- Author: Kathy Keatley Garvey
"Walsh is known internationally for his research on the modes of action and resistance mechanisms of acaricides on spider mites and regionally in the Pacific Northwest for his extension and outreach efforts on specialty crops," ESA announced in a news release, citing that:
"Walsh has maintained a well-funded (more than $30 million) and productive program as the research director of the Environmental and Agricultural Entomology Laboratory located at the WSU Irrigated Agriculture Research and Extension Center in the Yakima Valley near Prosser, Washington. Walsh is the Extension integrated pest management (IPM) coordinator for Washington State and the Washington State liaison representative to the U.S. Department of Agriculture IR-4 Project."
"Walsh has an extensive and varied integrated pest and pollinator management research and Extension program assisting regionally important commodities including hops, alfalfa, grapes, and mint. Walsh also directs environmental impact studies on alfalfa leafcutting and alkali bees, the key pollinators of alfalfa produced for seed. Walsh's efforts in IPM have resulted in the documented reduction of over 100,000 pounds of insecticide use in the Pacific Northwest annually."
Born in New York in 1963 and a resident of California since 1969, Walsh holds a bachelor's degree in biology from UC Santa Cruz (1985). He received his doctorate in entomology from UC Davis in 1998, studying with major professor Frank Zalom, who went on to become a UC Davis distinguished professor and president and Honorary Member of ESA. "He is very deserving," Zalom said. "I couldn't be more proud of all that he has accomplished."
Said Walsh: "I was Frank's first PhD student. Frank had one before me, Rachid Hanna. Frank picked up Rachid when Rachid was orphaned when his original professor left UC Davis. Rachid and I quibble about who was Frank's first student. I'm the first that went from start to finish with Frank."
"(Professors) Sean Duffy and Harry Kaya were also on my PhD committee," Walsh said.
Kaya remembers Walsh well. "He was studying integrated pest management at UC Davis and was an outstanding graduate student in Frank Zalom's lab," Kaya said. "Even as a graduate student, he published some significant papers on IPM research, and I had no doubt that he would excel in research in his post graduate years. He has not only done superb IPM research but has been a leader in the Entomological Society of America as well as other national and international organizations. He richly deserves being elected as an ESA Fellow."
Walsh, Zalom and Dean Helene Dillard of the UC Davis College of Agricultural and Environmental Sciences, then Extension director at Cornell, spent three weeks together on a USDA-sponsored agricultural extension tour of China.
Walsh joined the WSU Department of Entomology as assistant professor in 1998 and advanced to associate professor in 2003 and to professor in 2007. The author of more than 200 publications, he annually delivers more than 35 Extension presentations. He has mentored 12 doctoral students and 11 master's degree students.
Walsh served as president of the Pacific Branch of ESA (PBESA) in 2010 and represented PBESA on the ESA governing board from 2013 through 2019. Among his ESA awards: Excellence in IPM Award and he led two teams that received the IPM Team Award.
Walsh's WSU awards include the Sahlin Award for Outreach and Engagement, the Excellence in Extension Award, the Team Interdisciplinary Award, and the Excellence in Integrated Research and Extension Award.
For his work in the hops industry, the International Hop Growers Bureau knighted him into of the Order of the Hop (Chevalier) in 2017.
A WSU news story (Sept. 7, 2023) related that Walsh has "worked primarily on pest control issues, mostly on hops, grape vines, mint, and alfalfa. One of his first successes at WSU in 2005 involved developing a novel method for controlling cutworms, which climb up from the soil in spring to nibble on grapevine buds."
Walsh initially set out to become a botanist. “I was working in a local Extension office in California after I got my bachelor's degree," he told the WSU writer Scott Weybright. "That work involved battling spider mites on strawberries. I kind of fell into entomology, but I love the work and the creative solutions we find to help growers."
Another reason he wanted to become an entomologist: job security. He told Weybright that there are five-to-ten entomology jobs for every botany job. “We as humans are very efficient at moving pests around,” Walsh added. “There is always going to be a new pest and a need for someone to figure out how to best fight it.”
