As a result of climate change, more frequent and longer drought periods are predicted in the future. Drought risks are suggested to decrease agricultural yield. Researchers at the University of Bayreuth and the Leibniz Centre for Agricultural Landscape Research (ZALF) have now discovered a way to mitigate this problem: Amorphous silica is able to significantly increase the amount of available water for plants. This offers an opportunity to enhance global food security despite climate change. The researchers presented their findings in the journal Scientific Reports. They suggest a soil management that ensures a higher amorphous silica content.
The new research results are the product of close collaboration between environmental geochemists and soil physicists. The scientists have systematically investigated how amorphous silica affects the ability of soils to absorb and store water, for the first time. The results are impressive: Even if the proportion of amorphous silica in soils increases by just one percent by weight, the amount of plant available water in soils increases by up to 40 percent – or even more", reports Dr. Jörg Schaller from the Department of Environmental Geochemistry at the University of Bayreuth and ZALF. This is because gels, which contain enormous amounts of water, form in the soil out of amorphous silica molecules. These water supplies are easily accessible to the roots of plants.
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