Sorry DMV residents, mosquitoes are predicted to follow us well into the fall season. University of Maryland Prof Emeritus Mike Raupp shares why with the Washington Post.
Quote: Because they’re coldblooded, insect development is very closely tied to ambient temperature, so the warmer it is, the faster they develop,” Raupp said. “Our mosquitoes can have multiple generations every year. So as we move into a warming world — because it gets warm earlier, it stays warm later and it’s generally hotter — we simply have more generations of these mosquitoes every single year. link to article: https://www.washingtonpost.com/dc-md-va/2022/09/25/mosquito-season-washington/ With a bit of help from UMD's Teaching and Learning Innovation Grant, Drs Lamp and Avanesyan show Freshwater Biology students how to use innovative tech to extract DNA from insects and ID species. Read more at MD Today article "From Bugs to Bronze Age, Nearly 300 Courses Get Creative Boost"
Congratulations to Dr. Margaret Palmer for being awarded Honorary Membership at the British Ecological Society. This award recognizes Margaret's exceptional contribution at the international level to the generation, communication and promotion of ecological knowledge and solutions. See BES's press release here>>
Earlier this month UMD Entomology faculty and students attended EntoQuest, a premiere summer event put on by the ESA’s Eastern Branch. Located in the beautiful mountains outside Front Royal, Virginia the meeting was designed to instill a sense of community, bringing together students, professors and professionals from all over. Events throughout the weekend provided chances to network, learn, explore, and collect with fellow insect enthusiasts. There were opportunities to gain knowledge about aquatic macroinvertebrates, forensic entomology, collection techniques and the pestering lantern fly. Experts shared their knowledge through laid back conversations and casual poster viewing. Amanda Rae Brucchieri, 1st yr grad student in Lamp lab said, “The first ever Eastern Branch Summer EntoQuest was a great way for attendees to enjoy the company and knowledge of others, wrapping up a summer full of data collection and running around perfectly.” See photo of Amanda and other UMD attendees below. & if you are interested in future Eastern Branch events, check out plans for the next meeting in Providence, Rhode Island. https://www.entsoc.org/membership/branches/eastern/meeting
The bold beautiful colors of a 1 inch long adult spotted lanternfly are pretty hard to miss. Their striking attributes allow for researchers to make many experimental observations about the insects, including discoveries about their feeding preferences as adults. However, at the earliest instars the spotted lanternflies are smaller and muted in color making feeding preferences much more difficult for researchers to track by observation alone. To overcome the difficulties of the observational approach, the Lamp Lab turns to DNA metabarcoding to get more insights about their diet. The results of their study were published earlier this summer in a special issue of Insects. Focusing exclusively on the first nymphal instars, the Lamp Lab used a novel approach, utilizing “bulk” DNA extracts for DNA metabarcoding of nymphal gut contents, to identify plants that the nymphs had ingested prior to being collected. Through this novel approach they were able to identify 13 novel host plants that have not been previously included in host plant lists for spotted lanternfly in the U.S. The Lamp Lab is hopeful that discoveries like these, on the diet of the spotted lanternfly across development stages, will lead to better management of this invasive species. Share your colleagues work with your networks on facebook, twitter, the car ride with your friends who are always asking you about bugs b/c you work in Entomology.
Metarhizium is a common fungus that is found in soil and widely used in insect pest control today. It is known for its ability to kill a wide range of insects, protect surrounding plants and provide plants with much sought after nitrogen. St. Leger Lab has a new paper out in Current Opinion in Microbiology that looks into the current research on this fungi and its–plant–insect interactions. Although experimentation has led to detailed knowledge of how this fungus interacts with plants and insects, most of these studies have focused on highly controlled interactions between single species in the lab, leading to a knowledge gap when it comes to understanding Metarhizium plant–insect interactions in natural communities. The authors hope an increase in Metarhizium studies on natural ecosystems will lead to a more comprehensive understanding of this fungi’s plant protection ability.