His wife, Catherine (Kikie) is a senior software engineer with Altera Digital, a hospital software firm. The couple, married 35 years, raised three children, Claire, Russ, and Jeff, all WSU grads. Claire is the lifecycle marketing manager with Niantic Labs; Russ is working toward his master's degree in teaching at WSU Tri-Cities: and Jeff is a site reliability engineer at TikTok.
Others named 2023 ESA Fellows are:
- Cassandra Extavour, Harvard University
- James Hagler, U.S. Department of Agriculture-Agricultural Research Service
- Alvin M. Simmons, U.S. Department of Agriculture-Agricultural Research Service
- Lukasz Stelinski, University of Florida
- Edward L. Vargo, Texas A&M University
The six will be honored during Entomology 2023: Insects and Influence: Advancing Entomology's Impact on People and Policy, set Nov. 5-8, in National Harbor, Md.
ESA, founded in 1889, is a worldwide organization of more than 7000 members, who are affiliated with educational institutions, health agencies, private industry, and government. Members are researchers, teachers, extension service personnel, administrators, marketing representatives, research technicians, consultants, students, pest management professionals, and hobbyists.
Resources:
- A Career Battling Pests Leads to National Honor for Scientist (Sept. 7, 2023, Washington State University)
- WSU Showcase Award, YouTube, 2017
- ESA's 2023 Fellow Awards, Entomological Society of America.
- Author: Kathy Keatley Garvey
Her seminar, both in-person and virtual, begins at 4:10 p.m., Wednesday, Nov. 16 in 122 Briggs Hall. The Zoom link: https://ucdavis.zoom.us/j/95882849672.
Nematologist Shahid Siddique, assistant professor, UC Davis Department of Entomology and Nematology, is the host.
"Meloidogyne chitwoodi is a root-knot nematode often found in potato growing regions of Northwestern United States," Gleason says in her abstract. "It is a nematode that can infect both potato roots and tubers. In the case of tuber infections, it causes small pimple-like blemishes on the skin, giving the potato a rough, bumpy appearance. Unfortunately, there are no commercially available potato cultivars that are resistant to M. chitwoodi."
"The Gleason lab is undertaking several different lines of research to develop novel tools to combat these nematodes," she said. "For example, we characterize nematode effectors, which give us information about how the nematodes avoid or suppress the plant immune system. In addition, we are developing molecular markers to distinguish the different M. chitwoodi populations that differ in host range and virulence. On the plant side of the interaction, we are studying nematode resistance in potato, including resistance triggered by the potato defense elicitor called Pep1."
Gleason, who joined the WSU faculty in 2016, holds a doctorate in biochemistry and molecular biology from UC Davis (2003). She served as postdoctoral fellow, Disease and Stress Biology, John Innes Centre, Norwich UK (2003-2006), postdoctoral fellow, Plant Industry, CSIRO, Perth, Australia (2006-2010); and as junior professor in the Department of Plant Molecular Biology and Physiology, Georg-August-University Göttingen, Germany (2011-2016).
From her WSU website: "My research centers around plant parasitic nematodes and primarily focuses on root-knot nematodes and their interactions with host plants. These small roundworms are soil borne pathogens that can infect most vascular plants. The root infections cause damage that affects water and nutrient uptake, and this can lead to dramatically reduced crop yields. In order to develop new strategies to combat nematodes, my group studies root-knot nematode secretions that are released into the plant and manipulate host defenses and signaling pathways. One focus of study is on the root-knot nematode Meloidogyne chitwoodi, a serious pathogen of potatoes in the region. We are interested in identifying novel M. chitwoodi pathogenicity genes required for successful potato infection. We are also working to dissect the defense responses triggered during infection of nematode-resistant potatoes. My lab uses a variety of experimental approaches, such as gene expression analyses, generation and characterization of transgenic plants, and heterologous expression of nematode genes in bacteria, to increase our knowledge of the plant/nematode interaction at the molecular level."
