- Author: Pamela Kan-Rice
September is National Preparedness Month, designated to encourage disaster and emergency readiness. To help Californians prepare for extreme heat, earthquakes, public safety power shutoffs and wildfire, University of California Cooperative Extension has created a disaster preparedness website organized for quick access to critical information.
The website https://ucanr.edu/Disaster contains fact sheets with tips for getting prepared.
“Unfortunately, with a warming climate, we are facing more and more extreme climate-related events such as heat waves, wildfires, power shutoffs and storms. All Californians need to step up their preparedness efforts to be ready to meet this more uncertain future,” said Susan Kocher, UC Cooperative Extension forestry advisor, who co-authored the disaster preparedness resources for the website.
Extreme heat
The fact sheet for extreme heat events offers suggestions for avoiding heat exposure, such as identifying nearby cooling centers and covering windows to keep heat out. It also suggests things to do during hot weather such as staying hydrated, taking cool showers and keeping pets indoors. It describes symptoms of heat-related illnesses, which can have serious health effects.
Public Safety Power Shutoff
During extreme weather events, electrical power in high fire-threat areas may be shut off to prevent sparking. This precaution is known as a Public Safety Power Shutoff. A PSPS is most likely to occur from May to November, when conditions are the hottest and driest.
UC Cooperative Extension recommends signing up to receive PSPS alerts from your energy company. Experts also advise making a plan for medications that need to be refrigerated or medical devices that require power. To prevent foodborne illness, they offer suggestions for ensuring food safety during and after a power outage.
Wildfire and smoke
Wildfire smoke can harm your health. During wildfires, UC Cooperative Extension recommends wearing an N95 outdoors to reduce smoke exposure and taking steps to prevent smoke from entering buildings. To reduce wildfire risk, the website describes methods of removing flammable vegetation around homes.
Earthquakes
UC Cooperative Extension offers safety tips for before, during and after an earthquake. Identifying the safest place in your home during an earthquake in advance is helpful. For example, doorways are not the safest place to be in modern homes. Experts recommend crawling under a sturdy desk or table, while avoiding areas next to windows, beneath ceiling fixtures or near large items that may fall during an earthquake.
The website also offers resources on drought, food safety after a fire, and wildfire preparedness and recovery.
In 2020 and 2021, Cooperative Extension researchers from around the country held listening sessions with community members who had experienced extreme weather events and other types of disasters to learn what had worked well, what had not, and how communities could be strengthened.
In response, these disaster resources were developed by Kocher, UC Davis undergraduate student Caydee Schweitzer, Tracy Schohr, UC Cooperative Extension livestock and natural resource advisor, and Vikram Koundinya, UC Cooperative Extension evaluation specialist. The group plans to add fact sheets on more disaster topics in the future.
This project was funded by a USDA National Institute of Food and Agriculture Renewable Resources Extension Act grant.
MEDIA CONTACT: Susan Kocher, UC Cooperative Extension forestry advisor, sdkocher@ucanr.edu
/h3>/h3>/h3>/h3>Drought management experts from Israel and Australia will join U.S. scientists in California for a workshop in Modesto on Jan. 12 and 13. Growers, crop consultants, irrigation practitioners, state agency members and others are invited to participate.
The two-day event, “Proven Solutions to Drought Stress: Water Management Strategies for Perennial Crops with Limited and Impaired Water Supplies,” is designed to foster conversation on a variety of drought management aspects and strategies. The drought workshop will be held at the Modesto Centre Plaza at 1150 9th Street in Modesto.
“California, Israel and Australia have all faced recurring drought conditions of varying severity and duration,” said James Ayars, research agricultural engineer of USDA Agricultural Research Service in Parlier, Calif., who spearheaded the event to bring together this prestigious group of scientists. “In view of more frequent and more severe recurring droughts in the years to come, it makes sense for us to pool our knowledge and plan more strategically for the future.”
Other speakers include Shabtai Cohn, head of Israel's Agricultural Research Organization Soil, Water and Environmental Sciences Institute, John Hornbuckle, associate professor at Deakin University in Australia, and other researchers from Israel and Australia.
This workshop is sponsored by the USDA Agricultural Research Service, UC Agriculture and Natural Resources (UC ANR), UC California Institute for Water Resources and the Israel Ministry of Agriculture's Agricultural Research Organization.
