- Author: Kathy Keatley Garvey
The Bohart Museum of Entomology at the University of California, Davis, is hosting a virtual open house dealing with alfalfa and rice.
Cooperative Extension agricultural specialist Ian Grettenberger, assistant professor, UC Davis Department of Entomology and Nematology, and his graduate student, Madison "Madi" Hendrick, will discuss the crops, the pests, and the natural enemies or beneficials at a virtual Facebook live session from 11 a.m. to noon, Thursday, Oct 22.
Yes, this applies to you. If you're a scientist or would-be scientist, you'll want to know more about these agricultural crops and the issues. If you're a consumer and like rice and ice cream (dairy cows eat alfalfa and milk comes from ice cream, you have a stake in this.
The event, "The Good and the Bad: Insects and Other Arthropods in Agriculture, with a Focus on California Rice and Alfalfa," will be live-streamed on the UC Davis Bohart Museum of Entomology's Facebook page. (Link to Facebook live here). Grettenberger and Hendrick will present short talks and then field questions. No personal Facebook account is required to join the session, which is free and open to the public.
"I will be discussing some of the insect (or arthropod) problems faced by growers of rice in California and some of the challenges in managing them, Grettenberger said. "In rice, some of the key arthropod pests are tadpole shrimp, which can turn what would have been a lush stand if rice into a poor stand with a lot of floating seedlings. Meanwhile, later in the year, armyworm caterpillars, the larvae of a moth, can chew on rice leaves and destroy plants. I'll discuss some of the ongoing work to better understand and manage these pests."
Grettenberg's fields of expertise include field and vegetable crops; integrated pest management; applied insect ecology, and biological control of pests. (See Spotlight on Ian Grettenberger.) Among his current grants:
- Protection of rice from invertebrate pests
- Insecticide resistant alfalfa weevils in the western United States: Quantifying the scope of resistance and implementing a plan to manage the threat​
- Management of key cotton arthropod pests with insecticides and acaricides, a proactive approach to prepare for the invasion of the tomato leafminer (Tuta absoluta) into California
- Detection, biology and control of the exotic Swede midge (Contarinia nasturtii) for California cole crops
- Management of the western spotted and striped cucumber beetle in melon production
- Biological control of the bagrada bug
- Insecticide resistance monitoring and evaluation of efficacy of current chemical tactics for managing aphids and thrips in lettuce
What sparked his interest in entomology? "I had biologist parents, and was drawn into entomology at a pretty young age," Grettenberger said. "I spent plenty of time looking in flowers and turning over logs looking for insects. Once I started thinking about going to graduate school for entomology, I decided to focus on the intersection of agricultural entomology and insect ecology. I wanted to work on applied issues in entomology."
Hendrick, a second-year graduate student in the Grettenberger lab, received her bachelor's degree in iInternational studies at North Carolina State University, and also spent a semester at Nagoya University in Japan (she minored in Japanese).
"I got my start in entomology completely by chance!," Hendrick related. "I needed a science credit and happened to pick a class called 'Insects and People.”' That class really helped me to reframe the way I thought about insects and appreciate what interesting little critters they are. Through that class, I was also able to get a job as an undergraduate assistant in an entomology lab. I worked in a specialty crops lab, where I developed interests in integrated pest management and invasive species. I now study insecticide resistance in the alfalfa weevil, and I'm excited to share what I've learned through this outreach event!"
Grettenberger, Yolo County Farm Advisor Rachael Freeman Long and Madi Hendrick recently wrote a piece in the UC Agricultural and Natural Resources (UC ANR) blog, Alfalfa and Forage News, "A (Virtual )Update on Worms, Weevils an Aphids in Alfalfa."
"This year, the Kearney Research and Extension Center Alfalfa and Forage Field Day went virtual," Grettenberger wrote. "Attendees did not get the chance to look out over lush fields of alfalfa or towering plantings of sorghum, but they get did an update on ongoing work in alfalfa and other forages. Our team put together a rapid-fire video to discuss what are typically the key insect pests in California alfalfa: summer worms, alfalfa weevils, and aphids."
