The Citrus Research Board (CRB), in coordination with the University of California Statewide Integrated Pest Management Program (UC IPM), will hold the first and second webinars of the 2021 CRB Webinar Series on Tuesday, June 1, 2021, and Tuesday, June 8, 2021.

One hour of continuing education units through the California Department of Pesticide Regulation (CDPR) is pending and available for those in attendance at each webinar.

The series will kick-off on Tuesday, June 1, 2021, with Dr. Greg Douhan, Area Citrus Advisor for Cooperative Extension Tulare County, providing an update to the industry. He will be followed by Mandy Zito, Deputy Agricultural Commissioner/Sealer for Fresno County Department of Agriculture, who will cover laws and regulations pertaining to pesticides, pest control operations, and worker safety that have gone into effect since 2017.

This webinar is approved for 1-hour of “Laws and Regulations” continuing education units from the California Department of Pesticide Regulation (CDPR) and Certified Crop Advisor (CCA).

Click Here to Register for the June 1 Webinar >

On Tuesday, June 8, 2021, Sonia Rios, Area Subtropical Horticulture Advisor for Cooperative Extension Riverside County, will provide an update to the industry. She will be followed by Dr. Sandipa Gautam, Assistant Research Entomologist at the UC Kearney Agricultural Center, who will cover various topics in citrus IPM. She will cover basic California redscale biology and information about selecting insecticides for organic and conventional treatment for Asian citrus psyllid as well as ants and thrips.

This webinar is approved for 1-hour of “Other” continuing education units from the California Department of Pesticide Regulation (CDPR) and Certified Crop Advisor (CCA).

Click Here to Register for the June 8 Webinar >

On Tuesday, June 15, 2021, Dr. Ben Faber, Regional Farm Advisor for Cooperative Extension Ventura County, will provide an update to the industry. He will be followed by Casey Creamer, President/CEO of California Citrus Mutual, and Austin Ewell, Executive Director of Blueprint. They will discuss the current state of affairs of surrounding California water, activities of the Water Blueprint, and thoughts on how the citrus industry is positioned to deal with the Sustainable Groundwater Management Act.

This webinar is approved for 1-hour of “Other” continuing education units from Certified Crop Advisor (CCA).

Click Here to Register for the June 15 Webinar >

On Tuesday, June 22, 2021, Cindy Fake, Regional Farm Advisor for Cooperative Extension Placer and Nevada Counties, will provide an update to the industry. She will be followed by Dr. Tracy Kahn and Dr. Mike Roose, who will share an update on the results of the multi-location lemon scion and rootstock trials. This will include tree health, tree size, yield per tree and packline data on fruit characteristics.

This webinar is approved for 1-hour of “Other” continuing education units from Certified Crop Advisor (CCA).

Click Here to Register for the June 22 Webinar >

Agriculture develops a new variety of lemon, which offers greater yield and adaptation for the benefit of producers in Colima and Michoacán

Experts from the Fruit Research Program of the National Institute for Forestry, Agricultural and Livestock Research (INIFAP) generated the LISE, a citrus fruit that offers better attributes and increases the diversity in quality lemons.

It's interesting how in this age of ACP and HLB, conventional citrus varieties are being developed and released.  There's a lot more breeding done to find HLB resistant/tolerant selections.  Maybe the idea here, is that "lemons" have a tendency towards more resistance than sweet oranges.  Not as much as finger limes, but maybe this does so well in Colima that it would be hard not to plant it.

It stands out because its skin is thin, with a smooth surface, leaves of a darker green color than Colimex, contains three to five seeds, has a soft yellowish-green pulp and has nine to 12 segments and between 44 to 48 percent of acid juice.

• Experts from the Fruit Research Program of the National Institute for Forestry, Agricultural and Livestock Research (INIFAP) generated the LISE, a citrus fruit that offers better attributes and increases the diversity in quality lemons.
• It stands out because its skin is thin, with a smooth surface, leaves of a darker green color than Colimex, contains three to five seeds, has a soft yellowish-green pulp and has nine to 12 segments and between 44 to 48 percent of acid juice.

As part of the actions of the Ministry of Agriculture and Rural Development to promote and strengthen citrus producers in Mexico, the National Institute for Forestry, Agricultural and Livestock Research (INIFAP) developed the LISE variety, a Mexican lemon with high yield. better characteristics and high adaptation to producing areas in Colima and Michoacán.

Specialists from the Research Program in Fruit Trees of the Tecomán Experimental Field of INIFAP selected lemon plants with outstanding agronomic qualities and generated the "Lise", a variety that has better attributes and increases the diversity in quality citrus fruits, indicated the Institute.

