An international team of researchers led by a University of California, Davis, soil scientist has for the first time demonstrated that the soil around plant roots contains more water than does soil in other areas.
The findings, which contradict earlier beliefs that soil in the immediate vicinity of the roots has less water, could potentially lead to development of more drought-tolerant plants and more efficient irrigation systems.
The results of the study appear in the October issue of the scientific journal New Phytologist.
鈥淧lants take water up from the ground by means of fine roots, a few millimeters in diameter,鈥 said Ahmad Moradi, a postdoctoral fellow in the 嘿嘿视频 Department of Land, Air and Water Resources. 鈥淭heir thicker roots serve more as pipelines, to relay the water. We want to understand the water distribution around these fine roots because this is the place where the roots remove water from their surrounding soil.鈥
At the Paul Scherrer Institute in Switzerland, the researchers used a method known as neutron tomography to create a precise three-dimensional image of water distribution around the plant roots and in other soil areas. This technology allowed them to show the distribution of water to a fraction of a millimeter, without having to remove a plant from the soil.
鈥淣eutrons are sensitive to water, and plant roots consist of around 90 percent water,鈥 Moradi said. 鈥淲hen one wants to examine them, or the movement of water in the soil, neutrons are far better tools than X-rays.鈥
鈥淚t is probable that a gel-like substance that the roots exude is responsible,鈥 said Andrea Carminati, a co-author at the University of G枚ttingen, Germany. 鈥淭his substance can absorb 10,000 times its own dry weight of water. In this way, plants could create an emergency supply for short periods.鈥
In addition to Moradi and Carminati, the research team included Eberhard Lehmann of the Paul Scherrer Institute, Switzerland; Sascha Oswald of the University of Potsdam, Germany; and Hans-J枚rg Vogel of the Helmholtz-Centre for Environmental Research, Germany.
Funding for the study was provided by the European Union Marie Curie Water Watch Project.
Media Resources
Pat Bailey, Research news (emphasis: agricultural and nutritional sciences, and veterinary medicine), 530-219-9640, pjbailey@ucdavis.edu
Ahmad Moradi, Land, Air and Water Resources, (530) 752-1210, amoradi@ucdavis.edu