- Author: Michael D Cahn
CropManage Hands-On Webinar
Co-sponsored by:
Pajaro Valley Water Management Agency and
Resource Conservation District of Santa Cruz County
When: Tuesday, May 4, 2021, 9:00 AM-12:00 PM
Where: Virtual Meeting via Zoom (link and instructions will be emailed to registrants)
Hosts: Michael Cahn, Advisor, UCCE Monterey and Andre Biscaro, Advisor, UCCE Ventura
Registration fee: $20
A limited number of registration waivers are available in case of financial difficulties. If interested, please email anrprogramsupport@ucanr.edu to discuss before registering. Registration fees do not apply to Pajaro Valley Growers.
Join us for this hands-on webinar to learn to use CropManage to support irrigation and nutrient management decisions and record-keeping. Para el formulario de registro en español, vaya aquí.
What is CropManage?
CropManage is a free online decision support tool for water and nitrogen management. Based on in-depth research and field studies conducted by the University of California, CropManage provides real-time recommendations for efficient irrigation and fertilizer applications—while maintaining or improving overall yield.
Who should participate?
Vegetable and berry growers, ranch managers, other farm staff, and technical service providers are welcome. The webinar is for both new and current CropManage users.
How to prepare?
As this is a participatory webinar, please join via computer or tablet so that you can follow along and participate in the exercises. Two screens will work better so participants can follow the webinar and use CropManage at the same time.
Each participant will need a user account for CropManage. Please set up a free user account at cropmanage.ucanr.edu before the webinar.
Continuing Education
Certified Crop Advisers (CCA) 2.5 hours of CE units have been approved
Contacts for More Information
Logistics & Registration: Rachel Palmer, anrprogramsupport@ucanr.edu, or 530-750-1361
Course Content: Michael Cahn, mdcahn@ucanr.edu; Farm Advisor, UCCE Monterey County
Para obtener más información en español, comuníquese con Sacha Lozano al 831-224-0293
- Author: Michael D Cahn
- Author: David Chambers
Tensiometers are useful for monitoring soil moisture in vegetable and row crops so that plants are not over-watered nor become water stressed. As the name implies, tensiometers measure soil moisture (water) tension, otherwise referred to as matric water potential. Soil water tension is essentially a measure of the force that plants need to exert to suck water from the soil pores into the roots. A high tension means that the soil is dry and a plant needs more energy to extract water from the soil compared to when the soil is moist. Tensiometers function without batteries and wires, although they can be interfaced to dataloggers by adding a pressure transducer. Also, the readings are not affected by soil texture, temperature, and salinity unlike many electronic soil moisture sensors.
A previous article published in this blog described how to build a tensiometer from PVC parts and ceramic cups that can be purchased from a supplier in California. The design results in a dependable and inexpensive tensiometer that can be built by anyone comfortable using a few hand tools. The most challenging step was gluing the cup to the end of the PVC shaft using epoxy cement which can sometimes result in a vacuum leak if the bond is weak. Since publishing this article, we have built and used more than a hundred of these tensiometers and can suggest some modifications to the original design and a few other words of wisdom. For example, we observed that the PVC “T” can crack if the gauge is threaded too tightly or during cold weather conditions which can cause the plastic to contract, so we suggest using a different type of “T” and not to over thread the gauge. We have also collaborated with a supplier of the ceramic cups, SoilMoisture Equipment Corporation, whose engineers have developed a cup that can be bonded to the PVC shaft using standard PVC cement and primer rather than a specialized epoxy (Fig. 1). This improvement greatly reduces the time required to build the tensiometer which is why we call it the “ten-minute tensiometer.” Once you have some experience, you will probably need less than 10 minutes to assemble one of these tensiometers from the parts shown in Fig 2.
Materials needed:
Ceramic cups
Vender: SoilMoisture Equipment Corporation, Santa Barbara CA (805-964-3525, www.soilmoisture.com)
Part Number Y2630C, Dimensions: 0.875 inch OD x 2.75 inch length
Cost: $25 ea. Note that this is a new part that must be special ordered.
Vacuum gauge
Vender: Zoro.com/Grainger.com
Part Number 4FMK3, Description: ¼ inch MNPT 2 inch diameter test vacuum gauge
Weblink: https://www.zoro.com/zoro-select-vacuum-gauge-test-2-in-4fmk3/i/G0040792/?q=4FMK3 Cost: $18.99 ea.
