- Author: Mark Lundy
<< Re-posted from UC Small Grains Blog >>
We need your help to better understand the current status of small grain production in California and how to focus our research and extension efforts moving forward.
If you are involved in the California grain industry, we would appreciate your participation in the survey at this link:
https://www.surveymonkey.com/r/UC_SmallgrainsSurvey
The survey is designed to take less than 10 minutes. We would also greatly appreciate your sharing the survey link or a link to this blog post with pertinent individuals in your networks.
Thanks, in advance, for your participation!
- Author: Athena Chiladakis
Hello! My name is Athena Chiladakis and I am UCANR-IREC's newest employee.
I started on January 30th as the new Administrative Assistant. Laurie Askew, who is now the IREC Office Manager, previously held this position.
I moved to Tulelake three years ago from the Bay Area to raise my family and Morgan horses. While in the Bay Area, I worked within the Pharmaceutical and Biotechnology industry in Toxicology, Quality Assurance and Regulatory Affairs. My most recent position was at Bayer Healthcare in Berkeley, California where I worked for 9 years as Associate Director of Regulatory Operations Global Submission Management and Archiving.
I have a UC education (a Bachelor degree in in Animal Science from UC Davis, and a Bachelor degree in English Literature from UC Berkeley).
Here at IREC, as an Administrative Assistant II I'll be helping with administrative and research functions. I'll also be the one sending announcements, blog posts and updating the website, so keep an eye out for my emails. I look forward to working with you and feel free to stop by the front desk to say hi.
/span>- Author: Rob Wilson
- Author: Steve Orloff
- Editor: Laurie Askew
The last couple of weeks we've received several reports from PCA's and wheat growers that many winter wheat, spring wheat, and barley fields have stripe rust. The widespread occurrence of stripe rust this early in the growing season is unusual for the Klamath Basin. The cool weather predicted for the next couple of weeks favors disease development and spread. Warm, dry weather on the other hand, is not favorable for stripe rust development. The Klamath Basin's warm, dry climate is a major reason stripe rust rarely causes significant yield loss in the Klamath Basin compared with other areas such as the Central Valley (where spring grains are grown over the winter) and the Willamette Valley. If Klamath Basin weather turns hot and dry in late June and July, stripe rust development will slow significantly. Unfortunately, conditions up to today suggest spring grain fields in the Klamath Basin may experience abnormally high stripe rust pressure this year.
In previous years with cool, wet springs, Klamath Basin growers and handlers reported yield losses in the neighborhood of 10% to 20%. In the Willamette Valley and other parts of California, stripe rust is more of a perennial problem and yield losses can exceed 20-40%. While we have not seen this level of yield loss in our area, it is within the realm of possibilities should the weather remain cool.
A common question asked by growers is whether fungicide treatment is recommended. This is a difficult question to answer. It depends on the wheat variety being grown, wheat prices, and future weather conditions. Many wheat breeders have developed varieties with stripe rust resistance. Wheat varieties with high stripe rust resistance will likely escape significant yield loss without fungicide application. Susceptible varieties like Tubbs or Yecora rojo will likely need a fungicide treatment to prevent yield loss. The economics of fungicides for stripe rust are dependent on fungicide choice and grain prices, but fungicide treatment will likely pay for itself and put more money in the growers pocket when stripe rust is widespread and susceptible varieties are grown under cool, wet weather conditions. Mike Flowers, Oregon State University Cereals Specialist, recently sent an email showing 2016 stripe rust severity ratings for many wheat varieties grown in the Willamette Valley. Mike's ratings and other publications are a great resource to review when selecting wheat varieties and when trying to determine a variety's susceptibility to stripe rust. Growers that plant Yecora rojo may want to consider planting a different hard red spring wheat variety next year. Recent IREC grain trials have shown newer varieties have higher yield potential, similar protein values, and often higher stripe rust resistance compared to Yecora rojo.
Foliar fungicides can effectively control stripe rust and protect wheat fields from significant yield loss. There hasn't been recent fungicide research on stripe rust in the Klamath Basin, but recommendations from other areas suggest fungicides should be applied when stripe rust symptoms are found in the field or the severity may become too severe for effective control. Fungicides are most effective when applied before stripe rust is severe. It is very important for fungicides to protect the flag leaf and upper leaves as these leaves contribute resources for grain fill. Products belonging to the strobilurin class of fungicides (Headline, Quadris) provide good activity against stripe rust but are most effective when applied before infection. If stripe rust is already present in the field at the time of fungicide application, many universities recommend use of a fungicide belonging to the triazole class of fungicides (Prosaro, Tilt). There are also several premixes that combine both fungicide classes (Quilt, Stratego). Always read the fungicide label and make sure to follow label instructions including using the recommended rate on the label. The number of fungicide applications needed is dependent on the level of infection and future weather conditions. Fungicide applications after 50% head emergence are too late in the growing season to provide a significant yield benefit and most fungicides are not labeled for use after grain head emergence.