Before concluding a shout out is needed. Congrats to Huiyu Sheng, this is her 1st first-authored paper, and to Raymond St. Leger her proud UMD mentor. Please share news with friends, colleagues & that one fungi you met while at your last conference: facebook and twitte
In honor of #NationalPollinatorMonth the U.S. Department of Agriculture highlights the amazing work of an incredible person, Dr. Anahi Espindola, Asst Prof at the University of Maryland. Anahi shares details on current NIFA projects, provides sage advice to up and comers & promotes DEI. Read article her: https://go.umd.edu/cTJ Share news about your awesome colleague with your friends and fam on facebook and twitter and whatever other platforms you use. Hot humid weather with scattered storms make conditions ideal for mosquitoes in the DMV. The Bug Guy, Prof Emeritus Mike Raupp, gives NBC4 tips on how individuals and their communities can fight the bite: - eliminate breeding sites - apply personal protection - and use Gravid Aedes Trap https://www.nbcwashington.com/news/local/how-to-attack-those-pesky-mosquitoes/3068274/ writen by: Demian A. Nuñez and Darsy Smith
The end of the semester is here! For the last weekly seminar series, the Entomology Department welcomed Dr. Jason Rasgon to speak about his research and experience with new molecular tools for gene editing in arthropods. Dr. Rasgon completed his Ph.D. at the Entomology Department of the University of California, Davis. There he had the opportunity to conduct research on Wolbachia infection dynamics, a naturally occurring bacteria that lives within several insect taxa and is passed from one generation to the next through their eggs. Since early in his career, he has successfully answered research questions in various systems, which has given him the experience to lead projects across a wide range of biology-subdisciplines. Currently, he is a professor of Entomology and Disease Epidemiology at Pennsylvania State University, where he integrates population biology, ecology, molecular tools, and theory to answer both fundamental and applied questions in genetics. The main goal of Dr. Rasgon’s lab is the development of new methods that can be used to introduce transgenes into natural disease vector populations. Before you bug out for the summer, we invite you to look back at Spring 2022 with us. DYK, the Entomology minor graduated its first students at spring commencement? Or that Dr. O’Brien was awarded the OMSE Excellence in Service Award this spring? Or that, in May, alum William Gimpel talked to the WaPo about developing alpha-gal syndrome after an encounter with a Lonestar tick? These are just a few of the stories mentioned in the Spring 2022 newsletter. Content also includes news on publications, awards, defenses and much more. As weather warms lone star ticks are expanding their territory North. Mike Raupp explains in the New York Times more about the tick, including why its bite can lead to a red meat allergy called alpha-gal syndrome. & The Washington Post interviews alum William Gimpel about his experience after developing the syndrome.
Quote from Raupp in NYT: “What we’re now seeing is a wide-open door for ticks to continue expanding their range further northward” Quote from Gimpel in Post: "I developed hives, fainted, my blood pressure dropped, and I told my wife on the way to the ER that I could not see. That has been my most serious reaction." Read NY Times article here>> Read Washington Post article here>> The emerald ash borer (EAB) is a small and mesmerizing beauty and also one of the most destructive invasive species in the US. Since its introduction to the US in 2002 it has killed millions of ash trees causing serious economic and ecological damage. One approach for long term EAB management has been to introduce parasitic wasps from EAB’s native range to the US for biocontrol. A recent study by UMD and USDA researchers, Stokes Aker, Rafael de Andrade, Jian Duan and Dan Gruner – published this year in the Journal of Economic Entomology – takes a closer look at the performance of these wasps.
