Accumulation of the gaseous hormone ethylene helps roots sense compact soil.

Eric M Kramer, Josette Masle, Sarah Robinson, Christopher N Topp
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Abstract

Soil compaction, in which soil grains are pressed together leaving less pore space for air and water, is a persistent problem in mechanized agriculture. Most plant roots fail to penetrate soil if it is too dense. One might assume that they are physically unable to penetrate the compact soil. However, new research demonstrates a more complex mechanism that requires the build-up of the volatile plant hormone ethylene in the rhizosphere1. Ethylene itself can arrest growth and, in compact soil, it is present in higher concentrations near roots due to its reduced ability to diffuse. Roots that lack the ethylene response pathway grow better through compact soil, demonstrating that it is physically possible to do so. The work suggests new levers for crop improvement in increasingly degraded soils.

Abstract Image

气体激素乙烯的积累帮助根系感知土壤的致密性。
土壤压实是指土壤颗粒被压在一起,使空气和水的孔隙空间减少,这是机械化农业中一个长期存在的问题。如果土壤太密,大多数植物的根就无法穿透土壤。人们可能会认为它们在物理上无法穿透致密的土壤。然而,新的研究证明了一个更复杂的机制,它需要在根际积累挥发性植物激素乙烯。乙烯本身可以阻止生长,在致密土壤中,由于其扩散能力降低,它在根部附近的浓度更高。缺乏乙烯反应途径的根在致密土壤中生长得更好,这表明在物理上是可能这样做的。这项工作提出了在日益退化的土壤中改善作物的新杠杆。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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