#1 size rubber stopper
Vender: Grainger.com
Part Number 8DWU6, model RST1-S, Description: 24 mm neck, bottom diam. = 14 mm. Top diam. = 20 mm.
Weblink: https://www.grainger.com/product/GRAINGER-APPROVED-Stopper-8DWU6?internalSearchTerm=Stopper%2C+24mm%2C+Black%2C+PK52&suggestConfigId=8&searchBar=true&suggestConfigId=8&searchBar=true&suggestConfigId=8&searchBar=true&suggestConfigId=8&searchBar=true
Cost: $18.55 / 52 pieces
Schedule 40 PVC pipe (½ inch diameter)
Vender: irrigation supply or hardware store
Sand paper (60 or 80 grid)
Vender: hardware store
½-inch PVC “T”
Vender: irrigation supply or hardware store
Description: ½ inch Female slip x ½ inch Female slip T. Note that this T replaces part number 402-072 from Spears Inc., which we found to sometimes split during cold periods. Also, the previous part was often not in stock.
PVC bushing
Vender: irrigation supply or hardware store. Description: ½-inch PVC Male slip x female ¼” thread bushing.
PVC cement (gray) and purple primer (Fig. 3)
Vender: irrigation supply or hardware store. Note that the gray cement provides a stronger bond than the clear product.
Gas pipe thread sealant (white or blue paste type)
Vender: irrigation supply or hardware store
Painters masking tape
Vender: hardware store
Petroleum Jelly (Vasoline)
Vender: pharmacy. A coating of petroleum jelly improves the seal between the rubber stopper and PVC tube.
Rubber gloves
Vender: hardware store, paint store, etc. Description: Nitrile disposable gloves to protect hands from PVC primer and glue.
Tools needed:
- PVC saw
- Miter box
Procedures
- Cut PVC pipe sections in the following lengths
1 foot depth tensiometer: top shaft = 4 inches*, bottom shaft = 17 inches
2 foot depth tensiometer: top shaft = 4inches, bottom shaft = 30 inches
We advise first cutting the bottom shaft about 1-inch longer than indicated above using the miter box or an electric miter saw to assure that the cut at the lower end is at a 90-degree angle (Fig. 4). The ceramic cup will fit crooked on the end of the shaft if the cut deviates from 90- degrees. After assuring that the cup fits well, the top end of the shaft can be cut to the exact length.
*Note that the top shaft can cut shorter than 4-inches so that when the tensiometer is installed in the field it has a lower profile to the ground, thereby reducing chances of being hit by tractor implements.
- Check that the ceramic cup fits into the bottom of the PVC shaft and is aligned straight. Sand the neck of the cup and/or the interior walls of the PVC shaft if the cup cannot be inserted at least half-way into the PVC. Be careful not to over-sand the cup or the fit between the neck and the PVC shaft will be loose and not bond well when glued. The fit between the neck of the cup and the PVC should be very tight such that a lot of force is needed to insert the cup into the bottom of the PVC shaft. If the cup is not in alignment with the PVC shaft, then recut the end with the miter box at a 90-degree angle and recheck the fit.
- Wrap the bottom of the PVC shaft and the top of the ceramic cup with painter's tape to prevent cement from coating the outside of the ceramic cup (Fig. 5).
- In a well-ventilated location, apply PVC primer to both the interior of the PVC shaft and the outside of the PVC top of the ceramic cup. Then apply gray PVC glue to both surfaces, and push the parts together, and hold in place for about 30 seconds to 1 minute (Figs. 6-9). Tip: slightly twist the parts by about 30-degrees immediately after gluing to assure a good bond before the cement begins to set.
- Next glue the top and bottom shafts and the bushing into the ½ inch, PVC slip “T” using the PVC primer and cement. After inserting each of these parts into the T, slightly twist them and hold in place for about 30 seconds while the cement sets (Figs 10-12). Also cover the non-glued areas with painter's tape to prevent the outside from becoming covered with primer and cement.
- Coat the ¼ inch male threads of the gauge with pipe thread sealant and hand screw on the vacuum gauge. Tip: do not over tighten or the PVC “T” may crack.