Their study suggests that Spathius galinae has a higher recovery and spatial spread compared to Spathius agrili, at least in Maryland. The authors would like to see continued monitoring and evaluation of both species to gain a better understanding of why one parasitoid appears to have gained a better foothold in Maryland than the other. Information like this is important to improve the efficacy of current biocontrol programs against EAB in North America. Before concluding a shout out is needed. Congrats to Stokes Aker this is his 1st first-authored paper, and to Dan Gruner his proud UMD mentor. This spring Dr. Hamby kicked off a new course BSCI487, “IPM: science-based decision making for sustainable pest management.” The course explores sustainable pest management in agroecosystems using the integrated pest management (IPM) paradigm. The class of 11 students met each Tuesday and Thursday for lecture, discussion, lab and the occasional field trip. Sankara Ganesh, an undergraduate Biological Sciences major specializing in Ecology and Evolution with a minor in Entomology and Sustainability, describes the course as the perfect overlap between his interests in biology and sustainability. The class taught him about the various consequences of pesticide overuse including risks to human health, environmental contamination, non-target effects on beneficial arthropods, and the development of pesticide resistance. Now that Sankara has taken the course he feels even more enthused about IPM, saying “The key to managing pests while minimizing consequences lies within IPM.” Sankara highly recommends the course, saying “It's the kind of course that students from any major can enjoy and succeed in as long as they make an effort to learn and participate. Also, Dr. Hamby is a very patient and understanding professor who treats all of her students with respect and kindness.” So, if you are interested in learning more about pest management, sustainable food production and the health of our planet, consider registering for BSCI487 when it is offered next. The course is acceptable toward Biological Specialization Areas: ECEV and GENB (Ecology, Behavior & Organismal category) and the Entomology minor. When Terps graduate this semester, some will be stepping off the stage with the Entomology minor on their diploma. The minor program is designed to provide students with a broad understanding of the form and function of insects, their interactions with people and society, and their role as model species for fundamental and applied research. After fulfilling the core course requirements in general and advanced entomology, minors take two to three electives that cover a wide variety of subjects including, advanced biology, pollination biology, plant sciences, and environmental sciences. Grace Soltis, a Biological Sciences: Ecology and Evolution Specialization student (soon to be alum!), was the first student to join the minor when it launched in 2021 and will be one of the first to graduate. She joined Dr. Dan Gruner’s lab in January of 2020. In 2021, Grace was awarded the Ernest N. Cory Undergraduate Scholarship for her extraordinary efforts in Entomology. In May we congratulated her once more, this time for successfully defending her entomology honors thesis, "Periodical cicadas emergence triggers dramatic shift in avian foraging,” a project that measured the impact of Brood X cicadas on the food webs of Maryland forests. It has been wonderful having Grace in the Entomology Minor and Honors Program. We wish her all the best in her next endeavor, a PhD program in Biology: Ecology and Evolution at Florida State University. Please join us in congratulating Dr. Karen Rane, Director of UMD’s Plant Diagnostic Lab, for being named recipient of the National Plant Diagnostic Network’s (NPDN) Lifetime Achievement Award. Quote from NPDN announcement: “Since the beginning, NPDN has benefited from Rane’s practical experience and advice, whether it was in developing training tools, setting priorities or mentoring new diagnosticians.” Read the networks full press release here: https://www.nifa.usda.gov/about-nifa/blogs/national-plant-diagnostic-network-recognizes-outstanding-service-lifetim written by: Mintong Nan and Lindsay Barranco Let’s face it. Graduate school can be a wonderful experience, but there are stressors aplenty - from financial worry to time management, coping with expectations of yourself and others, all in a field of scientific research - where the nature of the work involves a high degree of uncertainty and uncharted territory1, 2. These cumulative pressures can all lead to a great deal of stress for the graduate student, especially during the COVID-19 pandemic. Thankfully, skilled and caring professionals like Ms. Simone Warrick-Bell are there if needed. Ms. Warrick-Bell has been a graduate student academic counselor for the University of Maryland (UMD) Graduate School since early 2020, and prior to 2020 she was a care manager with the UMD counseling center. She holds a Master’s in Counseling Psychology and is a licensed Clinical Professional Counselor. Her works include individual consultation sessions and leading graduate student circle sessions, which were created solely to support UMD graduate students. The entomology department was happy to welcome Ms. Warrick-Bell to our Friday seminar series and to hear more about the services she provides through the Graduate School. written by: Ebony Argaez and Minh Le
