Corak S J, Blevins D G, Pallardy S G
Department of Agronomy, University of Missouri, Columbia, Missouri 65211.
Plant Physiol. 1987 Jul;84(3):582-6. doi: 10.1104/pp.84.3.582.
We investigated the possibility of interspecific water transfer in an alfalfa (Medicago sativa L.) and maize (Zea mays L.) association. An alfalfa plant was grown through two vertically stacked plastic tubes. A 5 centimeter air gap between tubes was bridged by alfalfa roots. Five-week old maize plants with roots confined to the top tube were not watered, while associated alfalfa roots had free access to water in the bottom tube (the -/+ treatment). Additional treatments included: top and bottom tubes watered (+/+), top and bottom tubes droughted (-/-), and top tube droughted after removal of alfalfa root bridges and routine removal of alfalfa tillers (-()). Predawn leaf water potential of maize in the -/+ treatment fell to -1.5 megapascals 13 days after the start of drought; thereafter, predawn and midday potentials were maintained near -1.9 megapascals. Leaf water potentials of maize in the -/- and -() treatments declined steadily; all plants in these treatments were completely desiccated before day 50. High levels of tritium activity were detected in water extracted from both alfalfa and maize leaves after (3)H(2)O was injected into the bottom -/+ tube at day 70 or later. Maize in the -/+ treatment was able to survive an otherwise lethal period of drought by utilizing water lost by alfalfa roots.
我们研究了苜蓿(紫花苜蓿)和玉米间种组合中种间水分转移的可能性。一株苜蓿通过两根垂直堆叠的塑料管生长。管间5厘米的气隙由苜蓿根相连。将5周龄的玉米植株根系限制在上层管中,不浇水,而与之相邻的苜蓿根可以自由获取下层管中的水(-/+处理)。其他处理包括:上下层管都浇水(+/+)、上下层管都干旱处理(-/-),以及在去除苜蓿根桥并定期去除苜蓿分蘖后上层管干旱处理(-())。干旱开始13天后,-/+处理中玉米的黎明前叶水势降至-1.5兆帕;此后,黎明前和中午的水势维持在-1.9兆帕左右。-/-和-()处理中玉米的叶水势持续下降;这些处理中的所有植株在第50天前完全干枯。在第70天或之后将3H2O注入下层-/+管后,在从苜蓿和玉米叶片中提取的水中检测到高水平的氚活性。-/+处理中的玉米能够通过利用苜蓿根流失的水分在原本致命的干旱期存活下来。
