- Author: Kathy Keatley Garvey
The Gulf Fritillary, Agraulis vanillae, is definitely back from a comeback, at least in the Sacramento, Davis and Vacaville-Fairfield areas.
In September of 2009, butterfly guru Art Shapiro, now a UC Davis distinguished professor emeritus, excitedly announced the re-appearance of the Gulf Fritillary butterfly in the Sacramento metropolitan area after a four-decade absence, and in the Davis area after a 30-year absence.
The showy butterfly colonized both south Sacramento and the Winding Way/Auburn Boulevard area in the 1960s but by 1971 "apparently became extinct or nearly so," recalled Shapiro, who has monitored the butterfly populations of central California since 1972 and maintains a research website at https://butterfly.ucdavis.edu.
It's a tropical and subtropical butterfly with a range that extends from the southern United States all the way to central Argentina.
No one knows exactly when the first Gulf Frit first arrived in California, but "it was already in the San Diego area by about 1875, Shapiro says, and it was first recorded in the San Francisco Bay Area around 1908.
A recent piece in The Acorn, published by the Effie Yeaw Nature Center, Carmichael, and authored by UC Davis entomologist Mary Louise Flint (see article), indicated the Gulf Fritillary is doing well in the area.
Good news!
- Author: Kathy Keatley Garvey
You'll learn which butterfly populations are struggling and which ones are doing well, and glean more information about the research of UC Davis distinguished professor emeritus Art Shapiro, and his collaborator, Professor Matt Forister of the University of Nevada, his former doctoral student.
Shapiro has been monitoring the butterfly populations of central California since 1972. His transect of ten fixed study sites sprawls from the Sacramento River Delta, through the Sacramento Valley and Sierra Nevada mountains, and to the high desert of the western Great Basin. The sites, Shapiro says, "represent the great biological, geological, and climatological diversity of central California."
The article is authored by entomologist Mary Louise Flint, a docent at the center and editor of the quarterly. She holds the title of professor of Cooperative Extension emerita, based in the UC Davis Department of Entomology and Nematology. She served as a longtime associate director of the UC Statewide Integrated Pest Management Program (UC IPM) until her retirement in June 2014. (See her biography on the UC IPM website).
"Over the last decade or two, scientists in many parts of the world have documented examples of declining insect num- bers—both in numbers of species (species richness) and in the number of individuals of each species (population levels)," Flint began. "Habitat loss, pesticide use, and climate change are usually identified as the main contributing factors, although circumstances vary among insect species and location."
"Three of Shapiro's sample sites," Flint pointed out, "are relatively close to our nature area—Rancho Cordova, near the American River across from Sacramento Bar, North Sacramento on the American River near California State University, and West Sacramento in the Yolo Bypass near the causeway. (The Rancho Cordova site is closest and most similar to Effie Yeaw in habitat.) A close study of the data collected at these sites between 1988 and 2010 showed that summer minimum temperatures and fall maximum temperatures increased significantly and precipitation decreased. During this time, species richness tended to decrease after years of high temperatures and reduced precipitation."
Among those on "the struggling list" are the monarch, Danaus plexippus; West Coast lady, Vanessa annabella; the great copper, Lycaena xanthoides; and the large marble, Euchloe ausonides. The large marble, "formerly common in the Central Valley, Delta, Bay Area and lower foothills...has suffered an unexplained crash and is teetering on the brink of regional extinction," according to Shapiro's website.
Those on the "doing well" list include the Gulf Fritillary, Agraulis vanillae; pipevine swallowtail, Battus philenor; fiery skipper, Hylephila phyleus; the Western tiger swallowtail, Papilio rutulus; and the gray hairstreak, Strymon melinus.
See Flint's article for more information, and access Shapiro's research research website, and Forister's research website.
A buckeye butterfly, Junonia coenia (image by yours truly) graces the cover. Numerous other butterfly images illustrate the piece.
Shapiro recently delivered a presentation, "Using Butterflies to Understand Biotic Responses to Climate Change," at the UC Davis emeriti celebration, organized and coordinated by UC Davis Distinguished Professor Walter Leal of the Department of Molecular and Cellular Biology. (See Shapiro's presentation on YouTube and coverage on Bug Squad blog.)
- Author: Kathy Keatley Garvey
It's about the size of a grain of rice but it's a killer.
That's the walnut twig beetle, Pityophthorus juglandis, which in association with a newly described fungus, Geosmithia morbida, causes thousand cankers disease, wreaking havoc on native black walnut trees.
Enter doctoral student Jackson Audley of the Steve Seybold lab, UC Department of Entomology and Nematology. He will present a seminar on "Protecting Trees from Bark Beetle Attacks Utilizing Semiochemical Repellents: A Case Study with the Walnut Twig Beetle” at a seminar from 4 to 5 p.m., today (Wednesday, Oct. 25) in Room 3001 of the Plant and Environmental Science Building.
