- (Focus Area) Yard & Garden
- Author: Kathy Keatley Garvey
In images, text, and analogies.
“Just like in a honey bee colony, it takes a team to win an award," he said, and graciously proceeded to thank all those who made it possible. Family, friends, students, postdoctoral fellows, colleagues, staff and more. Or, as he said "work performed by the cast of thousands deserve the distinguished research award."
Leal, former professor and chair of the Department of Entomology (now the Department of Entomology and Nematology) joined the Department of Molecular and Cellular Biology faculty in 2013. He is first UC Davis faculty member to win Academic Senate's trifecta of coveted awards: Distinguished Teaching Award for Undergraduate Teaching (2020), Distinguished Scholarly Public Service Award (2022) and now, the Faculty Distinguished Research Award.
A week before the seminar, Leal was elected to the National Academy of Sciences.
“Dr. Leal is an internationally recognized entomologist and a world leader in his field for his groundbreaking and transformative research in insect olfaction and chemical ecology,” said UC Davis distinguished professor Bruce Hammock, who nominated Leal for the Faculty Distinguished Research Award.
Leal credits Hammock, a 25-year friend and colleague, as instrumental in “luring” him from his tenured position in the Ministry of Agriculture, Forestry, and Fisheries, Japan, to the Department of Entomology (now the Department of Entomology and Nematology) in 2000. A native of Brazil, Leal received his Ph.D. in applied biochemistry from the University of Tsukuba, Japan, with subsequent postdoctoral training in entomology and chemical ecology at the National Institute of Sericultural and Entomological Science and Cornell University, respectively.
In his letter of nomination, Hammock pointed out "I especially applaud him for elucidating the mode of action of the insect repellent DEET, developed in 1946 and known as ‘the gold standard of repellents.' Its mode of action remained an enigma for six decades until Walter's discovery. In researching the neurons in mosquito antennae sensitive to DEET, he isolated the first DEET-sensitive odorant receptor, paving the way for the development of better repellents.”
Leal's analogy of bees working together to succeed, just like what occurs in a successful lab, is spot on. The worker bees inside the hive perform specific duties: nurse maids, nannies, royal attendants, builders, architects, foragers, dancers, honey tenders, pollen packers, propolis or "glue" specialists, air conditioning and heating technicians, guards, and undertakers.
As an aside, Leal mentioned that one research project in his lab involved his daughter Helena, honey bees and her shampoo. “Helena always said the bees were bothering her and then when we collected the volatiles from her, we noticed that there was a contaminant, isoamyl acetate,” Leal told the crowd. “To make a long story short, isoamyl acetate is a chemical that elicits a very aggressive behavior. It's called a sting pheromone known from the early 1960s, and we figured out that that chemical was coming from a shampoo that she was using at that time--the so-called Aussie. So, she stopped using that shampoo and there was no problem with the bees anymore.”
Read more about his lecture here and watch his lecture at https://youtu.be/HkfhsYQE5bI.
- Author: Lauren Fordyce
Help increase public awareness of invasive species and encourage participation in the ongoing fight against invasive species by celebrating California Invasive Species Action Week (CISAW) June 1- 9, 2024.
Invasive species include non-native plants, animals, and pathogens that can negatively impact our waters, native ecosystems, agriculture, health, and economy. Every day this week, UC IPM will share information spotlighting a different invasive species, its impacts, and what you can do to help.
Keep an eye out for our upcoming blog posts and check out the resources below to learn more about invasive species:
- Read UC IPM's previous blog posts on invasive species.
- Buy firewood where you burn it. Moving firewood can transport many invasive pests to new areas. Visit the California Firewood Task Force for more information.
- Learn about pest quarantines in your area from the California Department of Food and Agriculture.
- Don't plant invasive species and when possible, try to plant California natives. Visit the PlantRight website for more information on plant selection.
- Report invasive species to your local County Agricultural Commissioner. Contact information for your location can be found at the California Department of Agriculture County/State Liaison page.
