- Author: Michelle Leinfelder-Miles
- Editor: Taiyu Guan
- Editor: Consuelo B Baez Vega
Rice production in the Sacramento-San Joaquin Delta region has been steadily increasing in recent years (Table 1). While Delta acreage is only a fraction of that in the Sacramento Valley, Delta yields are consistent with statewide averages. I estimate that in 2023, the Delta had around 10,000 acres of rice. In this seasonal recap, I'll overview UCCE research in Delta rice, as well as provide some observations about the 2023 season.
Herbicide Trial
Over the last several years, we have conducted trials to evaluate the efficacy of a new herbicide product, Loyant (florpyrauxifen-benzyl; Corteva Agriscience), on grasses and sedges in the Delta drill-seeded system. Loyant is now registered and was available for the 2023 season. Over the last two years, I have been working with Deniz Inci (UC Davis graduate student) and Kassim Al-Khatib (UC Extension Specialist) to evaluate Loyant for efficacy on cattails. In the the Delta's drill-seeded system, cattails may emerge ahead of the rice crop and outcompete the rice. In both years, we found that the label rate of Loyant had efficacy on cattails that were less than three feet tall (Fig. 1). When treated by that size, we were later able to pull up dessicated plants, including the rhizomes. Growers will need to be cautious of drift issues, however, because pistachio and grape are highly-susceptible to drift damage by Loyant, with almond, walnut, and peach being only minorly damaged, if at all.
Armyworm Monitoring
I have been monitoring armyworm populations in the Delta since 2016, in collaboration with my UCCE colleague, Luis Espino. Monitoring involves scouting for damage and deployment of pheromone bucket traps that catch the moths. We can use trap counts and Growing Degree Day modelling (i.e. a temperature measure of time) to determine whether and when to treat fields. In 2023, we were thinking we might get away with minimal pressure because the population stayed low through early July. Then, the population spiked in mid-July, later than we had ever observed (Fig. 2). We surmise this was due to the cool, wet spring and later planting season. This year, Methoxyfenozide (Intrepid 2F) was available for use under full registration.
Disease Observations
We have identified diseases like stem rot, aggregate sheath spot, and rice blast on some Delta farms. It is important to scout for these diseases at late-tillering and early-heading because treatment timing is critical for management. Fungicide treatments are most effective when applied at early-heading. Rice blast may be exacerbated by too much nitrogen, and stem rot and aggregate sheath spot by low potassium (K). K can be limiting in some Delta soils, especially where the straw is baled. There is a loss of approximately 28 lb K/ac for every ton of straw removed. Consider leaf tissue sampling for K between tillering and panicle initiation. The Y-leaf should have a K concentration of at least 1.5%. At heading, the flag leaf should have a K concentration of at least 1.2%. On-farm consultations are a service provided by UCCE. Please reach out if I can help identify pests and provide management guidelines.
Weedy Rice
We should continue to keep weedy rice on our radars because we have observed it in the Delta. In-season management includes rogueing or spot spraying before viable seed is produced. The organic herbicide Suppress is registered for spot spraying. Post-harvest management should include straw chopping but not incorporation and winter flooding. This will keep seed on the soil surface, where it can potentially deteriorate over the winter.
Variety Trial
UCCE collaborates with the California Rice Experiment Station to evaluate commercial varieties and advanced breeding lines. The San Joaquin County Delta location was one of ten locations in the 2023 statewide trial. The Delta is a test site for very-early maturing varieties because it has cooler growing conditions than other rice growing regions of the state. Variety trial results will be made available in the February 2024 newsletter.
Cover Cropping
With funding from the CDFA Healthy Soils Program and CA Rice Research Board, I am collaborating with Sara Rosenburg (UC Davis graduate student) and Whitney Brim-DeForest (UCCE rice advisor) to evaluate winter cover crops. We are interested to learn whether cover cropping improves soil carbon and nitrogen dynamics in the rice system. Since rice may be grown over multiple seasons without rotation, cover crops may provide an opportunity to introduce plant diversity, including nitrogen-fixing legumes. Trials will occur from 2022-2025, and the Delta site is one of three (also in Butte and Colusa counties). The 2022-2023 winter season presented several challenges for cover cropping. At the Delta location, seasonal rainfall exceeded 25 inches, and in the ten days after planting, the site received nearly 3.5 inches of rain. In addition to saturated soils, bird predation was severe. This fall, our aim is to plant earlier, if conditions allow.
Thank you to all the growers who collaborated with us on these projects. I wish everyone a good end to the year and a great 2024.
Michelle Leinfelder-Miles, Delta and Agronomic Crops Farm Advisor
Table 1. Rice acreage and yield.
*Rice acreage and yield according to the San Joaquin County (SJC) Agricultural Commissioner's Crop Reports. Rice acreage in SJC is primarily in the Delta region. Delta acreage in other counties is not included in these statistics. At the time of publishing, 2022 CDFA statewide data were not yet available (N/A).