- Fill the tensiometer fully with degassed distilled water. The water can be degassed by boiling it and allowing it to cool.
- Coat the lower end of the rubber stopper with a thin film of petroleum jelly and insert into the top end of the tensiometer with a light twist to firmly seat the stopper (A loose stopper is the main cause for vacuum leaks).
Conclusion
So that is it—the tensiometer is ready for testing and installation (Fig. 13). Hopefully, it did not take too long to build and with practice one should be able to assemble these tensiometers in 10 minutes or less. Please visit our previous blog article on how to test and install tensiometers in the field. Please let us know if you have any questions or feed back.
- Author: Jennifer Magana
Identification of Pythium wilt of lettuce in the field
Authors: Richard Smith, JP Dundore Arias and Steve Koike
Farm Advisor, UCCE Monterey County, Professor of Plant Pathology, California State University, Monterey Bay, and Director, TriCal Diagnostics
Pythium wilt, caused by Pythium uncinulatum, infects the roots of different types of lettuce plants. The pathogen survives in the soil in the form of resting spores called oospores, which are resistant to desiccation and temperature changes, and can survive in the soil for several years even in the absence of the host. Upon detecting the presence of the crop, oospores can germinate and infect plant roots directly, or form swimming zoospores, which can spread through water towards roots of the host plant. They attach to and infect the roots. Given that the pathogen needs saturated soil conditions to initiate infection, disease is often most prevalent in wetter parts of the field such as at the head or tail ends of the rows. Under severe infestations and especially with susceptible lettuce varieties, it can occur throughout the planting.
Pythium wilt has some distinctive characteristics that help in recognizing it in the field. However, there are other diseases that overlap with some of the Pythium wilt symptoms. Below is a guide for recognizing Pythium wilt in the field and to help distinguish it from other soilborne diseases. Be sure to wash the roots off to get the best view of the symptoms.
- Pythium wilt (Pythium uncinulatum):
o Leaves: Older leaves wilt, turn yellow, collapse and turn brown; no distinct lesions, spots or specking (as seen with INSV); younger leaves remain upright, but in advanced stages all foliage collapses.
o Crowns: Do not have soft, watery decay. Mostly remain intact. Plants are not easily pulled from the ground (crowns to not readily break off).
o Roots: Taproot exterior can be distinctly dark brown to black, tissue rotted; feeder roots partially or extensively dark brown to black (discoloration does not occur in discrete bands or sections).
Older leaves of Pythium wilt infected plants collapse onto the ground; younger leaves often remain upright until complete death of the plant. Plants do not easily pull from ground.
Pythium wilt: Outer tissue of the taproot (left) or feeder roots (middle and right) turn dark and are rotted.
- Lettuce Drop (Sclerotinia minor):
o Leaves: All leaves wilt, turn yellow, collapse and turn brown; no distinct lesions, spots or specking (as seen with INSV).
o Crowns: Have a soft, watery decay and become mushy in advanced stages; white to gray mycelium and black sclerotia (usually 1/8 inch in diameter) form on the crowns. Crowns readily break off from taproots.
o Roots: Rarely infected and therefore show no disease symptoms.
Lettuce drop infected plants have soft watery, decayed crown tissue and readily break off from the taproots when the plant is gently tugged.
- Botrytis Crown Rot (Botrytis cinerea):
o Leaves: All leaves wilt, turn yellow, collapse and turn brown; no distinct lesions, spots or specking (as seen with INSV).
o Crowns: Have a soft, watery decay and become mushy in advanced stages; crown decay is often an orange-brown color; white to gray mycelium initially forms on the crowns; later becomes gray and fuzzy. Large black sclerotia may also form on decayed crowns. Crowns readily break off from taproots.
o Roots: Are not infected and show no disease symptoms.
Botrytis crown rot attacks the crown tissue. Masses of gray mycelia are evident on infected tissue.
- Verticillium wilt (Verticillium dahliae):
o Leaves: Older leaves wilt and turn yellow. Leaf collapse occurs as plants mature and reach harvest stage.
o Crowns: Show black discoloration in the vascular tissue but not in the central core/pith.
o Roots: Taproot exterior is not discolored. Feeder roots are not discolored. Cut taproot lengthwise to show black streaking of the root vascular tissue. However, the black streaking is firm and not decayed. The vascular discoloration can be similar with symptoms caused by Fusarium wilt and ammonium toxicity.
o Other: Because plants develop symptoms near harvest, plants are rarely stunted. Head lettuce usually is the most susceptible lettuce type.
