncover the effects that parasites have on animal societies and to find out how the parasites manipulate the behaviour of their hosts in order to better survive. Their findings have recently been published in Proceedings of the Royal Society B.

Source/read more Johannes Gutenberg University Mainz

Citation Sara Beros, Evelien Jongepier, Felizitas Hagemeier, Susanne Foitzik. The parasite's long arm: a tapeworm parasite induces behavioural changes in uninfected group members of its social host. Proceedings of the Royal Society B: Biological Sciences, 2015; 282 (1819): 20151473 DOI: 10.1098/rspb.2015.1473



Chemicals That Make Plants Defend Themselves Could Replace Pesticides

Chemical triggers that make plants defend themselves against insects could replace pesticides, causing less damage to the environment. New research published in Bioorganic & Medicinal Chemistry Letters identifies five chemicals that trigger rice plants to fend off a common pest – the white-backed planthopper, Sogatella furcifera.

We used the relative induction of GUS activity as a screening tool for identifying new chemical elicitors that induce resistance in rice to the white-backed planthopper  Sogatella furcifera . (From He et al. 2015.)

We used the relative induction of GUS activity as a screening tool for identifying new chemical elicitors that induce resistance in rice to the white-backed planthopper Sogatella furcifera. (From He et al. 2015.)

Source/read more Elsevier

Citation Xingrui He, Zhaonan Yu, Shaojie Jiang, Peizhi Zhang, Zhicai Shang, Yonggen Lou, Jun Wu. Finding new elicitors that induce resistance in rice to the white-backed planthopper Sogatella furcifera. Bioorganic & Medicinal Chemistry Letters, 2015; 25 (23): 5601 DOI: 10.1016/j.bmcl.2015.10.041



New Butterfly Species Named after Sir David Attenborough

Add another item to the list of insects that have been named after the British naturalist and filmmaker David Attenborough. Last year a 20-million-year-old pygmy locust was named after him, as was a new species of beetle.

Now, for the first time, a butterfly has been named after him. It’s a black-eyed satyr that it is known only from lowland tropical forests of the upper Amazon basin in Venezuela, Colombia, and Brazil. In fact, Euptychia attenboroughi has such a restricted distribution that all of its known sites lie within 500 kilometres from each other in the northwest of the upper Amazon basin.

Source/read more Entomology Today



Researchers wrestle with co-authorship

The prickly topic of how to assign credit to scientists flares up on social media.

Questions of paper authorship have been plaguing scientists on social media recently. Who should come first? And who deserves to be listed at all? When it comes to papers with numerous authors, the publishing process can get messy. For instance, when Dorothy Bishop, a psychologist at the University of Oxford, UK, found herself trying to review a paper blemished with mistakes, she tweeted:

Source/read more Nature



Fellowships are the future

Postdocs need a level of autonomy to get the best out of their position, say Viviane Callier and Jessica Polka.

Much scientific research could not function without postdocs. They do the research outlined in a grant — moving the work of the principal investigator (PI) forward, producing papers and helping to win grants. Yet too many postdocs end up doing work that does not benefit their scientific and intellectual development. They are shut out of developing ownership of a research programme, a step that is crucial for launching the next stage of their career.

Source/read more Nature



Conservation: It is rational to protect Antarctica

We are dismayed that the international commission that oversees the Convention on the Conservation of Antarctic Marine Living Resources has voted against establishing marine protected areas (MPAs) around Antarctica for the fifth consecutive time. These MPAs are designed to protect wildlife hotspots of world significance.

Source/read more Nature



How to build a better PhD

There are too many PhD students for too few academic jobs — but with imagination, the problem could be solved.

“Since 1977, we've been recommending that graduate departments partake in birth control, but no one has been listening,” said Paula Stephan to more than 200 postdocs and PhD students at a symposium in Boston, Massachusetts, in October this year.

Source/read more Nature



Make the most of PhDs

The number of people with science doctorates is rapidly increasing, but there are not enough academic jobs for them all. Graduate programmes should be reformed to meet students’ needs.

It is hard to argue against the idea that a workforce should be highly educated. The media, politicians and universities all believe that a scientific background will not only benefit individuals, but also drive science, innovation and the economy. As a result, the number of people entering higher education in the sciences and engineering has been on the rise for decades. Between 1995 and 2012, the Organisation for Economic Co-operation and Development reported an overall increase in university graduation rates of 22 percentage points. In the same time frame, the PhD production rate has doubled, even though PhDs account for only a small percentage of higher-education graduations.

Source/read more Nature



Neonicotinoid pesticides linked to butterfly declines in the UK

The use of neonicotinoid pesticides may be contributing to the decline of butterflies in the UK, a new study by the Universities of Stirling and Sussex in partnership with Butterfly Conservation and the Centre for Ecology and Hydrology has revealed.

Thymelicus lineola  |  Korall/Wikimedia Commons  [ CC BY-SA 3.0 ]

Thymelicus lineola | Korall/Wikimedia Commons [CC BY-SA 3.0]

Source/read more University of Stirling

Citation Andre S. Gilburn, Nils Bunnefeld, John McVean Wilson, Marc S. Botham, Tom M. Brereton, Richard Fox, Dave Goulson. Are neonicotinoid insecticides driving declines of widespread butterflies? PeerJ, 2015; 3: e1402 DOI: 10.7717/peerj.1402

Global weather and local butterflies: variable responses to a large-scale climate pattern along an elevational gradient

Understanding the spatial and temporal scales at which environmental variation affects populations of plants and animals is an important goal for modern population biology, especially in the context of shifting climatic conditions.

