Before you bug out for the semester, take a moment to look back at Fall 2021 with us! The Department of Entomology newsletter highlights publications, awards, defenses, media mentions and much more: https://mailchi.mp/eb2ecf9c3eb2/department-of-entomology-newsletter-fall-2021 ^Eckert RA, Lamp WO and Marbach-Ad G. Jigsaw dissection activity enhances student ability to relate morphology and ecology in aquatic insects. Journal of Biological Education. 2021 DOI: https://doi.org/10.1080/00219266.2021.2006268
^Evans K, Underwood RM and López-Uribe MM. Combined effects of oxalic acid sublimation and brood breaks on Varroa mite ( Varroa destructor ) and deformed wing virus levels in newly established honey bee ( Apis mellifera ) colonies. Journal of Apicultural Research. 2021. DOI: https://doi.org/10.1080/00218839.2021.1985260 Satler JD, Carsten BC, Garrick RC and Espíndola A. The Phylogeographic Shortfall in Hexapods: A Lot of Leg Work Remaining. Insect Systematics and Diversity. 2021. https://doi.org/10.1093/isd/ixab015 Tait G, Mermer S, Stockton D [and 46 others including Hamby KA and ^Schöneberg T]. Drosophila suzukii (Diptera: Drosophilidae): A Decade of Research Towards a Sustainable Integrated Pest Management Program. Journal of Economic Entomology. 2021. DOI: https://doi.org/10.1093/jee/toab158 Marsden BW, Ngeve MN, Engelhardt KAM and Neel MC. Assessing the Potential to Extrapolate Genetic-Based Restoration Strategies Between Ecologically Similar but Geographically Separate Locations of the Foundation Species Vallisneria americana Michx. Estuaries and Coasts. 2021. DOI: https://doi.org/10.1007/s12237-021-01031-z *Graham PL, ^Fischer MD, Giri A, and Pick L. The fushi tarazu zebra element is not required for Drosophila viability or fertility. G3 Genes|Genomes|Genetics. 2021. DOI: https://doi.org/10.1093/g3journal/jkab300 Kard BM, OI FM, Thorne BL, Forschler BT and Jones SC. Performance Standards and Acceptable Test Conditions for Preventive Termiticide and Insecticide Treatments, Termite Baiting Systems, and Physical Barriers for New Structures or Buildings Under Construction (Pre-Construction; During Construction; Post-Construction). Florida Entomologist. 2021. DOI: https://doi.org/10.1653/024.104.0308 Hensel MJS, Silliman B., van de Koppel J, Hensel E, ^Sharp SJ, Crotty SM and Byrnes JEK. A large invasive consumer reduces coastal ecosystem resilience by disabling positive species interactions. Nature Communications. 2021. DOI: https://doi.org/10.1038/s41467-021-26504-4 Bold ENTM Faculty; ^ENTM current/former graduate student or post-doc; *ENTM research staff How can we keep native bee species alive?
Dr. Nathalie Steinhauer, UMD postdoc and Bee Informed Partnership science coordinator says to Capital News Service MD: Support companies working to reduce the environmental impacts affecting bee populations. & how in the world did bees survive for weeks under volcano ash following the Canary Islands eruption? Nathalie tells the New York Times: That behavior is typical of honeybees, who use propolis, which they produce from substances they collect from plants and buds, to plug tiny gaps in the hive to protect it from rainwater and drafts, said Nathalie Steinhauer, a researcher in the department of entomology at the University of Maryland Still, the fact that the bees on the island managed to spend weeks inside the hive insulating themselves from such oppressive conditions was surprising — and even inspirational, Dr. Steinhauer said. “It is a very empowering story,” she said. “It tells a lot about the resilience of honeybees. [Seminar Blog] I declare a plant-insect war: The arms-race and profiteering of species interactions.12/16/2021
We may think of herbivores, or animals that feed on plants, as large lumbering creatures grazing on grass, but most of them are, in fact, insects (Forister et al., 2015). Herbivorous insects interact with the predators that seek to eat them and the plants they rely on for food. But from a plant’s perspective, the insect herbivores are the predators. Plants rely on various tools to reduce the onslaught of attack from these foliage feeders. For example, they can utilize sticky appendages called trichomes, and deploy stinky or toxic chemicals. These interactions that originate from the plant and have impacts on herbivores are known as ‘bottom-up effects’ (Figure 1). Due to the abundance of insect herbivores in nature, they are also important food sources for insect predators and parasitoids. These interactions, which involve herbivore predators, are an example of ‘top-down effects’ (Figure 1).