Figure 1. The herbicide, Loyant, was trialed on cattails in the Delta in 2022 and 2023. We observed good control when cattails were less.
Figure 2. Delta true armyworm trap counts, 2016-2023. In 2023, the population was late to peak, likely due to the cool, wet spring and late planting season.
- Author: Whitney Brim-DeForest,
- Editor: Taiyu Guan
- Editor: Consuelo Baez Vega
PCAs and growers were very creative and timely in planning and applying products this year, and control was good in many fields. The two most widespread weed control problems that I noticed this year were the watergrass complex and sprangletop. We have widespread resistance, but control issues this year were likely also related to the wet spring, as well as colder temperatures which resulted in different emergence timings and weed growth patterns as compared to other years.
Propanil Usage and Over-Reliance as a Tool
Propanil is a powerful tool in our herbicide arsenal in California rice. It has wide-spectrum control, controlling many grass, sedge, and broadleaf species.
However, there are several weed species that are already resistant to propanil, including smallflower umbrella sedge and ricefield bulrush (roughseed). As a reminder, resistance is likely to occur when we apply the same mode of action or same herbicide, more than once in a season, or over consecutive years, over more than one season. In both smallflower and bulrush, we have populations that are multiple-resistant to propanil and another herbicide mode of action (mostly ALS-inhibitors, like Granite GR/SC,Londax, and Halomax). This occurs because propanil is typically used as the season's last clean-up spray. If a weed is sprayed with an herbicide early in the season, but is resistant to that herbicide, and then is sprayed later in the season with propanil, there is a possibility that the weed may be resistant to propanil as well (naturally occurs in the population). When we always use propanil as the cleanup spray, we increase the chances of having weed species that are resistant to multiple herbicides, with resistance to propanil being “stacked” onto resistance to the first herbicide.
While we know we already have populations that are multiple herbicide resistant in both bulrush and smallflower, it is very likely that we may soon see this in watergrass populations. In fact, it is increasingly likely, as we are seeing double-propanil applications in many parts of the rice-growing region.
The propanil label lists several products that should not be applied with propanil, namely certain insecticides. The reason that these are put on the label is because in combination with propanil, they can overcome the rice plant's ability to metabolize propanil. When we utilize these products in combination with, or closely following propanil, there is a high risk of significant injury to the rice, including death of rice plants. Please make sure to follow the label, and do not apply these insecticides either as a tank-mix with propanil or soon after (refer to the label).
Alternative Cleanup Sprays (Instead of Double Propanil)
Some alternative cleanup sprays (instead of the double-propanil spray) are suggested below. Keep in mind that these are not endorsements of these products, and not all combinations have not been tested on all weed populations, so efficacy is not guaranteed.
• Abolish + Regiment (watergrass and smallflower umbrella sedge control) • Propanil + Loyant (watergrass, broadleaf and sedge control)
• Propanil + Shark (watergrass control). Worked very well in 2022 at one site—I am conducting further research this year. It caused significant phytotoxicity, but the rice recovered.
• Regiment followed by Propanil applied about 7 days apart (watergrass control). This caused significant phytotoxicity and grass control was not as good as some of the other treatments, but it is a good alternative treatment to double propanil.
Further research is being conducted at multiple sites this year, and results will be forthcoming later this year.
Other Management Methods
As weeds get tougher to control due to resistance, there are some things to keep in mind to maximize efficacy (including some Integrated Weed Management strategies).
Some tips include:
• Using tank mixes of multiple products, as early as possible in the season.
• Utilizing a stale seedbed on badly infested fields (Suppress or glyphosate).
• Applying multiple granular products early in the season (at the same time or in close succession).
• Utilizing pre-plant herbicides (Prowl or Abolish) to suppress early-germinating weeds.
• Deep water at the beginning of the season will help to suppress grasses (watergrass, barnyardgrass, and sprangletop). The deeper, the better (at least 6 inches, but up to 10-12 inches will suppress more plants).
• Winter flooding with no fall tillage: this is a great way to reduce watergrass populations, as seeds are predated upon and will rot if left on the soil surface.
For assistance in implementing an alternative program, contact Whitney (wbrimdeforest@ucanr.edu).
Herbicide Resistance Testing
If you have large populations of weeds that survive until the end of the season, please get them tested, to ensure that you are using the most effective herbicides for your particular weed populations.
The UCCE Rice Weeds Program tests grower submitted seed samples of potentially herbicide-resistant watergrass species, sprangletop, smallflower umbrella sedge and bulrush. However, we encourage you to submit ANY species that you suspect to be resistant. We keep individual grower information confidential and any reporting of results will not identify individual growers.
Please fill out the form (under the “Weeds” section at https://agronomy-rice.ucdavis.edu/) for each weed seed sample (each field and/or species).