Emily Meineke, assistant professor of urban landscape entomology, UC Davis Department of Entomology and Nematology, coordinates the department's seminars for the 2022-23 academic year. All 11 seminars will take place both person and virtually at 4:10 p.m. on Wednesdays in Room 122 of Briggs Hall except for the Nov. 9th and Dec. 7th seminars, which will be virtual only, she said. (See list of seminars)
For further information on the seminars or to resolve any technical difficulties with Zoom, contact Meineke at ekmeineke@ucdavis.edu.
- Author: Kathy Keatley Garvey
Her seminar, open to all interested persons, begins at 4:10 p.m., Pacific Time. The host is Emily Meineke, assistant professor of urban and landscape entomology.
The Zoom link:
https://ucdavis.zoom.us/j/99515291076
"Key to protecting biodiversity in an uncertain future is understanding how populations will respond to future environmental change and incorporating this information into conservation strategies," Henry says in her abstract. "In this talk I will focus on 1) how changing precipitation regimes affect the phenology and population dynamics of subtropical species 2) the need to maintain historic disturbance regimes to increase population resilience to catastrophic hurricanes and 3) the importance of careful assessment of whether conservation strategies are working as intended. My studies of endangered butterflies and their host plants highlight mechanisms that link species life history to climate change responses and provide a framework for developing conservation strategies that are rooted in basic ecology."
Her research topics include the Oregon silverspot butterfly (Speyeria zerene hippolyta), a threatened butterfly on the Oregon coast. She was featured in an Oregonlive.com news article, July 17, 2021.
"The silverspot once ranged from the Long Beach peninsula in southwest Washington to northern California," wrote Quenton Smith of Oregonlive.com. "But when it was first listed as endangered in 1980, its only known location were on two 'salt-spray' meadows overlooking the ocean near Rock Creek south of Yachats."
"Wild populations were subsequently discovered nearby at Brays Point, and on Mount Hebo, Cascade Head and the Clatsop Plains south of the Columbia River. Over the years the butterfly disappeared from the Clatsop Plains and Long Beach peninsula."
The Oregon silverspot once inhabited "suitable coastal habitat from northern California, through Oregon, into southern Washington," according to Wikipedia. 'It can now only be found in the wild at a few remaining sites in California and Oregon.] Conservation sites include Cascade Head and the Rock Creek Wilderness in Oregon. The butterfly can also be found at Mount Hebo and Clatsop Plains in Oregon and at Lake Earl in California."
On her website, Henry relates: "My research focuses on how rare species populations respond to environmental change – whether management or environmentally driven – and how to convert this knowledge into successful management strategies. To answer these questions, I use detailed natural history observations, local and landscape-scale experiments, and quantitative population models. In all of my work, I collaborate closely with land managers to answer questions that directly fill knowledge gaps that impede on the ground decision making. These collaborations allow me to directly translate my research results into improved conservation plans that increase the probability of successful endangered species recovery."
Henry obtained her doctorate in biology, ecology and evolution, from North Carolina State University, specializing in conservation and population biology. She wrote her dissertation on "Disturbance and Conservation of At-Risk Butterflies." She holds a master's degree in environmental science from WSU, where she specialized in conservation and restoration ecology. Her thesis: "A First Step Toward Successful Habitat Restoration and Reintroduction: Understanding Oviposiition Site Selection of an Imperiled Butterfly, Mardon Skipper." She is an alumnus of Willamette University, Salem, where she studied biology and Spanish.
"As my dissertation concluded, I secured funding from both the National Science Foundation and Everglades National Park to continue my research evaluating the interacting effects of multiple disturbances on population dynamics," Henry writes on her website. "In early 2021, as my previous funding was wrapping up, I was recruited back to Washington State University to lead a research effort that aims to evaluate the effectiveness of different management strategies for Oregon silverspot butterflies."
Nematologist Shahid Siddique, assistant professor, UC Davis Department of Entomology and Nematology, coordinates the weekly seminars. For any technical issues regarding the Zoom seminar, contact Siddique at siddique@ucdavis.edu.