In 2017, Professor Sara Via started a collaboration with the Maryland Department of Agriculture on soil health and how farmers can manage their land to store carbon in agricultural soils. As part of this collaboration and her role as one of Maryland's representatives to the Natural and Working Lands Workgroup of the US Climate Alliance, Dr. Via began a review of the scientific literature on the topic to evaluate the carbon-sequestering effectiveness of a set of 23 practices, including reduced tillage and the use of cover crops. This review led to a comprehensive report that demonstrates how increased adoption of these key practices can make agriculture a significant part of the American climate solution. The report, titled “Increasing Soil Health and Sequestering Carbon in Agricultural Soils: A Natural Climate Solution” highlights a set of farming practices that improve soil health, reduce greenhouse gas emissions, and store carbon in the soil while providing economic benefits for farmers and environmental benefits for all. The table of expected GHG reductions from using each of the recommended practices was integrated into Maryland's 2030 Greenhouse Gas Reduction Act Plan as Appendix K. For more information and to download the report, check out publisher Izaak Walton League of America’s press release here>>.
PICK LAB OBSERVATIONS OFFER CLUES INTO UNDERSTANDING HOW DIFFERENT MODES OF SEGMENTATION EVOLVE12/15/2021
Arthropods are famous for their segmented body plans, which contribute to their vast diversity through modular addition of appendages, wings and more. Segments are patterned early in embryonic development, and this process has been intensively studied in the fruit fly, Drosophila melanogaster. Drosophila is a premier model system, owing to ease and speed of culture and abundant genomic and molecular tools. However, it’s segmentation process is seemingly unlike that of most arthropods. Drosophila establishes all its segments at the same time, whereas other species specify segments one at a time over a long growth period. It has long been assumed that distantly related flies, such as mosquitoes, make this segments the same way that Drosophila do. However, while exploring the loss of an important segmentation gene from mosquito genomes, the Pick lab noticed that mosquito segmentation appeared to represent an intermediate, blending aspects of simultaneous and sequential segmentation. In their new work, published in JEZ-B, Alys Cheatle Jarvela, Catherine Trelstad, and Leslie Pick characterize this intermediate segmentation mode in the mosquito, Anopheles stephensi, and show that it is likely controlled by a progressive wave of developmental regulatory gene expression. These observations offer clues into understanding how different modes of segmentation evolve and have opened new lines of research into segment patterning in the Pick lab.
Karen Rane, director of the Plant Diagnostic Laboratory at the University of Maryland, quoted in Washington Post article on the decline of oaks in the DMV.
“The anaerobic conditions of flooded soil are not good for oaks,” said Rane, noting that many of the hard-hit oaks are next to highway construction, where there are changes in drainage and soil compaction. “They lose oxygen in the soil. That’s stress on older trees — or on any tree, but older ones can’t tolerate it the way younger trees can. That may have triggered an acceleration of decline in these older trees,” Rane said. “Once the trees weaken, trees emit signals that allow opportunistic insects to find them and attack. That’s the last straw that breaks the camel’s back.” Read full article here>> In spring of 2018 the Fritz Lab was asked to investigate a mosquito infestation on federal property in Southwest Washington, DC. So PhD student Arielle Arsenault-Benoit and Assistant Professor Megan Fritz headed off to the capital to scrounge around in dirty basements and look for mosquitoes. Could moderation of winter conditions make belowground urban structures a refugia for warmer-climate species, like Ae. aegypti and Cx. quinquefasciatus, allowing them to overcome assumed thermal barriers? To test their hypothesis they surveyed belowground levels of nearby parking structures for mosquitoes and standing water in the summer months of 2018 and 2019 and compared winter and spring temperatures above and belowground. Their findings, published in the Journal of the American Mosquito Control Association, found several species using these structures as adults, but only a few species (and ones that can transmit disease) use them as breeding and development sties. Belowground urban infrastructure may allow populations to persist for longer and build up earlier in the spring, plus warmer temperatures can shorten the development and generational time, extending the breeding season, increasing population size, and potentially affecting disease transmission. Given these results, the authors suggest pest control operators and local public health officials incorporate surveillance of these structures into their integrated pest management programs. This article also includes new records of Aedes aegypti populations beyond the Capitol Hill neighborhood in Washington DC.