The summer worms in alfalfa include the summer worms: Western yellowstriped armyworm, beet armyworm and alfalfa caterpillar. Another key pest is the alfalfa weevil. The trio also discussed aphids and their natural enemies, including lady beetles, aka ladybugs).
Pests of rice include armyworms, aster leafhoppers, crayfish, rice leafminers, rice seed midges, rice water weevils and tadpole shrimp.
The Bohart Museum, directed by Lynn Kimsey, UC Davis professor of entomology, is located in Room 1124 of the Academic Surge Building on Crocker Lane, UC Davis campus, but is temporarily closed. The museum houses nearly eight million insect specimens; a live "petting zoo" of Madagascar hissing cockroaches, walking sticks and taranatulas; and a gift shop stocked with insect-themed T-shirts, books, posters, jewelry, candy and insect-collecting equipment. (Gift items can now be shipped during the closure.)
More information on the Bohart Museum's virtual presentation is available on its website or by contacting Yang at tabyang@ucdavis.edu.
Resources:
- Alfalfa and Forage News: A (Virtual) Update on Worms, Weevils and Aphids in Alfalfa (By Ian Grettenberger, Rachael Freeman Long and Madi Hendrick, Sept. 20, 2020) (See video on same page)
- Alfalfa and Forage News: Natural Enemies Are Important for Control of the Aphid Complex in Alfalfa--A Case Study (By Ian Grettenberger, Rachael Freeman Long, Daniel Putnam and Rob Wilson, April 7, 2020)
- UC Statewide Integrated Pest Management Program: How to Manage Pests of Alfalfa
- UC Statewide Integrated Pest Management Program: Insects and Other Pests of Rice
- Author: Kathy Keatley Garvey
"Hey, Buckeye butterfly, you over there with chunks of a wing missing, yeah you, what happened?"
"Well, it was like this. I was just fluttering around, looking for some good nectar, and a predator grabbed me. I don't know what it was. Maybe it was a praying mantis. Maybe it was a bird or a spider. I don't know. It happened so fast. But anyhow, I lost a couple of eyespots. Yes, it got a piece of me. But it didn't get all of me. I'm still here!"
It's the eyespots--or the missing eyespots--you notice first about the Buckeye butterfly, Junonia coenia.
The eyespots are thought to offer some kind of protection from predators.
"Predators think the eyespot is an eye on the head of its prey," according to the Conservancy of Southwest Florida website. "If the predator attacks the eyespot, it might chew off part of the butterfly's wing, but the butterfly's vital organs escape damage."
Butterfly guru Art Shapiro, UC Davis distinguished professor of evolution and ecology, who has studied the butterfly populations of the Central Valley since 1972, writes about the Buckeye on his website, Art's Butterfly World:
"The Buckeye breeds on plants containing bitter iridoid glycosides, including plantains (Plantago, especially P. lanceolata), various Scrophulariaceae (especially Fluellin, Kickxia), and Lippia (Lippia or Phyla nodiflora). The spiny, black-and-white caterpillar has a bright orange head. Its behavior suggests its diet makes it virtually immune to vertebrate predation, but the pupa and adult are quite edible.
"Male Buckeyes are territorial perchers, usually on bare ground. Both sexes visit a great variety of flowers, from Heliotrope and Lippia to California Buckeye and Rabbitbrush! They often swarm over Coyotebrush (Baccharis) in autumn, especially the male plants.
And always, always, the Buckeyes need to keep an eye out for their predators.
- Author: Kathy Keatley Garvey
Rising from the Ashes--Some Day
People ask me all the time where butterflies go when it rains. Now they're asking me where they go when it burns.
In a word, to the Elysian fields. They have nowhere else to go!