The following tips will ensure that you receive the best possible results:
• The best timing of collection is when the seed easily falls off the seed head by gentle agitation in a paper bag. Collecting seeds that don't easily fall off will make it difficult to germinate the seeds, resulting in poor or no results.
• For watergrass species, collection timing should be close to rice harvest (seeds should be brownish in color).
• For sprangletop, timing will be earlier, in August or September (seeds will appear greenish).
• For the sedges, timing may be as early as July, all the way through early September.
• Smallflower umbrella sedge seed is yellow, with brown hulls (looks like dust).
• Bulrush (roughseed) seeds are black and have small hairs
Seed should be collected from areas that you know have been sprayed with the suspected herbicide.
Collect seeds from multiple plants, and the amount should be at least a few handfuls of seed, to ensure sufficient quantity for testing.
Please do not collect seed from around field margins.
Allow seed to dry in the paper bag to prevent molding.
Bring the sample and form to your local UCCE Farm Advisor (Whitney, Luis, or Michelle) or send or drop off samples at the Rice Experiment Station (RES) in Biggs. If you need assistance in collection, please contact your Farm Advisor or PCA. Results should be emailed to you in March of 2024.
Visit our new website!
https://agronomy-rice.ucdavis.edu/
- Author: Luis Espino,
- Author: Ian Grettenberger
- Editor: Taiyu Guan
- Editor: Consuelo Baez Vega
In the past three years, there has been an increase in the number of reports of damage to rice by rice seed midge in the Sacramento Valley. During 2021 and 2022, the issue was not widespread, but there were some instances where the damage was severe. In 2023, several reports of damaged fields were received. We visited several of these fields with varying levels of injury in Colusa and Glenn Counties. One of these fields lost almost 20 acres to midge. Some of the damaged fields had received a pyrethroid treatment soon after seeding. While these insecticide applications may have provided some control in the past, it appears that may no longer be the case, and we are puzzled by the apparent inefficacy of the insecticide.
Rice seed midge survive in canals and ditches year-round. During spring, adults swarm, mate, and lay eggs on the surface of the water as fields are flooded. Eggs hatch after two days, and very small larvae swim to the bottom where they feed and build silken tubes that they use for protection. The tubes get covered with mud and algae and are easy to spot when the water is clear. The larvae initially feed on diatoms and algae and can start feeding on rice seeds and seedlings after around 5 days. After a few more days, larvae pupate, turn into adults, and repeat the cycle again.
Rice seed midge tubes near injured seeds
Injured seed with rice seed midge larva
When feeding on the germinating seed, larvae consume the embryo and endosperm, hollowing them out. Damaged seeds show an entrance hole in the hull near the embryo. Midge larvae can also clip the developing coleoptile or radicle, causing injury similar to tadpole shrimp. Hollowing of the seed and clipping the germinating structures will kill the seed. Once the coleoptile and radicle are well developed, midge injury is less likely to kill the seedling. Midge larvae also feed on larger seedlings. It is not uncommon for midges to perforate leaves; they may even attach their silken tubes to the seedling.
However, this type of injury does not kill the seedling. The best strategy to reduce the risk of injury by rice seed midge is to avoid planting too early or too late, avoid low or high temperatures during seeding, and seed soon after flooding. If injury is detected early enough and the field can be drained quickly, draining the field can reduce damage; however, injury can still occur in low areas of the field that do not drain completely. Planting high quality seed and maintaining an adequate flood can help seedlings establish quickly and avoid midge injury.
Lambda cyhalothrin, a common pyrethroid insecticide used for seedling pests in rice, has been used to manage rice seed midge. However, in recent years, we have noticed that some treated fields are still damaged by the midge. There is some evidence that indicates that midge larvae may not be as susceptible to this insecticide as we thought, possibly due to repeated applications of these insecticides through time. We are conducting field studies to confirm these observations and determine which insecticides could be used to help manage midge.
- Editor: Taiyu Guan
- Editor: Consuelo Baez Vega
Significant Thiobencarb Concentration Detections in Colusa Basin Drain.
The Rice Pesticide Program (RPP) will enter the 8th week of thiobencarb (i.e., Bolero, Abolish, Willowood Thio) monitoring on June 27. The results of monitoring across the sampling sites have generally yielded positive results with only two samples exceeding the performance goal of 1.5 μg/L to date.
We continue to communicate with the County Agricultural Commissioner's offices, the Central Valley Water Board and the Department of Pesticide Regulation (and program stakeholders) to ensure they receive regular updates to the monitoring results and understand the support of the industry for use of their regulatory authority, including removing the use of thiobencarb from a grower/applicator permit.
As an industry we have the responsibility for the stewardship of this product. The Rice Commission will continue to fully implement the management practices approved by the Central Valley Water Board to promote compliance with the program requirements, including investigation of the source of exceedances.
For more information, contact the CRC's Industry Affairs Manager Craig Riddle at criddle@calrice.org or (916) 812- 3468.