- Author: Ben A Faber
Hot off the internet, a new edition of Topics in Subtropics, articles from UC subtropical horticulture folks
Topics in Subtropics Volume 25 Spring 2024
Jul 9, 2024
Fatemeh Khodadadi, Editor
Topics in this issue:
- Effectiveness of Asian citrus psyllid management in huanglongbing treatment zones in residential Southern California
- Managed honeybees in a wet year
- Threats to citrus orchards in California by synergistic effects of dry root rot and phytophthora root and crown rot
- Microbial Safety in Avocado Farms
- How Much Fruit is Up there?
- Tiny Troublemakers: How Geminiviruses are affecting California's Crops
- Citrus Leprosis Disease – Staying alert on potential threat to California's citrus industry
Download (3,620KB PDF)
https://ceventura.ucanr.edu/Com_Ag/Subtropical/
AND THERE"S LOTS MORE TO READ FROM THE ARCHIVES
https://ceventura.ucanr.edu/Com_Ag/Subtropical/?newsletterlist=3197
- Author: Whitney Brim-DeForest
- Author: Luis Espino
- Author: Roberta Firoved
- Editor: Taiyu Guan
- View More...
At our last meeting, we had some questions about the approved uses of pendimethalin in California rice. There are several products labeled for use on rice with pendimethalin as the active ingredient. As of June 2024, pendimethalin registered products (on rice) include Prowl H2O, Prowl 3.3, Harbinger, Satellite Hydrocap, Stealth, Helena Pendimethalin, Pavilion H2O, Pavilion 3.3, and a few others. Please make sure to always check the product label, as not all pendimethalin products allow use for the below-listed timings. Furthermore, labels are updated regularly, so it should not be assumed that the same use pattern applies from season to season. For the most currently-registered products, refer to the California Department of Pesticide Regulation website, product label databases, as well as manufacturers' websites for reference. Please remember the container label is the deciding point for pesticide use enforcement.
The mode of action of pendimethalin is disruption of mitosis (WSSA Resistance Group 3). In California rice, there is no other herbicide registered with this mode of action. The herbicide binds to clay soils, with residual activity of between 1 to 4 months, depending on environmental conditions. Pendimethalin can be readily absorbed by young roots, and thus, weeds are controlled as they germinate. Damage can also occur to rice or other crops as they germinate. Weeds are not controlled by this product once emerged and established.
Labeled controlled weeds are: junglerice, barnyardgrass, and sprangletop. Barnyardgrass and sprangletop are the two most abundant grass weeds in dry- or drill-seeded California rice, also causing the most yield loss. Rotating with pendimethalin can help to manage herbicide-resistance biotypes, as well as preventing the selection of herbicide resistance in these species.
Pendimethalin Rice Timings (product-dependent):
Preflood, preemergence: In drill- or dry-seeded rice, pendimethalin can be applied to the soil surface AFTER rice has been dry-seeded and lightly incorporated or drill-seeded. The product should be tank-mixed with a safener adjuvant. Water should be flushed across the field AFTER herbicide application (within 7 days).
Delayed preemergence: NOT a currently labeled use for any pendimethalin product registered in California.
Early postemergence: Only for dry-seeded rice and into fields with no standing water. Pendimethalin is usually applied with a tank-mix partner. Timing should be based on the leaf stage of the rice or weeds as appropriate for the tank-mix partner. Field should be flooded or flushed within 7 days after application.
Postemergence: For water-seeded rice (California ONLY) between the 4-6 leaf stage. Field must be completely drained with no standing water at time of the pendimethalin application and should be reflooded within 7 days after application.
- Author: Kathy Keatley Garvey
When you venture into your pollinator garden, look for the beauty, color, diversity and the intensity that surrounds you. You will be astounded.
- A honey bee nectaring on lavender in a soft-pastel scenario.
- A katydid nymph crawling (backlit) on a blanketflower, Gaillardia.
- A Gulf Fritillary butterfly, Agraulis vanillae, nectaring on Lantana
- A praying mantis, Stagmomantis limbata, perched on a Cosmo
- A yellow-faced bumble bee, Bombus vosnesenskii, exiting a lavender patch.
You're the gardener, and you'll be using your garden tools...pruning shears, spade, trowel, garden fork, hoe, hand rake...
But another good garden tool--and an indispensable one--is the camera. You just never know when a buddy shows up in the garden...
