Posts Tagged: irrigation
Water Management for California Home Gardeners
Water is essential for any garden, but it's crucial to use water wisely in a place like California, where droughts are common. Effective water management can help home gardeners keep their plants healthy while conserving this precious resource. Thoughtful water management uses resources efficiently and sustainably to meet current and future needs. It involves planning, developing, distributing, and managing the optimum use of water to ensure plants survive and look good. By conserving water, home gardeners contribute to the preservation of local ecosystems and the sustainability of the environment.
Plant Water Use
Understanding how much water your plants need is the first step in effective water management. Different plants have different water requirements. For instance, succulents and cacti need less water than vegetables or fruit trees. It's important to group plants with similar water needs together. This way, you can avoid overwatering or underwatering specific plants. You can learn about plant water needs from plant labels, gardening books, or by reaching out to your local UC Master Gardener volunteers for support. Additionally, observing your plants and learning their symptoms of water stress, such as wilting or drooping leaves, can also help inform water management.
Watering Systems
Several watering systems can help manage water use in a garden. Drip irrigation is one of the most efficient methods. It delivers water directly to the roots of plants, minimizing evaporation and runoff. Soaker hoses, porous hoses that seep water along their length, are another good option for watering garden beds. Traditional sprinklers can be used, but they are less efficient because they tend to waste water through evaporation and runoff. Newer, more advanced systems include weather-based controllers that adjust watering schedules based on weather conditions, ensuring plants get the right amount of water without waste.
Irrigation Best Practices
Take a proactive role in water conservation by adopting best practices for irrigation. Watering early in the morning or late in the evening reduces evaporation, ensuring more water reaches the plants. Mulching the garden helps retain soil moisture and reduces the need for frequent watering. Regularly checking for leaks in the irrigation system and repairing them promptly can prevent water loss. Adjusting the watering schedule based on the season and weather conditions is also essential. During cooler months or after rainfall, plants need less water; in the hot summer, they may need more frequent watering.
Use Drought Tolerant Plants
One of the most environmentally responsible ways to conserve water in a garden is to use drought-tolerant and/or native plants. Drought tolerance reflects the ability of a plant to withstand less than optimal water supplies due to adaptive or avoidance mechanisms. While many native plants possess drought-tolerant traits and require less supplemental irrigation once established, many non-native plants Mediterranean-adapted plants also thrive on relatively lower water. It is important to remember that these plants require water regularly until their root structure is well established in landscape soil. Maintaining these plants with deep and infrequent irrigation once established is a great way to reduce landscape water use. By incorporating these plants into your garden, you're also providing habitat for local wildlife. This creates a beautiful, low-maintenance landscape that thrives with less irrigation.
Best Practices for Keeping Plants Alive During a Drought
During a drought or under water restrictions, it's essential to prioritize how you use water in the garden. Focus on watering the most valuable and vulnerable plants first, such as shade trees and young trees. Slow, deep watering is more effective than frequent shallow watering. This involves watering to a depth slightly below the plant root zone which encourages roots to grow deeper into the soil, making plants more drought-tolerant. Reducing the size of your lawn or replacing it with drought-tolerant ground covers can also save significant amounts of water. Additionally, using shade cloth or temporary shading can help reduce water loss by protecting plants from intense sunlight.
By understanding plant water use, choosing suitable watering systems, adopting best irrigation practices, using drought-tolerant plants, and implementing drought survival strategies, California home gardeners can maintain a healthy and beautiful garden while conserving water. Water management is beneficial for your garden and the environment, and is an especially important practice for Californians. Your conscious efforts in water management contribute to the sustainability of our environment.
To learn more please reach out to your local UC Master Gardeners Program.
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Microirrigation Clogging Troubleshooting Guide
Microirrigation systems include microsprinklers for tree crops, drip emitters for trees, vines, and some row crops, and drip tape for row and field crops. Microirrigation systems apply water to the soil through emitters that are installed along drip lines and contain very small flow passages. Microirrigation systems can apply water and fertilizers more uniformly than other irrigation methods. This uniformity results in potentially higher yields, higher revenue, and reduced irrigation operating costs.