The federal agency highlighted that the lemon tree blooms several times a year, with greater intensity from January to March, and is characterized by its flower buds having short petals, its fruit production extends throughout the year and its richest harvests are They get from May to September.

The skin of LISE is thin with a smooth surface, has darker green leaves than Colimex, contains three to five seeds, is soft pulp, has nine to 12 segments and produces between 44 to 48 percent juice. acid.

This new variety is the result of two cycles of selection carried out on a natural variant that did not develop thorns, through natural crosses that take into account the selections in commercial Mexican lemon plantations in Colima, explained INIFAP.

He pointed out that, according to the records of the Institute's specialists, a year yields greater than 35 tons per hectare are obtained without the presence of the citrus disease: Huanglongbing (HLB).

INIFAP specialists recommend, for practicality and economy, planting it in the rainy season in loamy soils and establishing it at a distance of six by four meters, pruning it annually, removing suckers (vegetative shoots) from the stem every three or four months and pointing the branches. long and slightly branched every six months to obtain more compact crowns.

INIFAP - a decentralized body of the Ministry of Agriculture and Rural Development - has a technological package with which it is expected that producers will obtain better yields and provides training to transfer knowledge on different varieties of lemon.

By Christopher Vincent, Anirban Guha, Joon Hyuk Suh and Yu Wang

It may surprise you to learn that citrus trees can get too much sunshine in the Sunshine State. Manipulating the light environment around a plant can have several surprising benefits. Shade can suppress the HLB cycle and enhance citrus health and yield. Overall, a mildly shaded citrus plant is likely to have fewer signs of stress, less HLB-spreading psyllids, less severe HLB symptoms and higher yield.

Our groups have joined with several others at the University of Florida to assess how shade impacts the various dynamics of pests, disease, plant health and horticulture. HLB is spread by Asian citrus psyllids landing on trees. Previous researchers observed that low light reduced psyllids landing on trees in a laboratory and that the shaded sides of trees in the field had fewer psyllids.

In our initial study at a natural forest site, we found it was difficult to find psyllids on feral citrus trees in shaded hammocks, and very few trees were infected with Candidatus Liberibacter asiatius (CLas), the bacterium that causes HLB. We think fewer psyllids land on shaded trees because psyllids use light reflecting off distant trees to locate them. If there is less reflection, the trees are less likely to be spotted. We also found very few symptomatic leaves in the forest site. Leaves showed few signs of stress to their photosynthetic machinery, regardless of whether the trees had HLB.

We followed our forest study by examining sweet orange in the field with 4-year-old Hamlin trees that were all infected and showed strong HLB symptoms. We installed shade netting with 30, 50 or 70% shade over the trees in late 2018 and followed their growth and health over two years.

IMPROVEMENTS
There is evidence that the trees' health has improved, though they are HLB infected. When we performed a whole leaf metabolomic analysis in spring and fall, we found many changes in the metabolic profile, including prominent changes in leaf hormonal balance and the metabolism of sugars and nitrogen. In association with the hormonal changes, the shaded trees have less intense flushes, though their canopies are not less dense. This indicates the leaves likely have longer lifespans in the shade, counteracting an important symptom of HLB: leaf drop.

The shaded leaves had less foliar starch, meaning shade mitigates the typical starch accumulation induced by HLB. Along with the reduction in starch, the shaded leaves also accumulated more of the sugars involved in carbohydrate export from the leaf, indicating that phloem may be functioning more effectively, though this point needs more research.

These results, combined with evidence that leaf water status has improved, suggest that CLas-infected trees in the shade are healthier than in full sun. Thus, it comes as no surprise that shade improved yields. Over the two years of the study, the trees under 30% shade produced twice the yields of those in full sun.

Of course, too much of a good thing is still too much. Increasing shade beyond 30% continued to mitigate stress in the leaves but did not improve yields. Based on work done by our predecessors at the Citrus Research and Education Center, increasing shade intensity too much leads to a reduction in the flowering needed to set a good crop. The shade needs to be sufficiently moderate to help avoid the worst of the sun- and heat-induced stress while still spurring the trees to make fruit.

SHADE OPTIONS
Despite these benefits, there are challenges to using shade in horticulture. Although shade netting is frequently used in some international citrus regions, such as South Africa and Australia, installing large shade structures may not be cost effective for many Florida growers.

A notable exception to this is the construction of many citrus under protective screen (CUPS) structures and individual protective covers that are installed on young trees. Although these are implemented as exclusion netting to prevent the arrival of psyllids on the trees, the nets also provide the environmental benefits of shade, including a warm humid environment that does not overload the leaves with too much light.