- Author: Ria DeBiase, UC Giannini Foundation
How policies affect emissions, land use, and the prices of fuel and vegetable oils
Over the last two decades, both the federal government and state governments have enacted policies to reduce greenhouse gas (GHG) emissions in the transportation sector. In a new Special Issue of ARE Update, University of California agricultural economists explore how these federal and state renewable fuel policies have affected biofuel production for motor and aviation fuels and consider how these policies have affected land use and food prices. Their research shows that as U.S. demand for renewable diesel began to outpace supply, consumer prices for vegetable oil—which is used as a feedstock for renewable diesel—surged.
The national Renewable Fuel Standard (RFS) and California's Low Carbon Fuel Standard (LCFS), implemented in 2006 and 2011, respectively, have led to an increase in the amount of biofuels consumed and produced in the United States. While the RFS mandates that a minimum volume of renewable fuels be blended into U.S. transportation fuels, the LCFS sets an annually increasing targeted reduction in transportation-related carbon emissions. The LCFS set a 2030 target date to reduce GHG emissions by 20% through the development of a carbon trading program that requires refiners who produce ‘dirtier' fuels to buy credits from those who produce cleaner (e.g., renewable) fuels.
The authors show that after 2020, when LCFS credit prices (i.e., biofuel subsidies) were high, California saw an increasing volume of motor fuel coming from renewable diesel — which previously only made up around 5% of the state's diesel blend. Currently, the retail diesel blend in California is 35% conventional diesel and 65% renewable diesel. By 2023, renewable diesel — which, unlike biodiesel, is a perfect substitute for conventional diesel — was the most consumed renewable fuel in California and also generated the most credits under the LCFS.
The agricultural inputs used to make renewable diesel can be used not only in the production of motor oil, but also in the development of sustainable aviation fuel (SAF). Additional tax credits set forth in the 2021 Inflation Reduction Act aim to bring about a 100-fold increase in the production of these fuels by by the end of decade. However, the authors of the second article show that current incentives to produce SAFs are not large enough to overcome the opportunity cost of instead using these fuels for on-road use.
After the drastic increase in demand for renewable diesel (up 500% over the last five years), a higher percentage now comes from edible vegetable oils. This increased demand almost certainly plays a role in increasing inflationary pressure on foods such as cooking oils.
“From 2018 to 2024, food-at-home inflation was 24%, but over the same period, fats and oils inflation was 83%,” said UC Davis professor and co-author Jens Hilscher.
The increased demand for these oils from the United States has also led to booms in production in countries such as Brazil and Indonesia, and some of the land conversion into these vegetable oil crops could result in deforestation. Greenhouse gas emissions are a global challenge. The authors show that local biofuel mandates often succeed in moving U.S. consumption of these fuels from one product or region to another without necessarily decreasing emissions at the national level. Their research emphasizes the importance of a coordinated effort to target emission reductions with a careful eye to the indirect consequences that inevitably result from ambitious policies.
To learn more about how federal and statewide renewable fuel policies have affected the demand for biofuels, read the full Special Issue of ARE Update 27(5), UC Giannini Foundation of Agricultural Economics, online at https://giannini.ucop.edu/filer/file/1719507310/21010/.
ARE Update is a bimonthly magazine published by the Giannini Foundation of Agricultural Economics to educate policymakers and agribusiness professionals about new research or analysis of important topics in agricultural and resource economics. Articles are written by Giannini Foundation members, including University of California faculty and Cooperative Extension specialists in agricultural and resource economics, and university graduate students. Learn more about the Giannini Foundation and its publications at https://giannini.ucop.edu.
/h3>- Author: Kathy Keatley Garvey
If you attend the Bohart Museum of Entomology's annual Moth Night celebration, affiliated with National Moth Week, you'll meet John De Benedictis, better known as “The Moth Man.”
The indoor-outdoor event, free and open to the public, is set from 7 to 11 p.m., Saturday, July 20 in Room 1124 of the Academic Surge Building, 455 Crocker Lane.
De Benedictis and his colleagues annually set up a blacklighting display, using UV lighting to attract moths and other night-flying insects. He has blacklighted for 37 years.
His moth collection of some 600 species from the Stebbins Cold Canyon Reserve and 300 species from his backyard in Davis is housed in the Bohart Museum.
"Jerry Powell (the late UC Berkeley professor and director of the Essig Museum of Entomology) once estimated that there are about 17,000 North American butterflies and moths," De Benedictus commented. "I would not be surprised if it's closer to 20,000."
'Expertise in Moth Identification Is Invaluable'
"John has been great volunteer and supporter of the Bohart Museum," said UC Davis distinguished emerita professor Lynn Kimsey, former director of the Bohart Museum. "His expertise in moth identification is invaluable and now that Jerry Powell is gone, there's really no one else who can identify moths, particularly little brown moths (LBMs) of California."