- Watch a webinar. June 3-7th UC ANR will be hosting lunchtime webinars to discuss various invasive species and the work being done to combat them. To learn more and register, visit the Invasive Species Lunchtime Talks website.
To learn more about events scheduled for California Invasive Species Action Week and to view more ways you can help, go to https://wildlife.ca.gov/Conservation/Invasives/Action-Week.
A beautiful tree sits on the north side of Little Chico Creek, shading the picnic table at site #34 in Lower Bidwell Park. Its thick, smooth lower branches are perfect for climbing, and its form is both rounder and more symmetrical than its relatives at higher elevations. And its occurrence at our low altitude (elevation 197 feet) is rare.
Captain George Vancouver of the British Royal Navy commanded a voyage of exploration and diplomacy from 1791 to 1795 which circumnavigated the globe and made contact with five continents. Madrone's species name honors the Scottish surgeon, botanist and naturalist, Archibald Menzies, who noted this tree during Vancouver's voyage of exploration. Menzies, who spent many years at sea serving with the Royal Navy and on private merchant ships, recognized its similarity to the European arbutus, A. unedo, which today is a popular landscape tree in Chico. Its red fruits are shaped like strawberries, and in fact the Spanish word madroño translates as “strawberry tree.” Other common names include madroa, madroo, madroña, and bearberry.
While all parts of the Pacific madrone are remarkable, its best-known characteristic is that it freely peels its outer bark. Once this skin-like outer layer is shed, the remaining bark is smooth and polished, with a distinctive reddish color. Young bark darkens to a deep red with age; younger stems can range from green to chartreuse, and young trunks are frequently orange. Older portions of the bark become a dark, brownish red. The deep color of the bark contrasts nicely with the tree's large, glossy, dark green foliage. In spring, sprays of small, bell-shaped white flowers adorn the branches, giving way to red berries in the autumn months.
The madrone has evolved an effective method of seed regeneration: each berry contains between three and 30 seeds, and when the berries dry they develop hooked barbs that can latch onto the fur and skin of passing mammals, hitching a ride to colonize new locations.
The Pacific madrone ranges in height from about 33 to 82 feet but can reach up to 100 feet or more in ideal conditions. In those perfect conditions, it can reach a thickness of 5 to 8 feet at the trunk, much like an oak tree. Ideal conditions include a sunny site such as a south or west facing slope with soil that is well drained and lime free.
The largest known specimen of Pacific madrone lived in Joshua Creek Canyon Ecological Reserve on the Big Sur Coast. At least 125 feet tall and more than 25 feet in circumference, and listed on the American Forests National Big Tree list, it sadly was severely burned in the 2016 Soberanes Fire.
Surviving Drought and Fire: At the base of its trunk, the Pacific madrone has a woody, globe-shaped, regenerative organ known as a burl. This structure is a peculiar adaptation to its forest habitat, which historically experienced regular burns at intervals averaging between 10 and 35 years. The Pacific madrone is susceptible to fire, but also relies on fire to regenerate. Its low resistance to fire is due to its thin bark. Conversely, repeated top-kill by fire encourages burl development, enhancing Pacific madrone survival - the burl serves as a source of stored carbohydrates for prolific postfire sprouts. These rise from dormant buds on the burl, and initially grow rapidly after a fire.
A massive, wide-spreading root system increases its ability to withstand summer drought. In fact, the tree prefers dry, well-draining soils and does not tolerate direct watering during the summer months. Once established, Pacific madrone is windfirm, drought enduring, and somewhat tolerant of wet, freezing conditions.
Native American Uses: The Concow tribe calls the tree dis-t?'-tsi or kou-wät′-chu. Native Americans sometimes ate the berries, but were more likely to make them into a type of cider, or chewed them to cleanse their mouths, since the berries' high tannin content makes them astringent. Madrone berries were used in necklaces and other decorations, and as bait for fishing. Tea made from the bark and leaves was used to treat stomach aches, cramps, skin ailments, and sore throats. The wood was used to make implements and it was particularly useful as firewood; its density and hardness ensures it burns long and hot -- even better than oak.