Uniformity, a performance characteristic of irrigation systems, is a measure of the evenness of the applied water throughout the irrigation system. Distribution uniformity (DU), sometimes called emission uniformity (EU), is an index that describes how evenly or uniformly water is applied throughout the field. A uniformity of 100% means the same amount of water was applied everywhere. Unfortunately, all irrigation systems apply water at a uniformity of less than 100%, and thus some parts of a field receive more water than others. Field evaluations have shown that microirrigation systems have the potential for higher uniformity than other irrigation methods. However, clogging reduces the uniformity of applied water in microirrigation systems, thus increasing the relative differences in applied water throughout a field.
The small flow passages in the emitters and microsprinklers make microirrigation systems highly susceptible to clogging. Clogging reduces the uniformity of the applied water and decreases the amount of applied water. Clogging also decreases the amount of salt leaching around the lateral line in saline soils.
The objective of this web site is to provide information to irrigators about the causes of clogging and the methods for preventing or correcting clogging problems in microirrigation systems. Among the topics covered are the sources of clogging, chlorination, preventing chemical precipitation, filtration, flushing, and monitoring microirrigation systems.
This web site is divided into sections to allow the users to more quickly access the information they want. For example, if you already know you have a clogging problem and you want to solve it, go to the section Solutions to Existing Clogging Problems - "I have a problem and I want to solve it".
https://micromaintain.ucanr.edu/
avocado irrigation 2
Flow Focus: Irrigation Friction Loss
I recently helped one of our local student gardens install a drip irrigation system in some...
AI and sustainable farming focus of May 7 workshop with UC, partners
On May 7, scientists from University of California, Riverside, UC Agriculture and Natural Resources, Colorado State University Extension, Kansas State University, University of Arizona, Central Arizona Project, and USDA-Agricultural Research Service will gather with growers in Palm Desert to discuss how artificial intelligence can be used in agriculture.
“Artificial intelligence can be used by farmers to save water, improve fertilizer efficiency and increase productivity,” said Khaled Bali, UC Cooperative Extension irrigation water management specialist and organizer of the workshop. “At this workshop, growers will hear about the latest research on AI technology for agriculture and about the experiences of growers who are already testing it in their fields.”
Speakers and topics will include:
- Raj Khosla, Kansas State University - AI for precision nitrogen and water management in row crops
- Michael Cahn, UC Cooperative Extension - CropManage decision support tool for irrigation and nutrient management
- Daniele Zaccaria, UC Cooperative Extension - Citrus crop water use and open ET in the low desert of California
- Nan Li, UC Riverside - Estimating soil moisture using remote-sensing and land surface parameters in the Central Valley of California.
- Ali Montazar, UC Cooperative Extension - Promises and pitfalls of drip irrigation in desert cropping systems
- Khaled Bali, UC Cooperative Extension - Deficit irrigation strategies for alfalfa in California
- Philip Waisen, UC Cooperative Extension - Environmentally conscious practices for managing soilborne diseases in low desert vegetable production
- Peter Moller, Rubicon Water - On-farm water conservation projects: surface irrigation
- Ronnie Leimgruber, Imperial Valley grower - On-farm water conservation projects: linear move, basin and subsurface drip irrigation
- Rick Benson, Imperial Valley grower - Alternative cropping systems for the low desert region of California: olives and other crops
The workshop will be held at the UCR Palm Desert Center at 75080 Frank Sinatra Drive in Palm Desertfrom 8 a.m. to 3 p.m. on May 7. It costs $30 per person and includes lunch. Register at https://bit.ly/AImay7.
Calculating Irrigation with CIMIS
Avocado Irrigation Calculator using CIMIS
(California Irrigation Management Information System)
Updated March 13, 2024
Gary S. Bender
Farm Advisor Emeritus – Subtropical Horticulture
UC Cooperative Extension – San Diego County
The irrigation requirement can be calculated each week by using CIMIS (California Irrigation Management Information System). CIMIS is a network of weather stations throughout California that takes daily information on evapotranspiration (ETo) of eight-inch tall grass and sends this ETo to a computer in Sacramento. ETo is basically the amount of water lost each day from this grass; it is calculated in inches of water. You can download this information when you want to irrigate your avocados and put it into an “irrigation calculator”. This information will be multiplied by the crop coefficient developed for avocados by UC Cooperative Extension farm advisors and specialists . This will give you the amount of water lost each day by avocados through transpiration and evaporation from the soil surface. Then, assuming the weather doesn't change, you can replace that amount of water when you irrigate.
Follow the Attached Files "CMIS exercise" link below to see how it's done.
CMIS exercise
irrigation with double lines