From Scientific American comes word that California farmers and hydrologists are going to undertake an experiment in "water banking" made possible by rare El Niño rains.
The idea is to deeply flood fields in up top several feet of water in order to return ground water that can be used months, or even years, later.
Fortunately, this winter's forecast in California calls for plenty of rain, most likely amplified by strong El Niño conditions. Storm drainage systems typically redirect most floodwater out to sea, but given the region's intense water deficit, hydrology scientists at the University of California, Davis, are experimenting with so-called groundwater banking, which involves sending storm water to flood fallow fields where it can percolate into the soil and replenish aquifers. Storm water absorbed in the winter can then serve as a reservoir of summer refreshment for growing crops, says U.C. Davis's Helen Dahlke.
For two months this winter Dahlke and her team will flood almond orchards in the Central Valley near Davis to a depth of two feet by redirecting rainfall through a network of ditches originally designed to divert floodwater away. To measure success, they will then monitor how much water filters into the water table over the course of two years. They will also test the quality of the infiltrated water and check trees for root rot, which could be detrimental to crop yield. If the method pans out, pear, plum and walnut tree orchards might also benefit from intentional flooding, according to a recent study led by Anthony O'Geen of the University of California's Division of Agriculture and Natural Resources.
Previous tests of the technique have proved successful. In 2011 Terranova Ranch manager Don Cameron diverted Kings River floodwater in Fresno County onto 240 acres of vineyards and other farmland, inundating them for five months. “They looked like rice fields, but the grapes did fine,” Cameron says. Seventy percent of the water percolated into the water table, where it was available for pumping back onto fields during the next growing cycle.
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