Potato Grower

46 POTATO GROWER | FEBRUARY 2017 Diggin' In Diggin' In Diggin' In Diggin' In Diggin' In Diggin' In IRRIGATION | By Jim Lauria Photos courtesy the Irrigation Association Aerating soil and water Breathing Room Most irrigation experts think in terms of water. Most agronomists think in terms of soil. However, to help growers make the most of their growing environments, we need to expand our thinking— not just in terms of considering both soil and water, but to also include another of the ancient elements: air. (The ancient Greeks also included fire on that list of elements; in terms of modern agriculture, we can look at fire as energy.) The aerobic soil ecosystem is an environment that author Evan Eisenberg describes as a bustling marketplace, "a Casbah, a flea market, an economic free-for-all in which each buyer and seller pursues his or her own interest, and in which every scrap of merchandise—secondhand, seventh-hand, busted, salvaged, patched—is mined for its last ounce of value." Like the human-scale world atop the soil, Eisenberg's buried marketplace is fueled by oxygen (and nitrogen, which is the building block for protein in us and the plants we cultivate). In fact, oxygen and nitrogen are inextricably linked in the soil. The balance of microbes beneath the surface dictates whether nitrogen will be fixed in the soil from the atmosphere, converted to plant- friendly nitrate or ammonium, or denitrified and bled off as gas into thin air. PROVEN YIELD BOOST One of the most exciting approaches to aerating the soil environment integrates injectors with buried drip lines to add about 15 percent air by volume into irrigation water. Because the system uses a vacuum created by the flow of water through the injector to introduce air to the stream, it's a very low-energy operation; the only moving part required is the pump pushing the water into the drip system. So, we're back to those four ancient elements: connecting earth, water and air while using less energy (fire) to do it. The process has been demonstrated to improve yields significantly in vegetables and fruit. One major farm in California's San Joaquin Valley compared 1,500 acres outfitted with a locally manufactured air injection system against rows with conventional buried drip tape for eight years. They recorded a 23 percent average increase in yield in cantaloupes, as well as increases in honeydew, sweet corn and peppers. The yield boost in cantaloupes ranged from 12 to 34 percent over the study period. In other trials, tomato yields increased by 21 percent in normal soils and 38 percent in saline soil as a result of aerated subsurface irrigation water; watermelon yields have been demonstrated to nearly double, while soluble solids increased by 4 percent. NEW TECHNOLOGY, NEW INSIGHTS A team of scientists from Canada and the U.S.—Adrian Unc and Crystal McCall of Memorial University in Newfoundland, and Dave Goorahoo and Josue Samano Monroy of the Center for Irrigation Technology at California State University, Fresno— used sophisticated DNA analysis and a growing understanding of the soil ecosystem to study the impact of the root aeration system This Mazzei AirJection irrigation system uses water fl owing through a Venturi injector to draw in air and deliver it to the root zone. 46 POTATO GROWER | FEBRUARY 2017

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