OSU 2016 Stripe Rust Ratings - Soft Spring Wheat
OSU 2016 Stripe Rust Ratings - Hard Spring Wheat
- Editor: Laurie Askew
- Author: Rob Wilson
The recent thunderstorms, rain, and overcast conditions have been a huge benefit for reduced irrigation demand and drought relief. On the flip side, these environmental conditions have created favorable conditions for early season late blight development, volunteer potato establishment, and summer annual weeds. Below is a list of spring management activities I encourage farmers to adopt to reduce the potential of late blight reoccurring in 2016.
1.) It is extremely important for growers to scout fields infected with late blight last year for volunteer potatoes, alternative host weeds such as nightshade, and late blight lesions on volunteer potatoes and nightshade. If infection is found, please report it to your cooperative extension office, local PCA, and county agriculture office ASAP so an alert can be posted. I scouted a few grain fields yesterday and I did NOT find late blight lesions on volunteer potatoes but late blight infection is a possibility. Hopefully, the weather turns hot and dry next week.
2.) Eliminate sources of inoculum in cull potatoes and waste potatoes. Methods of disposing cull and non-usable potatoes include feeding to livestock, burial, spraying with herbicides, or composting.
3.) Control volunteer potatoes and nightshade weeds! All growers should try to eliminate volunteer potatoes and nightshade in rotational crops, fallow fields, and field borders. This is extremely important in fields with late blight infection last year and fields that are directly down-wind from fields that had late blight last year. Cultivation and broadleaf herbicides are the most common methods for treating volunteer potatoes and nightshade weeds. Volunteer potatoes are more difficult to control than annual weeds, thus growers should follow the rate recommendations on herbicide labels for volunteer potato suppression. Several small grain herbicides with dicamba and fluroxypyr have label instructions for volunteer potato suppression in small grains.
4.) Scout 2016 potato fields regularly for late blight lesions especially during and after rainy, overcast weather and wet field conditions.
5.) Educate employees how to identify late blight symptoms and develop a preventative management plan for late blight.
6.) Avoid 12 hour irrigation sets and very frequent irrigations. Prolonged leaf wetness of 8+ hours is favorable for late blight infection!
- Author: Rob Wilson
- Editor: Laurie Askew
The warm weather this week is hopefully the best remedy for jump-starting many alfalfa fields damaged by frost and hail the last couple of weeks. If you have fields with frost damage that are not improving, you might dig some alfalfa plants and look at the roots.
Recently we have multiple alfalfa samples brought into the office with damaged roots from clover root curculio (Sitona hispidulus). Clover root curculio has been found in numerous alfalfa fields over the last 20 years, but the infested acreage appears to be increasing and damage is pretty severe this year. Clover root curculio adults are similar in appearance to alfalfa weevil adults, but they are about one-third smaller and have a shorter, blunter snout. Clover root curculio adults also have a mottled brownish coloration on their back compared to the dark brown stripe on alfalfa weevil adults. The adults feed on alfalfa foliage. The white grublike larvae are roughly a ¼ inch long with a dark brown head.
The larvae can be found in the soil feeding on alfalfa roots.The easy way to determine if you have clover root curculio in your field is to look for larvae feeding damage on the roots (see picture).
Larval feeding on alfalfa roots can create points of entry for several alfalfa diseases such as Fusarium and Rhizoctonia. This spring, multiple infested fields had diseased patches where alfalfa was wilted to the ground. One sample was sent to UC Davis for disease diagnosis and it came back positive for Fusarium. Clover root curculio adults overwinter and become active when temperatures exceed 50°F in the spring. Adults lay eggs at the base of alfalfa plants in the spring and larvae hatch and feed on the roots. Larvae pupate in June or July and second generation can sometimes feed on alfalfa in late summer and fall.
Unfortunately, there are not any insecticides registered to control clover root curculio in alfalfa. We plan to do some insecticide testing this year to hopefully find an effective insecticide. Current management recommendations include rotating infested fields into a non-host crop, avoid planting new alfalfa next to infested fields, and proper irrigation and nutrient management. Also make sure to clean to equipment after visiting infested fields to prevent spreading the pest to new fields.