根系雷达：“根分泌”信号如何让根系探测并响应土壤环境和压力。

IF 5.6 2区生物学 Q1 PLANT SCIENCES

Journal of Experimental Botany Pub Date : 2025-04-09 DOI:10.1093/jxb/erae490

Bipin K Pandey, Timothy S George, Hannah V Cooper, Craig J Sturrock, Tom Bennett, Malcolm J Bennett

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引用次数: 0

摘要

农业集约化加上气候变化导致土壤越来越容易受到干旱、土壤侵蚀和板结等压力的影响。根系检测和响应土壤胁迫的机制仍然知之甚少。最近的突破表明，根系向周围的土壤释放挥发性和可溶性激素信号，然后监测它们的水平，以感知土壤压力。我们的综述讨论了激素如何在“植物外”作为“根分泌”信号发挥作用，以提高植物对不同土壤胁迫的恢复能力。我们还提出了一种新的信号范式，我们称之为“根雷达”，其中土壤中的“根分泌”水平随着环境胁迫而变化，反馈给根系并引发适应性反应。

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Root RADAR: how 'rhizocrine' signals allow roots to detect and respond to their soil environment and stresses.

Agricultural intensification coupled with changing climate are causing soils to become increasingly vulnerable to stresses such as drought, soil erosion, and compaction. The mechanisms by which roots detect and respond to soil stresses remain poorly understood. Recent breakthroughs show that roots release volatile and soluble hormone signals into the surrounding soil, then monitor their levels to sense soil stresses. Our review discusses how hormones can act 'outside the plant' as 'rhizocrine' signals that function to improve plant resilience to different soil stresses. We also propose a novel signalling paradigm which we term 'root RADAR' where 'rhizocrine' levels change in soil in response to environmental stresses, feeding back to roots and triggering adaptive responses.

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来源期刊

Journal of Experimental Botany 生物-植物科学

CiteScore

12.30

自引率

4.30%

发文量

450

审稿时长

1.9 months

期刊介绍： The Journal of Experimental Botany publishes high-quality primary research and review papers in the plant sciences. These papers cover a range of disciplines from molecular and cellular physiology and biochemistry through whole plant physiology to community physiology. Full-length primary papers should contribute to our understanding of how plants develop and function, and should provide new insights into biological processes. The journal will not publish purely descriptive papers or papers that report a well-known process in a species in which the process has not been identified previously. Articles should be concise and generally limited to 10 printed pages.