written by: Demian Nunez and Mike Nan
On October 29th, the UMD Entomology Department’s weekly colloquium was unique. Rather than listen to a speaker from outside the department, Dr. Anahi Espindola presented the survey results of the Diversity, Equity, and Inclusion (DEI) Committee’s department survey. The survey was developed to assess the internal atmosphere in the department, identify positive experiences and actions happening, assess what negative features needed to be addressed, and define actions to be taken to improve the department for all its members. written by: Lasair ni Chochlain Case studies are one teaching tool that can be utilized to engage students, improve learning outcomes and inclusion in the classroom. Dr. Ally Hunter presented her work exploring the effectiveness of case study pedagogy at a Department of Entomology seminar earlier this semester. Dr. Hunter began this work in her doctoral dissertation, completed at University of Massachusetts – Amherst. Now a postdoctoral fellow at UMass Amherst, she utilizes case studies in her undergraduate science classrooms to promote inclusive pedagogy. The advantage in using case studies in scientific teaching is that the stories, with rich narratives, convey scientific content and concepts while also contributing to the maintenance of situational interest which facilitates undergraduate learning. Here, we dive deeper into the methodology of Dr. Hunter’s educational research, to illustrate how her findings can be applied in entomology classrooms and beyond. In 2020, Kriztina Christmon, PhD student vanEngelsdorp Lab, won AGNR's AgEnterprise Challenge. Now Kriztina serves as CEO of Repurpose Farm Plastic LLC, a company developing sustainable plastic recycling practices in the field of agriculture. The Office of International Affairs at UMD - Global Maryland features Kriztina's interests in agro-plastic recycling, her experience as a new CEO and the aims of the new business.
https://globalmaryland.umd.edu/offices/global/international-student%E2%80%99s-idea-repurpose-barns-becomes-agro-plastic-recycling-company
This news bites: Raupp and Arsenault-Benoit weigh in on what warmer weather means for mosquitos11/10/2021
We're not the only ones enjoying the warm weather this Fall, mosquitoes are too! Over the past several months Professor Emeritus Mike Raupp and PhD student Arielle Arsenault-Benoit have been fielding questions on when mosquito season is expected to end and whether or not climate change is a factor in mosquitos lingering longer than years past.
Raupp in the Diamondback: Entomology professor Michael Raupp explained that temperature increases the speed in which insects develop, grow, molt and capture their prey. In a warming world, winter is shorter, so mosquitoes become active earlier in the year and remain active later in the year. Arsenault-Benoit in the Washingtonian: This matters because mosquitoes “take a lot of their cues from the environment,” says Arielle Arsenault-Benoit, a Ph.D. student in the Department of Entomology at the University of Maryland, who has been collecting and conducting research on mosquitoes for three years. “The temperatures are not very cold for the [mosquito] adults to realize it’s getting to be winter,” Arsenault-Benoit says Raupp in The Washington Post: Raupp mentioned that the mosquito species Culex pipiens, common house mosquitoes that are well-known carriers of West Nile virus, can remain active all year. “Even on warm days in late autumn or winter in D.C., there could be blood,” Raupp said. “These devils live and breed year round in basements, parking garages, and tunnels under cities. They can bubble out and feed when it is warm enough.” Written by: Maria Cramer, Ebony Argaez and Graham Stewart As research entomologists, it’s easy to focus on one tiny area of study. In fact, this is a normal way to do research. So when Dr. Jessica Ware, the speaker for the University of Maryland’s entomology colloquium, talks about her research interests which cover many areas including dragonfly evolution and global migration, termites, and cockroaches, she is often asked why she chooses to study so many different things. Her answer is simple; it’s ok to study more than one group at once. It’s ok to let curiosity about the incredible diversity of insects drive your interests. [Seminar Blog] Reaching maturity? Malaria parasites’ developmental journey through the mosquito11/4/2021
Written by PhD students Arielle Arsenault-Benoit & Minh Le
Malaria is a mosquito-borne illness that has plagued human civilization for millennia (Cox 2010), and continues to infect many people, with over 200 million documented cases in 2019 (World Health Organization, 2020). Preventative interventions and treatments are available for those that can access them, yet according to the WHO, there are 400,000 annual deaths worldwide, and nearly 70% of those are children under 5 years old. Among those interventions are insecticide treated bed nets, residual insecticide spraying, preventative drugs, and treatment with combined drug therapy. Effective prevention and treatment efforts, plus advances in diagnostic testing, have greatly reduced both case numbers and mortality rates, but the development of resistance, including insecticide resistance in the mosquito vector population and drug resistance in the pathogen population present new challenges. A greater understanding of the underlying biology of the pathogen may allow for improved and more targeted interventions in the future. Homeowners, landscapers, and gardeners DYK protecting habitat for overwintering insects can be as simple as leaving leaves lie? Preliminary data from a study conducted by Max Ferlauto, PhD student in the Burghardt lab, shows the number of emerging moths and butterflies are reduced by about 67 percent in areas where leaves are removed. For more on Ferlauto’s project and steps you can take to support overwintering insects check out The Diamondback article.