The natural world is teeming with gorgeous and awe-inspiring biological structures, patterns, and colors that cannot be described via mere words alone. During the digital age, accurate and realistic imagery of these specimens can be obtained through the lens of a camera. However, the camera can only capture what is, not what could have been. Exquisite imagery requires the gentle and imaginative hand of an artist like Taina R. Litwak a scientific illustrator with the US Department of Agriculture’s Systematic Entomology Lab and the Smithsonian Institution’s Museum of Natural History who joins this week’s entomology colloquium at the University of Maryland to talk about entomological art in the digital age. written by: Eric Hartel
Combining different schools of thought or discipline can lead to more meaningful discovery and understanding. The work of Dr. Chris Hamilton addresses this by studying Aphonopelma, a group of tarantulas that are found in the incredible and unique biome of sky islands in the southwestern United States and Mexico. This group of tarantulas are important as a marker for understanding the region, and hold a place of cultural significance in the San Carlos Apache creation story. What is a sky island you ask? They are made of mountain ranges that are surrounded by desert valleys. These mountains create interesting temperature and humidity gradients that play host to various stratified environments. These environments are similar to ocean islands because the deserts take the role of the impassable ocean, isolating organisms to specific islands if they can not cross the desert. The tarantulas in this area have no way to cross the large deserts and are partitioned into their niches across this area. The speciation and diversity of these tarantulas can shed light on the geologic history, evolution, and current state of this understudied diversity hot spot. We are very pleased to announce that the winner of the CMNS Board of Visitors Junior Faculty Award is Entomology's Assistant Professor, Karin Burghardt! Karin’s work focuses on human-mediated impacts on plant and insect community interactions and populations. In addition to carrying out this research Karin is a highly engaged university citizen. She teaches undergraduate level courses, serves on a number of committees and shares her knowledge about sustainable practices with the general public.
Please join us in congratulating Karin on this well deserved recognition. & FYI, Karin will be presenting at Science on Tap Monday, May 2, so swing by her talk if you are able. A great opportunity to congratulate her in person and learn more about her work. Share on facebook https://www.facebook.com/UMDEntomology/posts/4903191633137278 Share on twitter https://twitter.com/UMDEntomology/status/1520070481621172227?s=20&t=I11G1GtSihGzgy_AIKzsiA [Seminar blog] The end of spray and pray? Alternative ways to control spotted wing drosophila4/25/2022
written by: Maria Cramer and Huiyu Sheng Spotted wing drosophila (SWD) is a pest that causes backyard berry growers and commercial farmers alike a lot of grief. Native to Eastern Asia, this fruit fly (closely related to the famous Drosophila melanogaster) first appeared in the mainland U.S. in 2008. Like other fruit flies, SWD lays eggs in fruit, but unlike others, it has a sharp ovipositor that allows it to cut through fruit skin and lay eggs inside (Figure 1). Because of this, SWD larvae aren’t restricted to rotting or damaged fruit– they can infest otherwise perfect produce. Their favorite fruits include raspberries, blackberries, grapes, and cherries. Besides the ick-factor, the wounds from cutting into fruit can introduce microorganisms that cause the fruit to rot. To make things worse, because they’re inside fruit, the larvae are protected from insecticide sprays (Figure 2). This means farmers have to instead target the adult flies, which requires frequent insecticide applications. Spraying insecticides over and over has many downsides; it’s expensive for farmers, it could hurt other insects, and it could even put pressure on SWD to develop resistance to the chemicals themselves, making them less effective. Dr. Torsten Schöneberg would love to see an end to this “spray and pray” approach for managing SWD. Currently a researcher at Agroscope in Switzerland, Dr. Schöneberg recently completed a postdoc in the Hamby Lab at the University of Maryland. He returned to the Entomology Department’s weekly seminar series to give an update on the research he did during this time. [Seminar Blog] Mitey talk: Dr. Zachary Lamas' exit seminar on honey bee's disease transmission4/19/2022
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