The El Niño Southern Oscillation (ENSO) generates climatic extremes of interannual variation, and has been shown to have significant effects on the diversity and abundance of a variety of terrestrial taxa. However, studies that have investigated the influence of such large-scale climate phenomena have often been limited in spatial and taxonomic scope.

Researchers used 23 years (1988–2010) of a long-term butterfly monitoring data set to explore associations between variation in population abundance of 28 butterfly species and variation in ENSO-derived sea surface temperature anomalies (SSTA) across 10 sites that encompass an elevational range of 2750 m in the Sierra Nevada mountain range of California.

Their analysis detected a positive, regional effect of increased SSTA on butterfly abundance (wetter and warmer years predict more butterfly observations), yet the influence of SSTA on butterfly abundances varied along the elevational gradient, and also differed greatly among the 28 species.

Migratory species had the strongest relationships with ENSO-derived SSTA, suggesting that large-scale climate indices are particularly valuable for understanding biotic-abiotic relationships of the most mobile species. In general, however, the ecological effects of large-scale climatic factors are context-dependent between sites and species.

The results illustrate the power of long-term data sets for revealing pervasive yet subtle climatic effects, but also caution against expectations derived from exemplar species or single locations in the study of biotic-abiotic interactions.

Citation Nicholas A. Pardikes, Arthur M. Shapiro, Lee A. Dyer, and Matthew L. Forister 2015. Global weather and local butterflies: variable responses to a large-scale climate pattern along an elevational gradient. Ecology 96:2891–2901. http://dx.doi.org/10.1890/15-0661.1
 

Some like it hot: Moth and butterfly species respond differently to climate change

New research led by ecologists at the University of York shows that certain species of moths and butterflies are becoming more common, and others rarer, as species differ in how they respond to climate change.

Collaborating with the Natural Environment Research Council’s Centre for Ecology and Hydrology, the charity Butterfly Conservation, the University of Reading and Rothamsted Research, scientists analysed how the abundance and distribution of 155 species of British butterflies and moths have changed since the 1970s.

Using data collected by thousands of volunteers through ‘citizen science’ schemes, responses to recent climate change were seen to vary greatly from species to species.

Published in Science Advances, this research shows variation among species is attributed to differing sensitivity to climate change, and also because species vary in how much the climate has changed for them (their ‘exposure’).

Sensitivity is a measure of how much species’ numbers change as a result of year-to-year changes in the weather – each species is sensitive to different aspects of the climate, such as winter temperature or summer rainfall.  Variation in how much the climate they are sensitive to has changed for them - their ‘exposure’ – is also a contributing factor in their varied responses.

Results show that species such as the treble brown spot moth (Idaea trigeminata) and the speckled wood butterfly (Pararge aegeria) which are sensitive to climate, and for which the climate has improved the most, have experienced the greatest increases in their distribution size and abundance.

Conversely, other species, such as the grizzled skipper butterfly (Pyrgus malvae), the September thorn moth (Ennomos erosaria) and the mouse moth (Amphipyra tragopoginis), have experienced deteriorating climates resulting in declines in abundance and distribution size.

Georgina Palmer, lead author and Research Associate in the University of York’s Department of Biology, said: “Species are sensitive to different aspects of the climate, which results in species being exposed to different levels of climate change. Nearly two-thirds of the changes in abundance can be explained by these species-specific differences. This means that their responses to climate change may be more predictable than previously recognised.”

Dr Tom Oliver, co-author and Associate Professor in Landscape Ecology at the University of Reading, said: “Climate appears to have a key role in determining the distributions and abundances of species. Our next steps will be to determine the role of habitat availability in influencing species responses as the climate changes.”

Dr Jason Chapman, co-author at Rothamsted Research, said: “This study utilises large amounts of long-running data collected by volunteers through schemes such as the Rothamsted Insect Survey, run by Rothamsted Research, and the UK Butterfly Monitoring Scheme, run by Butterfly Conservation. Such data is a valuable resource to scientists, allowing us to describe the changes in distribution and abundance of species and to understand why these changes are taking place.”

Richard Fox, Head of Recording at Butterfly Conservation, said: “Butterflies and moths provide important ecosystem services such as prey for insectivorous birds, as well as being an important part of our natural heritage. These species have also long been used to study the health of ecosystems, as indicators of biodiversity.

“This research allows us to identify species likely to respond favourably to climate change, as well as those which are vulnerable to climate change. The results are surprising and significant as conservationists had assumed that most butterflies and moths in cool, rainy Britain would benefit from climate change, at least in the short term. However, this research suggests many are already declining due to the changing climate.”

Professor Jane Hill, co-author and Professor of Ecology and Evolution at the University of York, said: “We know that the distributions and abundances of species are affected by climate, and unless we take action to minimise climate change, for example by reducing emissions, these impacts will continue. Our study allows us to target conservation efforts on those species that are most negatively affected by climate, to help them persist under future climate change.”

Professor Chris Thomas, in the University of York’s Department of Biology, added: “The great puzzle has been why some species of moth and butterflies have been increasing and spreading, whilst others have declined in the last 40 years.  Now we know that most of the differences arise because each species responds in a different way to the climate.  Some like it hot, some like it cold.  Some like it hot in winter but not in summer.  Some like it wet in spring, others dry in the autumn. 

“It turns out that these 155 different species of butterflies and moth have almost 155 different ‘opinions’ on how much the climate has changed, and whether it has got better or worse.  Climate change is causing massive alterations to our wildlife.”

Source University of York.