Verticillium becomes evident close to harvest. Black streaking is evident inside the tap root.
- Fusarium wilt (Fusarium oxysporum f. sp. lactucae):
o Leaves: Older leaves wilt and turn yellow; symptoms can occur on both younger and older plants.
o Crowns: Show brown to red discoloration in the vascular tissue but not in the central core/pith.
o Roots: Taproot exterior is not discolored. Feeder roots are not discolored. Cut taproot lengthwise to show brown to red streaking of the root vascular tissue. However, the brown/red streaking is firm and not decayed. The vascular discoloration can be similar with symptoms caused by Verticillium wilt and ammonium toxicity.
o Other: If infected early in development, plants may be severely stunted. If infected later in the crop cycle, plants may reach full, normal size.
Fusarium infected plants often occur in patches and are stunted with outer leaves turning yellow and necrotic. Tissue turns reddish-brown and breaks down inside the root.
- Ammonium toxicity is not a disease but is a physiological disorder. Lettuce roots are reacting to elevated levels of ammonium that build up in the soil due to cool temperatures in the spring:
o Leaves: Older leaves wilt and turn yellow; symptoms most often occur on younger plants (before and up to rosette stage).
o Crowns: Usually show no symptoms.
o Roots: Taproot exterior is not discolored. Feeder roots are not discolored. Cut taproot lengthwise to show brown to red streaking of the root vascular tissue and central root core. However, the brown/red streaking is firm and not decayed. Central pith of the root can break down and become hollow. The vascular discoloration can be similar with symptoms caused by Fusarium wilt.
o Other: Plants with ammonium toxicity damage usually are distributed randomly and singly throughout a field, in contrast with soilborne disease problems which occur in groups and patches in the field.
Ammonium toxicity mostly occurs in the spring. Plants are often scattered in a field and often, but not always, wilt in the afternoon.
These descriptions can help you to get a good idea of which disease you are dealing with. In spite of the some of the good characteristics of Pythium wilt, getting a sample to a diagnostic laboratory is the best way to be sure of which disease you are dealing with.
- Author: Larry J Bettiga
Airblast 2021: Optimizing Canopy Sprayers webinar
Speaker bios, agenda and registration at: https://ucanr.edu/sites/Airblast2021//
Monday, March 29, and Tuesday, March 30 11:00 AM-2:30 PM Pacific Time
$50 USD registration fee increases to $75 USD on March 22, so register early!
Co-organized by the US/Canadian Spray Application Working Groupand University of California Cooperative Extension
A two-day webinar providing participants with practical information to maximize the effectiveness and efficiency of their air-assisted sprayers used in orchards, vineyards and some bush crops.
Intended Audience:Pesticide applicators, supervisors, growers, licensed professional applicators, Pest Control Advisors and anyone involved in spray application decision making in the orchard or vineyard.
Webinar Objective:Featuring recognized experts hailing from the U.S. and Canada, this unique nationally broadcast workshop, the first of its kind, aims to provide participants the knowledge and insight needed to assess and improve their own spray operations. Presentations will use a variety of air-assist sprayers used in a wide range of orchard/vineyard cropping systems. Audience interaction via Q&A sessions at the end of each day is welcome.
Pesticide Continuing Education Units (CEUs) are applied for the following: California, Oregon, Michigan, New Hampshire and Washington and British Columbia, Canada.
Virtual Vertebrate Pest Council Webinars
This meeting will be three 2-hour sessions spread across three days. Each day will have a different theme:
Day 1 (March 30): Field rodents.
Day 2 (March 31): Updates and information on the use of rodenticides.
Day 3 (April 1): Managing commensal rodents.
These are unique seminars in that there generally is not any other place where you can get continuing education credits exclusively for vertebrate species. Experts from around the state are lined up to provide these seminars. The link for the website with all the details can be found here: http://www.vpconference.org/. A flyer advertising the seminars/workshops can be found here as well: https://ucanr.edu/sites/VPC/files/345087.pdf.
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