The seminar is part of the UC Davis Forest Biology Research Center Seminar Series and his presentation is a preview of his thesis project.
"In this talk I will discuss the theoretical construct of semiochemical repellents for protecting trees from attack by bark beetles and demonstrate the process of developing a repellent tool with my work on the walnut twig beetle, Pityophthorus juglandis, the vector of thousand cankers disease in walnuts," Audley says in his abstract. "Bark beetles can constitute a significant threat to tree health and are a significant disturbance agent in forest ecosystems. Semiochemicals have been successfully utilized to protect individual to stands of susceptible trees from various bark beetle pests. Most of this work has been conducted in coniferophagous bark beetle systems. My work here at UC Davis has been focused on bringing those same techniques into studying an invasive, hardwood-attacking bark beetle system."
Audley received his bachelor's degree in wildlife biology and natural resource recreation and tourism in 2009 from the University of Georgia, and his master's degree in forestry in 2015 from the University of Tennessee. As a master's student, he did research on the walnut twig beetle, including treatment tests.
The walnut twig beetle is believed to be native to Arizona, California, New Mexico and Mexico. In 2006, plant pathologist Ned Tisserat and entomologist Whitney Cranshaw of Colorado State University identified the pathogen in declining black walnut trees in central Colorado. The disease has now spread throughout much of the United States.
"Often the first symptoms of thousand cankers disease (TCD) are flagging and yellowing leaves and branch dieback," says Seybold, one of the pioneering TCD researchers. He is a chemical ecologist with the USDA Forest Service, Pacific Southwest Research Station, Davis, and a lecturer/researcher with the UC Davis Department of Entomology and Nematology. "Affected branches show sap staining and pinhole-sized beetle holes. Beneath the surface are dark stains caused by the fungus."
"The fungus enters the tree through the feeding or reproductive activities of the beetle, and colonizes and kills the phloem and cambium of the branches and main stem," according to the UC Integrated Statewide Integrated Pest Management Program website, content that's the work of Steve Seybold and entomologist Mary Lou Flint, then associate director of of Urban and Community IPM, and now UC Extension entomologist emerita. The disease gets its name from the large number of dark cankers that rapidly develop on affected branches.
The UC Davis Forest Biology Research Seminars, which began Oct. 11, are held Wednesdays at 4 p.m. in Room 3001 of the Plant and Environmental Science Building.
The remaining schedule includes:
Nov. 1 – Alison Scott, postdoctoral student, UC Davis Department of Plant Sciences, “The Polyploid Origin and Evolutionary History of California Redwoods”
Nov. 15 – Brian Smithers, Ph.D student, Ecology Graduate Group, "Mechanisms of Range Shifts in Great Basin Sub‐Alpine Bristlecone Pine Forests."
Nov. 29 – Sarah Bisbing, assistant professor, Forest Ecosystem Science, Department of Natural Resources and Environmental Science, University of Nevada, Reno, "Looking Backward to See Forward: Causes and Consequences of Altered Disturbance and Climate on Western Conifer Forests.”
Dec. 6 ‐ Ryan Tompkins, Forest Silviculturist, U.S. Forest Service/Plumas National Forest, “Sierra Nevada Silviculture in the New World Order: Challenges, Uncertainties, and Opportunities”
For more information, contact David Neale at dbneale@ucdavis.edu.
- Author: Kathy Keatley Garvey
All is still not right in the bee world. And all is not right with science. Its future is troubling.
That's why it's so important to "March for Science" on Saturday, April 22. All eyes are focused on the national March for Science in Washington, D.C., and the satellite marches in solidarity.
We're glad to see that the 7000-member Entomological Society of America (ESA), a non-partisan scientific society founded in 1889, is taking an active role by naming its members "point persons" for the various marches.
At the Sacramento March for Science, UC Extension entomologist emerita Mary Lou Flint of the UC Davis Department of Entomology and Nematology, is ESA's point person. “It is a really important time to be supporting science and scientists in the United States," she said. "This march is nonpartisan and fully sponsored by the ESA.”
In Sacramento, participants will gather at 10 a.m. at Southside Park, 2115 6th St. for a pre-march program. At noon they will begin marching to the Capitol Mall, 1315 10th St. The post-march program will take place there from 1 to 4 p.m.
Flint, a UC Davis graduate who holds a doctorate in entomology from UC Berkeley, retired in June 2014 as an Extension entomologist and as a leader in the UC Statewide Integrated Pest Management (UC IPM) Program: she served as the associate director for Urban and Community IPM.
On April 22, she will be there with other scientists, out of their labs, and into the streets. And joining thousands of others, all marching for science.
The guiding principles of ESA "recognize that the discipline of entomology is global, that all of its members must be able to participate fully in the organization, and that entomologists must collaborate with government and the public to maximize the positive benefits insect science offers to the world," said ESA in a press release. "The stated goals and principles of the March for Science align closely with these strategic principles of ESA.”