“We hope to share expertise gained from experiences in our respective countries and learn new approaches for growing crops with limited water and poor quality water under the prospect of increased climate variability and change,” said Daniele Zaccaria, UC ANR Cooperative Extension specialist in agricultural water management in the Department of Land, Air and Water Resources at UC Davis and one of the event organizers. “Although Australia and Israel have very different climatic and socioeconomic conditions, there may be drought management strategies and policies that work in California that they can apply, and they may have practices and policies that we can adapt to address issues in California.”
Registration is $80 and includes lunch for both days. Dec. 18 is the deadline for early registration. After Dec. 18, registration is $120 until Jan. 1, 2016, and $150 after Jan. 1. There will be no on-site registration.
Certified crop advisers can earn continuing education units: Soil & Water Management 12.0 CEU and Crop Management 0.5 CEU.
To see the agenda and to register, please visit http://www.droughtmgt.com.
Lodging is available next to the Modesto Centre Plaza at the DoubleTree Hotel at 1150 9th Street in Modesto.
- Author: Sean Nealon, (951) 827-1287, sean.nealon@ucr.edu
Samantha Ying, an assistant professor of environmental sciences, will receive a $1.69 million grant from the University of California Office of the President that will allow her and her team to study the role of soil as it relates to how crops use water and respond to drought.
The grant is one of four awards totaling more than $4.8 million from University of California President Janet Napolitano's President's Research Catalyst Awards. The four winning projects were chosen from a pool of more than 180 proposals.
Ying will collaborate with researchers at UC Berkeley, UC Davis,UC Merced, Lawrence Berkeley National Lab and UC ANR research and extension centers.
California agriculture faces enormous challenges as climate changes and access to water is reduced and less predictable. California's recent drought is expected to cost the state over $2.7 billion with a loss of greater than 17,100 jobs in 2015 alone.
Soil, particularly soil carbon and its microbiome, plays a critical role in crop water use efficiency and crop response to drought. Physical, chemical and biological interactions in soil at the micrometer scale form soil aggregates that are critical in storing carbon and contain the small pores needed to retain moisture.
The grant will allow for the establishment of the University of California Consortium for Drought and Carbon Management (UC DroCaM), which will design management strategies based on understanding soil carbon, the soil microbiome and their impact on water dynamics in soil.
The team of researchers will conduct field and lab research on microbiological, biophysical, and geochemical mechanisms controlling soil aggregate formation and stability under different row crops (tomatoes, alfalfa, wheat), farming practices (carbon inputs and rotations) and irrigation methods (furrow and flood, microirrigation).
The field research will be conducted at Kearney Agricultural Research and Extension Center, West Side Research and Extension Center and Desert Research and Extension Center and the Russell Ranch Sustainable Agriculture Facility near UC Davis.
Ying's collaborators are: Kate Scow and Sanjai Parihk (UC Davis); Eoin Brodie and Margaret Torn (UC Berkeley); Asmeret Berhe and Teamrat Ghezzehei (UC Merced); and Peter Nico and William Riley (Lawrence Berkeley National Laboratory).
Napolitano launched the President's Research Catalyst Awards in December 2014. The program channels $10 million over three years to fund research in areas of strategic importance, such as sustainability and climate, equity and social justice, health care and basic discovery.
To qualify, projects must be multi-campus, multi-disciplinary efforts that offer research, teaching and learning opportunities for undergraduate and graduate students. This year, applicants were also asked to incorporate public engagement and faculty mentorship components into the projects.
To view press release visit: http://ucrtoday.ucr.edu/33686
UC Agriculture and Natural Resources researchers are working in the San Joaquin Valley with UC Berkeley and Department of Energy (DOE) scientists to examine the role of epigenetics in plant survival under drought conditions, an increasing concern for agriculture as the effects of climate change are felt in California and globally.
The five-year study is funded with a $12.3 million grant from the DOE.
Epigenetics is the study of trait variations caused by environmental factors that switch genes on and off. At the UC Kearney Agricultural Research and Extension Center in Parlier and the UC West Side Research and Extension Center in Five Points, sorghum nurseries will be grown under drought and well-watered conditions to compare the environmental impacts on the plants' gene expression.
“We hope to tease out the genetics of drought tolerance in sorghum,” said Jeff Dahlberg, a sorghum expert who will manage the trials at Kearney. “Using sorghum as a model, we expect this research to help us understand drought tolerance in other crops as well.”
Dahlberg is the director of the UC Kearney Research and Extension Center. The director of the UC West Side Research and Extension, Bob Hutmacher, will manage the sorghum nursery at that facility. Funds from the DOE grant will allow Dahlberg and Hutmacher to hire two research associates and purchase new research equipment, including a new planter, a plot combine, a forage chopper and specialized tools for measuring data.