Pacific madrone is a particularly beautiful tree, with its reddish curved trunks supporting a broad, spreading crown of deep green leaves. It is most often seen as a single specimen tree displaying its finery among the more common Douglas fir and tanoak. It is currently declining throughout most of its range, unfortunately due to 100 years of forest fire control and urban development in its native habitat. We are lucky to have our lovely, rare specimen in Lower Bidwell Park.
UC Master Gardeners of Butte County are part of the University of California Cooperative Extension (UCCE) system. To learn more about us and our upcoming events, and for help with gardening in our area visit our website. If you have a gardening question or problem, email the Hotline at mgbutte@ucanr.edu or leave a phone message on our Hotline at 530-552-5812. To speak to a Master Gardener about a gardening issue, or to drop by the MG office during Hotline hours, see the most current information on our Ask Us section of our website.
- Author: Lauren Fordyce
- Contributor: Roger A Baldwin
In this blog article we answer some frequently asked questions about moles, voles, and gophers and their management.
How can I tell if I have moles, voles, gophers, or something else?
Moles: look for circular or volcano-shaped mounds with the plug in the middle, or a plug may not be apparent. The soil of mole mounds tends to be clumpier than gophers. Moles sometimes leave a raised ridge just beneath the soil surface while hunting for food.
Voles: look for aboveground runways that connect burrow openings. Grass usually covers the burrows. Voles can girdle trees aboveground while gophers girdle trees belowground.
Gophers: look for crescent or horse-shoe shaped mounds with a plug off to one side. Tunnels are 6-12 inches below ground.
Can gophers climb fences or into raised garden beds?
To some extent, yes. It is important to have an above-ground exclusionary device in place to keep them out of desired areas. Usually 12 inches of fencing is sufficient since they are not great climbers.
Should I use gopher baskets or underground fencing?
Gopher baskets can be used to protect individual plants. Underground fencing might be justified for valuable ornamental shrubs, landscape trees, or garden beds. Keep in mind metal wire will rust and disintegrate after several years to prevent plant roots from being strangled. Galvanized wire, and especially stainless-steel wire, will last much longer. Read more on gopher exclusion. For voles, wire fences or aluminum flashing around gardens can be effective. Learn more about vole exclusion. Installing a vertical underground barrier may provide temporary relief for moles. Read more about mole exclusion.
Should I treat the soil to remove insects or grubs to prevent moles, voles, and gophers from feeding?
Treating the soil with an insecticide would have no impact on gophers or voles because they feed on plant material, not insects. Doing so might reduce mole activity, but the effectiveness of this approach has not been proven.
What plants deter these pests?
Plants, including Euphorbia lathyrus, castor bean, Ricinus communis, and garlic have not proven through conducted research trials to be effective at protecting plantings from moles, voles, or gophers.
Are there any natural repellents that work?
Repellents containing castor oil have shown some repellency for moles in the eastern U.S., but their effectiveness against moles in CA is unknown. No other repellents have proven effective at protecting gardens or other plantings from moles, voles, or gophers. They are also not practical as you must apply them before damage occurs and some products may not be labeled for use on edible plants.
What traps are most effective?
The most effective trap is going to depend on which animal is present.
For gophers, 2-pronged pincer traps, such as the Macabee, Cinch, or Gophinator, can be used. Another popular type is the choker-style trap, such as the Gopherhawk. Learn more about gopher traps. For voles, a standard mouse trap can be effective. Learn how to place traps correctly. Harpoon, scissor-jaw, and pincer-style traps can be used for moles. Learn more about trapping moles.
Can I flood their burrow to kill them?
Flooding mole and vole burrows is ineffective at controlling them. For gophers, flooding can force them out of their burrows but you must kill them when they exit the burrow, otherwise they will return once it dries out. Since their burrows can be extensive and deep, flooding is usually just a waste of water.