Particle films can also provide temporary, sprayable shade. These consist of particles that can be put in suspension and sprayed on leaves, leaving them to dry as a film.

Our ongoing experiments with kaolin particle films have demonstrated that these treatments also reduce disease pressure and leaf water deficit while enhancing tree growth and yield. We studied the application of red and white kaolin particle films over the first four years of a planting, where we saw the kaolin treatments more than quadrupled the yield compared with a treatment that used foliar insecticides to control psyllids.

We have also found that these treatments in young trees lead to larger, denser canopies and help avoid water stress when the soil water depletes. These treatments are cheaper than other approaches to shading trees and may be more effective in keeping Asian citrus psyllid populations low. Thus, particle films may be more accessible to many growers.

There is still much to learn about how different approaches to shade affect the health, ecology and horticulture of citrus. However, recent promising results indicate that manipulation of the light environment in the canopy is an approach worth considering. In the next few years, we hope to research and develop more effective and practical methods that can help growers find a balance of light for improving tree health and yields in the era of HLB.

Christopher Vincent and Yu Wang are assistant professors, Joon Hyuk Suh is a research assistant scientist, and Anirban Guha is a postdoctoral research associate — all at the University of Florida Institute of Food and Agricultural Sciences Citrus Research and Education Center in Lake Alfred.

https://citrusindustry.net/2021/04/05/tweaking-the-sunshine-for-better-citrus-health-and-yield/

https://news.ucr.edu/author/jules-bernstein

UC Riverside scientists are betting an ancient solution will solve citrus growers' biggest problem by breeding new fruits with natural resistance to a deadly tree disease.

New hybrid citrus fruit bred for disease resistance and flavor. (Chandrika Ramadugu/UCR)

The hybrid fruits will ideally share the best of their parents' attributes: the tastiness of the best citrus, and the resistance to Huanglongbing, or HLB, displayed by some Australian relatives of citrus. 

There is no truly effective commercial treatment for HLB, also called citrus greening disease, which has destroyed orchards worldwide. The disease has already been detected in California, where 80 percent of the country's fresh citrus is grown. However, it has not yet been detected in a commercial grove. 

To prevent that from happening, the National Institute of Food and Agriculture has awarded a UC Riverside-led research team $4.67 million.  Chandrika Ramadugu, a UCR botanist leading the project, helped identify microcitrus varieties with natural resistance to HLB about eight years ago.

Cross section of a hybrid fruit bred for this project. (Chandrika Ramadugu/UCR)

“HLB is caused by bacteria, so many people are trying to control it with antimicrobial sprays,” Ramadugu said. “We want to incorporate resistance into the citrus trees themselves through breeding, to provide a more sustainable solution.”

Part of the challenge with this approach to solving the HLB problem is that it's possible to breed hybrids that are resistant to the disease but don't taste good, Ramadugu said. “Hence the need to generate a lot of hybrids and screen them for the ones that will be most ideal for the citrus industry.”

Microcitrus, such as the Australian finger lime, tends to have a sharper, more bitter taste than its relative citrus fruits, like oranges. The perfect cross will have just the right mix of genes to give it sweetness and HLB resistance. 

Ramadugu's team includes collaborators from Texas A&M University, the University of Florida, Washington State University and the U.S. Department of Agriculture, as well as scientists from UC Riverside's Department of Botany and Plant Sciences. 

Breeding project team members from UC Riverside's Department of Botany and Plant Sciences. (Chandrika Ramadugu/UCR)

Currently, the team is studying differences in the genetic makeup of the hybrids they've already bred. Analyzing the new plants' DNA will help the team see whether enough disease resistance has been bred into the fruit, but not so much that the flavor is compromised. 

Another challenge with breeding is the time it takes for new citrus varieties to flower naturally, which can be several years. With the help of Sean Cutler, UCR professor of plant cell biology, the team is hoping to accelerate the time it takes for the hybrid plants to bear fruit in a greenhouse. 

This way the hybrids can be analyzed for taste much sooner. Clones of the best hybrid plants will then be grown in Florida and Texas field trials. 

UC Riverside scientists are using a variety of approaches to fight HLB. While some hope that altering soil and root bacteria will improve plants' immunity to the disease, others are trying to improve HLB resistance by tweaking citrus metabolism, or by using an antibacterial peptide to clear HLB from an infected plant. 

The fruit produced through Ramadugu's method will appeal to many consumers because it will not have genes introduced into them by scientists. Breeding has been done for thousands of years to improve crops and is considered a more natural practice. 

Additionally, Ramadugu says she's excited about her approach because it will ultimately produce a product useful for growers and consumers.