De Benedictis, a research associate at the Bohart Museum, is closely linked to UC Berkeley, his alma mater, and UC Davis, where he retired. He holds a bachelor's degree in biology, with an emphasis in entomology (1979), and a master's degree in entomology (1998) from UC Berkeley. "Jerry was my major professor and also recruited me as an undergraduate to work in his lab."
A UC Davis retiree since 2001, De Benedictis worked as a staff research assistant from 1995 to 2001 in the laboratory of medical entomologist Tom Scott, UC Davis Department of Entomology and Nematology.
"I came to Davis in 1989 for a two-month job to key out aphids for Beth Grafton-Cardwell, who at that time was a postdoc of (Professor) Jeffrey Granett. During that time, the rootstock that was being used to protect wine grapevines from grape phylloxera began to fail in Napa and Sonoma counties, so I was able to prolong my stay at Davis through a series of grants to address that problem. While working for Beth and Jeffrey, I got a mini-grant from the former Institute of Ecology to study moths at the Stebbins Cold Canyon Reserve where I collected from 1989 until the last major fire in 2020."
“I began a similar inventory of the species in my backyard after I purchased my home in 1998," De Benedictis said. "It continues to this day, and a synoptic collection of the 300 or so species that I've collected in my yard is housed alongside the Cold Canyon collection in the Bohart Museum.” Grace Horne of the lab of urban landscape entomologist Emily Meineke, Department of Entomology and Nematology, is analyzing the data from these studies as part of her doctoral research.
When Children Were 'Free-Range'
John traces his interest in entomology to his childhood. Born in Oakland in 1945, the second of six children on Aldo and Eleanor De Benedictis, he grew up in Berkeley.
“I am grateful that I had parents who not merely tolerated but encouraged our activities and to have grown up in an era when chickens were confined and children were free-range rather than the reverse as is the case today.”
“I attended Berkeley public schools and later UC Berkeley, except for my last year of junior high school which was in Mt. Vernon, N. Y., while my dad was temporarily transferred,” De Benedictis said. “My older brother Paul was keenly interested in natural history, which switched from subject to subject whenever a new Golden Nature Guide came out. We spent much of our free time poking around in the East Bay Regional Parks and in Strawberry Canyon behind Berkeley's Central Campus.” (Paul went on to obtain a doctorate in ecology in Michigan.)
While in the fourth grade, John began “collecting butterflies, a few flashy moths, and other insects with my older brother and a couple of classmates. A highlight of my youth was the return trip from New York by car where we chased butterflies that we never saw in New York or in California as often as we could complain long and loud enough to make my dad stop the station wagon.”
When John was attending junior high in the late 1950s, he found a Polyphemus moth under a streetlight on the UC Berkeley campus. “It was a highly prized find. At UC Berkeley, we collected on spring field trips with the systematics professors and students and we---whoever was participating--ran lights on during our spruce budworm field trips. I ran a sheet a few times on San Bruno Mountain on my own and was surprised to find that very few of the moths that I had reared from caterpillars flew to my light. While in grad school and afterwards, I went on a few of Jerry Powell's trips to the California Channel Islands to assist him in his inventory of the islands' Lepidoptera species. There we ran lights and set out light traps when it wasn't too cold and windy.”
Species Named for Him
De Benedictis recalled that he and Dave Wagner, now a professor at the University of Connecticut, started graduate studies with Powell at UC Berkeley at the same time. "Jerry had a long-term project studying larval host plants of caterpillars, and Dave and I were among the succession of students who took care of his larval rearing lots on the Berkeley campus. Dave went on to become the current authority on the caterpillars of large moths. I was more interested in smaller moths and prolonged my graduate years by collecting caterpillars on San Bruno Mountain by the San Francisco Airport.” There De Benedictis discovered a handful of new species, one of which Powell named Gnorimoschema debenedictisi.
“The Mid-Winter Gathering is a legacy of Jerry Powell,” said De Benedictus, who spent more time in the field with Powell than any other UC Berkeley graduate student. "I was privileged to be Jerry's student and lucky to have him become my friend."I
In a tribute to Powell, the Essig Museum wrote: "Jerry's rearing program was the most extensive in the history of the study of New World Microlepidoptera. For over 50 years he and his students processed more than 15,000 collections of larval or live adult Lepidoptera. Resulting data encompass more than 1,000 species of moths, through rearing either field-collected larvae or those emerging from eggs deposited by females in confinement. This total includes more than 60% of an estimated 1,500 species of Microlepidoptera occurring in California."
Powell and Paul Opler, two Lepidoptera legends, co-authored Moths of Western North America.