What fumigants can I use?
Burrow fumigants with smoke or gas are not effective for moles, voles, or gophers.
The general public cannot use aluminum phosphide. This is a restricted use pesticide and often cannot be used in residential areas. You must have a pesticide applicator license to use it.
Pressurized exhaust machines and carbon dioxide injection devices are expensive and only practical for large infestations.
Are poison baits dangerous for nontarget wildlife and predators? How can they be used safely?
Toxic baits can harm nontarget wildlife, but since baits are placed inside burrows and the pest usually dies inside the burrow, predators and other wildlife are less likely to encounter the toxic bait and poisoned animals. Certain baits, known as first-generation anticoagulants (e.g., warfarin and chlorophacinone) generally require consumption over the course of several days to be effective–making them a potentially safer option. Always be sure to read the product label and make sure it will work against your specific pest, and be sure to understand the potential risks when using these toxicants. Note that not all products are legal for all 3 pests.
Will predatory birds, dogs, or cats control them?
Many predators including coyotes, foxes, badgers, weasels, cats, gulls, and especially hawks and owls eat voles and gophers. However, in most cases predators can't keep their populations below damaging levels. Installing barn owl boxes will likely not be enough to control these burrowing animals in urban settings either.
Do ultrasonic, sound-emitting, or vibrating devices work?
Electromagnetic or ultrasonic devices settings are ineffective against voles. Gophers and moles are not frightened by these devices.
How can you tell if a burrow or mound is active?
For moles and gophers, always look for the freshest activity as indicated by moist soil on the mound. The fresher the mound, the more likely the animal is still using the tunnel. For voles, look for fresh grass clippings and fecal pellets around burrow entrances and along runways.
How do I prevent moles, voles, and gophers from establishing?
Limit dense vegetation including weeds and heavy mulch that provide them protection. They are less common in non-vegetated areas.
How can you dispose of dead moles, voles, or gophers?
Bury them or place in a plastic bag in the trash. Never touch them with your bare hands as they can carry infectious pathogens and parasites.
To learn more about management of these pests, visit the Pest Notes fact sheets below:
Questions for this FAQ collected from the Moles, Voles, and Gophers webinar on May 16th, 2024.
For the third year the UCCE Stanislaus County Master Gardeners is presenting its popular A Lavender Experience Workshop. Participants will:
- Explore the history of lavender and its uses.
- Learn about different types of lavender and how to grow them.
- Learn to make a lavender wand* and a stem lavender basket* (NEW!).
- Snack on lavender flavored goodies like lavender lemonade, salad, and shortbread.
- Get recipes for food made from lavender and dried culinary lavender to make your own recipes.
- Take home some lavender soap and scrub made by our UC Master Gardeners. (NEW!)
- Get a lavender plant to put in your garden.
Where: location mailed to participants
When: Saturday, June 22 9:30 AM - 12:00 PM
Cost: $30
Note: 35 spaces available
Questions? (209) 525-6862
Sign up online: https://ucanr.edu/lavender/2024
Master Gardener Instructors: Heidi Aufdermaur, Doone Cockrell, Denise Godbout-Avant, Bonnie Jones-Lee, Karen Jorgensen, Connie Lundgren-Gardner, Sandy Mann, Stephanie Ranon, Janet Wickstrom
If you cannot afford to pay full price for this workshop, please contact Anne at (209) 525-6862 or aschellman@ucanr.edu for a partial scholarship (while supplies last).
*Lavender wands and baskets can be placed in clothes drawers or cabinets to release a fresh scent and may last for years. You can also keep your wand or basket near your desk and inhale its relaxing fragrance when needed. Baskets can be used to store dried flowers, potpourri, or small items.
The lavender field image is from Pixabay and was published prior to July 2017 under the Creative Commons CC0 1.0 Universal Public Domain Dedication license https://web.archive.org/web/20161229043156/https://pixabay.com/en/service/terms/
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