ESA is the largest organization in the world serving the professional and scientific needs of entomologists and people in related disciplines. Its members 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, and hobbyists.
ESA has created a web page to share information on how members can participate in the March for Science in Washington, D.C., or at satellite events around the nation and the world. ESA is also planning a pre-March for Science webinar on April 19 at 2 p.m. (EDT). Speakers from ESA, Lewis-Burke Associates, and the American Association for the Advancement of Science (AAAS) will discuss the logistics of the March for Science, best practices for non-partisan advocacy on behalf of science, and advice for productively engaging with the media during and after the March.
In addition, ESA members and others can use an ESA template to print their own "Why I March for Science" sign. They are encouraged to take a selfie with it, and send it to pubs@entsoc.org. "Why I March" pictures will be shared on social media in the days leading up to the event.
The March for Science is not only intended to raise awareness, but to celebrate science and to support and safeguard the scientific community. The goals include advocating for open, inclusive, and accessible science, affirming scientific research as an essential part of a working democracy and, in general, supporting scientists.
As the Sacramento March for Science web page points out: "Recent policy changes have called science-based information into question. Science is not a partisan issue. Science is fact-based and provides objective results. It is time for people who support scientific research and evidence-based policies to take a public stand and be counted!"
"We come from all walks of life. We are of different races, religions, gender identities, sexual orientations, abilities, socioeconomic backgrounds, political perspectives, and nationalities - and we are united through our respect for science and our belief that it is crucial to the health and success of our society and our planet. Our diverse opinions, perspectives, and ideas are critical to the scientific process and are our greatest strength."
If you live in the Sacramento area, check out these related links, and then join the march to the state capitol:
Website: http://www.marchforsciencesacramento.com/
Instagram: https://www.instagram.com/marchforsciencesac/
Twitter: https://twitter.com/SacScienceMarch
Facebook: https://www.facebook.com/marchforsciencesacramento
- Author: Kathy Keatley Garvey
UC Davis entomology doctoral student Stacy Hishinuma has received and accepted a position in the USDA Pathways Internship Program with the Region 5 field office of the USDA Forest Service, San Bernardino.
Hishinuma studies the walnut twig beetle, Pityophthorus juglandis, which in association with a newly described fungus, Geosmithia morbida, causes thousand cankers disease (TCD) of walnut and butternut trees.
The walnut twig beetle is believed to be native to Arizona, California, New Mexico and Mexico. In 2006, plant pathologist Ned Tisserat and entomologist Whitney Cranshaw of Colorado State University identified the pathogen in declining black walnut trees in central Colorado. The disease has now spread east of the Mississippi to states in the heart of the valuable black walnut timberlands. Most recently it was reported from Indiana. Latest collection records show that the beetle and pathogen are now known from nine states in the western United States and seven states in the eastern USA. In 2013 the disease was also reported in Italy marking the first time that it occurred in Europe.
Hishinuma works with major professor Mary Louise Flint and is co-advised by chemical ecologist and forest entomologist Steve Seybold of the Pacific Southwest Research Station, USDA Forest Service, Davis, an affiliate of the department. Flint is an Extension specialist emeritus with the UC Davis Department of Entomology and Nematology and a former associate director with the UC Integrated Pest Management Program.
“USDA will provide some financial support during the end stages of her Ph.D. thesis, in exchange for 320-640 hours of work and training over the next 14 months,” said Seybold. Then, in June 2016 her position will be converted to that of a permanent entomologist with the USDA Forest Service office in San Bernardino after she has completed her thesis. She will be responsible for forest insect survey, detection, and management on four national forests in southern California ranging from San Diego to Monterey counties.
“The highly competitive internship and guaranteed position are a credit to her and her achievements,” Seybold said.
Seybold and Flint assisted her in developing the internship, as did Richard “Rick” Bostock, UC Davis professor of plant pathology.
Hishinuma won the 2013 Western Forest Insect Work Conference Memorial Scholarship for her research on TCD and presented her work at group's 65th annual conference, held March 31-April 3, 2014 in Sacramento. She also received two scholarships from the California Garden Clubs, Inc. (CGCI) and a McBeth Memorial Scholarship to support her research on TCD.
Seybold's research group has led the effort to characterize the disease in California and to develop a nationwide detection program for the beetle. They recently published two papers in the journal PLOS ONE that characterize the genetic diversity and invasion patterns of both the pathogenic fungus and the beetle in the United States. Scientists believe that TCD occurs only on walnut, butternut, and wingnut, but it is most damaging to native black walnuts, Juglans californica, J. hindsii, and J. nigra although the disease has been recorded on at least 10 species of walnuts or their hybrids in California. Often the first symptoms of TCD are flagging and yellowing leaves and branch dieback, Seybold said. Affected branches show sap staining and pinhole-sized beetle holes. Beneath the surface are dark stains caused by the funguhe news is startling, but not totally unexpected.