Peggy Lemaux, UC ANR Cooperative Extension plant biology specialist based at UC Berkeley, is the overall leader of the project, titled Epigenetic Control of Drought Response in Sorghum or EPICON. Other collaborators are Devin Coleman-Derr, Elizabeth Purdom and John Taylor from UC Berkeley; Chia-Lin Wei from the DOE Joint Genome Institute; and Christer Jansson from the DOE Pacific Northwest National Laboratory.
Over the next three years, a variety of observable plant traits will be followed, such as plant height and grain yield. In addition, leaf and root samples will be taken to investigate responses to drought at the molecular level, including how gene expression changes and which proteins and metabolites are altered.
Researchers will also be tracking changes in the sorghum-associated microbial communities in the soil to determine whether they correlate with changes that directly contribute to the crop's drought tolerance. It is now well known that associations of specific bacteria and fungi with plants and animals have positive effects on host fitness. For example, microbes in both plants and humans are known to help fight disease and, in the soil, can help deliver nutrients and other resources to plants.
EPICON efforts will generate a variety of large datasets, which will be shared via an open, online platform that will include methods and results.
"Availability of this data in an open forum will enable comparative genomic studies by other scientists," said Coleman-Derr, a UC Berkeley adjunct assistant professor in plant and microbial biology. "Being able to analyze the large datasets in an integrated fashion will enable a more thorough understanding of the complex and interconnected processes responsible for sorghum's ability to respond positively to drought."
The researchers expect that the project will allow better predictions of how sorghum and other cereal crops are affected by future climate scenarios, and will lead to approaches to improve growth and production of sorghum and other crops under water-limiting conditions in commercial fields and on marginal lands.
The Energy Department's Genomic Science Program is funding this project through its Office of Biological and Environmental Research.
CONTACTS:
Jeff Dahlberg, jadahlbergt@ucanr.edu, (559) 646-6060
Bob Hutmacher, rbhutmacher@ucdavis.edu, (559) 884-2411, Ext. 206
Peggy Lemaux, lemauxpg@berkeley.edu, (510) 642-1589
- Author: Anne Schellman
The drought may be driving more invasions by annoying insects such as ants, but not necessarily for the reasons one might expect.
Many people are asking, “Why are there so many more pests this year than usual?”
People may just be seeing more pests, according to an urban integrated pest management (IPM) advisor with UC Division of Agriculture and Natural Resources.
“The overall abundance of pests probably hasn't changed and may even have decreased as compared to wet years,” said Andrew Sutherland, Ph.D., urban IPM advisor for the San Francisco Bay Area. “The real questions we should be asking are ‘Why are these pests appearing earlier in the year?' and ‘Why are the pests appearing all at once as opposed to throughout the year?'”
“This is also the first year we've seen dramatic changes made by residents due to mandated water-use restrictions,” Sutherland said. “Areas with frequent irrigation and lush landscapes aren't available this year so nuisance pests like outdoor cockroaches, ants and crickets are migrating from dry areas to seek moisture.”
This search may lead the thirsty pests to homes, garages or landscape that they haven't visited before. The IPM advisor used oriental cockroaches as an example.
“Oriental cockroaches are highly dependent on moisture and humidity and are not normally found indoors,” said Sutherland. “Outdoors, if you have an irrigation control box, leaky hosebib or water meter box, or a French drain system, that's where you'll find them. But if this water supply has been reduced or shut off, this population you didn't even know of – that may have existed for years – may crawl under doors or into foundation cracks and move indoors in search of water.”
To learn more about home, garden, turf and landscape pests and how to exclude them, visit the UC Integrated Pest Management website at http://www.ipm.ucanr.edu/PMG/menu.house.html. For more advice on pest problems, contact the UC Master Gardeners at a local UC Cooperative Extension office http://ucanr.edu/County_Offices.
Further reading
Cockroaches http://www.ipm.ucanr.edu/PMG/PESTNOTES/pn7467.html?src=blog18995
Ants http://www.ipm.ucanr.edu/PMG/invertebrates/links.ants.html?src=blog18995
Rodents http://www.ipm.ucanr.edu/PMG/menu.house.html#VERT?src=blog18995
UC Master Gardeners http://mg.ucanr.edu/Become_a_Master_Gardener/Counties/?src=blog18995
Excluding seasonal nuisance pests http://www.ipm.ucanr.edu/PDF/PUBS/greenbulletin.2012.feb.pdf?src=blog18995