Congrats on the coverage Max! Share with your networks on facebook and twitter. Professor Bill Lamp & colleagues part of multi-state team studying diverse perennial forage systems. Lamp says, “We want to test that growing diverse species of crops, and using perennial crops, will add more beneficial insects to the farm. We are especially interested in ‘conservation biological control,’ in which populations of natural enemies of pests are enhanced by diverse, perennial crops.” Full AGNR press release: https://agnr.umd.edu/news/entomology-and-extension-faculty-join-national-team-study-and-support-diverse-perennial-forage?fbclid=IwAR26bwOizAlo1wLYMflnzqnq3tMCMMY-V75XdUDOV3GwLQNJBSNy83FnZd4
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written by Angela Saenz & Alireza Shokoohi
Dr. Miguel Altieri is a Chilean agronomist and entomologist that has dedicated his life and career to agroecology. He is currently an emeritus professor from the University of California, Berkeley, where he teaches sustainable management practices to enhance biological control on farms. He is also a part-time farmer in the slopes of the Colombian Andes and the co-director of CELIA (Centro Latinoamericano de Investigaciones Agroecológicas), an organization focused on teaching, extension, and outreach for small farmers and research for food production through biodiverse systems. UMD Research Associate & Lecturer Magdalene Ngeve and her colleagues have a new publication out in Frontiers in Conservation Science that takes a closer look at Rhizophora propagules to better understand the dispersal and connectivity of mangroves. Their study shows drift Rhizophora propagules found on a beach area in Cameroon originated well beyond the Cameroonian borders, probably from the south and/or other Atlantic island, pointing to long distance dispersal of mangroves. The evidence of this transboundary dispersal of propagules highlights the need for intergovernmental efforts in mangrove biodiversity protection. Follow link to see publication: https://doi.org/10.3389/fcosc.2021.746461 & share with your networks via facebook and twitter The Entomological Society of America's Plant-Insect Ecosystems Lifetime Achievement Award in Entomology goes to Professor Emeritus Galen Dively. Awarded to Galen for his LEGENDARY career as an entomologist, his contributions to the advancement & promotion of the field, and for his inspiration and mentorship to others. Galen will be presented with this award along with an ESA Fellows award during the Annual ESA Meeting, October 31 - November 3 in Denver, CO. Please join us in congratulating Galen for another well-deserved honor!!!
ESA announcement released in August 21 P-IE newsletter.
Professor Emeritus Galen Dively has been elected as a Fellow of the Entomological Society of America in recognition of his outstanding contributions to entomology research, teaching and extension. Galen’s research is broadly focused and closely linked to his extension efforts to address IPM issues. Most recently, he developed and directs a multistate sweet corn sentinel monitoring network for tracking field-evolved resistance to the Bt toxins, which has influenced EPA to consider changes to the insect resistance monitoring protocol for Bt crops. Galen will be presented with this award during the Annual ESA Meeting, October 31 - November 3 in Denver, CO. Please join us in congratulating Galen on this well-deserved honor!!! For more on Galen’s efforts in entomology check out ESA's press release here>> |
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