The unprecedented wildfires have destroyed very important butterfly habitats in 2020, particularly in the High North Coast Range where a million acres – mostly in the Mendocino National Forest – have burned. We have been doing biogeographical survey of the butterfly faunas of this region beginning in 1974. Earlier fires largely removed the fir forest from the upper reaches of Snow Mountain (summit 7056'), leaving it covered in successional montane chaparral. But Goat Mountain (6112'), Hull Mountain (6831'), Anthony Peak (6958'), and Black Butte/Mendocino Pass (7455') still had many intact plant communities containing rare and relict species (many of which were isolated and far-removed from their core ranges in the Sierra Nevada and/or the Klamath Mountains). These included very rare wet meadows (as at Plaskett Meadows near Mendocino Pass) and treeless “balds” on rocky summits, usually facing southwest, producing a simulacrum of alpine fell-fields typically found several thousand feet higher.
We had documented roughly 115 species of butterflies in these places. Some, like the Nevada Arctic (Oeneis nevadensis) and the Arctic Skipper (Carterocephalus palaemon) were at their southernmost range limits, not just in the Coast Range, but globally. One butterfly new to science, the Bald Hills Satyr (Cercyonis incognita), was discovered at mid-elevation on Goat Mountain (100% of which burned) and in a few spots farther north. All of its known habitats may have burned—we won't know until we can get in, not before next year—and it is possible that it is extinct. In addition, we discovered that the widespread, familiar Pine White (Neophasia menapia) was apparently two sibling species on Goat Mountain and near Seven Troughs Spring in the Mendo Pass area, flying several weeks apart and with morphological differences. We did publish that one! All the known localities for the late-season entity have burned, too. This situation is of special interest because the idea that species could originate through temporal isolation has been discussed for many decades, but rarely if ever firmly documented. (The classic case, in field crickets, has been falsified by DNA analysis.) We have to be thankful that we got the data we did before the holocaust. Now, of course, the pressure is on to digest it.
Recovery of the butterfly faunas cannot occur until the vegetation resources they depend on come back—and they may never do so. Glacial relics, like the unique four-petaled Plaskett-Snow Basin race of the bog shooting-star Dodecatheon jeffreyi –personally, I think it deserves species status—may never come back. Nor many of the stranded alpine and edaphic (soil-specialist) species, because they are so far from any conceivable seed source. We have to hope they have persisted in the soil seed bank and may in time recover. Only then can the butterflies re-establish—if there are sources of potential colonizers. The farther any unburned sources and the weaker the dispersal capabilities of the butterflies, the longer the lag times to recolonization. Only the most vagile and broadly-adapted species are likely to recolonize a burned area of a million acres anytime in the next half-century or more.
The fires of 2020 were fed by the combination of 60 percent of recent mean precipitation in the 2019-2020 rainfall year and extraordinary evapotranspiration demand on the vegetation resulting from the hottest late summer on record. Yes, climate change is real. And our Coast Range butterfly faunas may never be the same again.
Resources:
- Sympatric, temporally isolated populations of the pine white butterfly Neophasia menapia, are morphologically and genetically differentiated, PLOS ONE, published May 31, 2007. Authors: Katherine L. Bell, Christopher A. Hamm, Arthur M. Shapiro and Chris C. Nice, https://doi.org/10.1371/journal.pone.0176989
- A New Species of Cercyonis (Lepidoptera: Satyridae) from Northern California, Bulletin of the Allyn Museum, Florida Museum of Natural History, published Sept. 5, 2012. Authors: John F. Emmel, Thomas C. Emmel and Sterling O. Mattoon
Contact: Art Shapiro at amshapiro@ucdavis.edu
- Author: Kathy Keatley Garvey
Will a praying mantis eat a caterpillar?
Short answer: Yes.
For several days, we've been watching a resident praying mantis, a female Mantis religiosa, hanging out in our patch of Passiflora (passionflower), the host plant of the Gulf Fritillary butterfly, Agraulis vanillae.
We grow Passiflora to attract these spectacular orange butterflies with the silver-spangled underwings. They sip nectar, court, mate and lay their eggs. The eggs hatch into hungry caterpillars and skeletonize our plants, which make us look like "bad gardeners" but the scenario makes for a "great butterfly habitat."
This year there's no "bad-gardener" look.
The caterpillars haven't skeletonized our plants.
Then we see Mrs. Religiosa. She does not look gravid, unlike the other mantids in our garden. She is string-bean thin. Praying mantis expert and UC Davis alumnus Lohit Garikipati figures she has already deposited her egg case, or ootheca, and she'll live another month or two.
Last year the Gulf Frits graced us with so many caterpillars that they were the zucchinis of the garden. Too many, too soon. We donated dozens of the 'cats to the Bohart Museum of Entomology, UC Davis, for its open house, and to youngsters engaged in science projects.
But this year, where are all the caterpillars?
In any pollinator garden, you must expect the pollinators, predators and the prey. Lady beetles and soldier beetles gobble up the butterfly eggs, while birds, spiders and wasps prey on the caterpillars.
We've never seen a praying mantis grab a caterpillar, though. Until now.
Oh, look! A butterfly ballet ever so graceful over the head of string-bean thin Mrs. Religiosa.
She ignores them. Then she spots a caterpillar. Easy catch, right?
Right.
Yes, a praying mantis will eat a caterpillar.
- Author: Kathy Keatley Garvey
So says global change ecologist Amanda Koltz, a senior scientist with the Department of Biology, Washington University, St. Louis, who will speak on "Species Interactions and Ecosystems in a Changing World" at the UC Davis Department of Entomology and Nematology's virtual seminar Wednesday, Oct. 14.
The Zoom seminar begins at 4:10 and ends at 5. Koltz will field questions from the audience.
"Biological communities and species interactions are changing rapidly as a result of global change," she says in her abstract. "These changes are likely to have cascading effects on ecosystems, but we still have limited understanding of the extent to which organismal responses to global change may also drive ecosystem responses to it. In this talk, I will present some of my work on the potential feedbacks between global change, communities, and ecosystem functioning from two different study systems. First, I will discuss how warming can alter the cascading effects of spiders in the Arctic tundra, and then I will discuss my recent efforts at characterizing the potential consequences of shifting interactions among ruminant hosts and their parasites. The common theme throughout the talk will be the importance of considering species interactions in efforts to understand ecosystem responses to global change."
Koltz describes herself as a "global change ecologist interested in how species interactions influence community composition and ecosystem function in the context of environmental change. I use common, widespread organisms that are sensitive to change-- like wolf spiders, mosquitoes and gut worms--to better understand how the animals in our everyday lives impact the ecosystems we live in. My recent work focuses on two fundamental questions: (1) How do biological communities respond to changes in the environment? and (2) What are the consequences of changes in species interactions for the cycling of energy and nutrients within ecosystems?"
Cooperative Extension specialist and agricultural entomologist Ian Grettenberger, assistant professor, UC Davis Department of Entomology and Nematology, coordinates the fall series of virtual seminars. They are held on Wednesdays at 4:10 p.m.
Host for the Koltz seminar is Emily Meineke, assistant professor of urban landscape entomology, who researches insect-plant interactions. The two met when they were working on their doctorates: Koltz was at Duke University and Meineke at North Carolina State University. Their interests overlap.
Grettenberger announced that this is the form to obtain the zoom link:
https://docs.google.com/forms/
Koltz's research has appeared in a number of recent publications:
- Small but Mighty: Measuring Parasites' Footprints
- Wolf Spiders May Turn to Cannibalism in a Warming Arctic
- Warming Alters Predator-Prey Interactions in the Arctic
- Bugged Out by Climate Change
- Higher Education Channel: Arctic Wolf Spider's Changing Diet May Help Keep Arctic Cool & Lessen Some Impact of Global Warming