王建花, 陈婷, 林文雄. 植物化感作用类型及其在农业中的应用[J]. 中国生态农业学报(中英文), 2013, 21(10): 1173-1183. DOI: 10.3724/SP.J.1011.2013.30870
引用本文: 王建花, 陈婷, 林文雄. 植物化感作用类型及其在农业中的应用[J]. 中国生态农业学报(中英文), 2013, 21(10): 1173-1183. DOI: 10.3724/SP.J.1011.2013.30870
WANG Jian-Hua, CHEN Ting, LIN Wen-Xiong. Plant allelopathy types and their application in agriculture[J]. Chinese Journal of Eco-Agriculture, 2013, 21(10): 1173-1183. DOI: 10.3724/SP.J.1011.2013.30870
Citation: WANG Jian-Hua, CHEN Ting, LIN Wen-Xiong. Plant allelopathy types and their application in agriculture[J]. Chinese Journal of Eco-Agriculture, 2013, 21(10): 1173-1183. DOI: 10.3724/SP.J.1011.2013.30870

植物化感作用类型及其在农业中的应用

Plant allelopathy types and their application in agriculture

  • 摘要: 本文总结前人研究成果的基础上,对不同植物化感作用类型及其作用机制和在农业中的应用进行了探讨。植物化感作用包括化感偏害作用、自毒作用、自促作用和互惠作用。植物化感偏害作用是由植物根系分泌物介导下的植物与特异微生物共同作用的结果。利用植物化感偏害作用控制田间杂草是一项环境友好型的可持续农业技术,并已在水稻化感抑草研究方面取得了较突出的成果。植物化感自毒作用(作物连作障碍)是造成作物产量降低、生长状况变差、品质变差、病虫害频发的现象。药用植物, 特别是以根部入药的药用植物中, 连作障碍表现更为突出。近年来研究结果认为根系分泌物生态效应的间接作用及土壤微生物区系功能紊乱是导致植物连作障碍的主要因素。因此, 改善土壤生长环境, 恢复和修复根际土壤微生物结构平衡, 增强生态系统机能是克服作物连作障碍的关键。植物化感自促作用(连作促进作用)是在植物根系分泌物促进下, 根际土壤微生物之间此消彼长, 有益微生物之间互利协作, 土壤肥力和营养补给能力明显改善, 从而增强植物根系抗性, 促进植物生长发育, 提高产量和品质的结果。牛膝的连作促进作用明显,有学者试图通过牛膝与其他不耐连作药用植物间作套种或轮作, 实现药用植物生产的可持续发展。植物间的正相互作用(互惠作用)是作物间套种系统超产和养分等资源高效利用的重要机制, 根系分泌物在介导根际微生物与植物的有利互作中起到重要作用。最后作者强调指出, 存在于根际土壤的微生物群落的宏基因组组成是决定植物能否健康生长的关键。深入研究存在于土壤生态系统中的植物体外基因组的组成与演化机制, 将成为借用现代合成生物学原理与技术, 定向控制植物根际生物学过程, 促进作物生产可持续发展的优先研究领域。

     

    Abstract: Since allelopathy was defined by Rice in 1984, important research progress has been made on the plant allelopathy. Previous studies demonstrated that plant allelopathy has four types (or action modes), amensalism, autotoxicity, stimulation and facilitation. Plant allelopathy was widely understood as the harmful effects (amensalism) of one plant on another plant due to chemicals that were released into the environment, especially into the soil environment. Increasing studies showed that plant allelopathy was the result of the comprehensive effect of plant-microbe interactions mediated by root exudates. Amensalism has been applied in weeds control, and great achievements have been made in the practice. Allelopathic autotoxicity, also known as consecutive monoculture problems, was shown as serious soil disease in plants, consequently resulting in decreased biomass and quality of plant under consecutive monoculture. The allelopathic autotoxicity of medical herbs, especially those with tuberous roots for medicinal use, was just the case with much more sensitive reaction. Recent researches has displayed that the ecological effects of soil microbial functional disorder mediated by root exudates were the main reasons for the consecutive monoculture problems. The findings suggested that the improvement of disease-conducive soil environment was crucial to the remediation of unbalanced microbial community consturcture, and increase of ecosystem functions to overcome the problems. Positive allelopathic stimulation referred to that the monocultured plants graw well, showing higher biomass and better quality with the increasing years of consecutive cropping. Although the mechanism for positive allelopathic stimulation was not deeply understood, it suggested that the ecological phenomena mainly resulted from the improvement of soil microbial community constructure and their interaction mediated by root exudates, including positive and negative facilitation among microorganisms in rhizosphere soil, and hence increased soil fertility and nutrient supply ability, thereby, enforced root resistance to disease, consequently resulted in enhanced plant yield and quality. Achyranthes bidentata Blume was found to be a typical medicinal plant with positive allelopatic effects after continuously monocultured, and had been used as a rotation/intercropping crop with other medicinal plants sensitive to consecutive cropping to keep sustainable production of medicinal herbs. Positive interspecific interactions (facilitation) including commensalism, mutualism and protocooperation, have become a hotspot at home and abroad. Many scholars found that the mutually beneficial relationships in rhizosphere between plant species, especially the plant-microbe interactions mediated by root exudates, played important roles in the yield increase of intercropping system and efficient utilization of soil nutrients. Finally, the authors emphasized that the compositon of metagenome of the complex plant-associated microbial community existing in rhizosphere was the key to the crop plants whether they can healthily grow in the monoculture system. More in-depth studies in the second genome and oriented control of rhizospheric biological processes based on the principle and technology of modern synthetic biology would become the priority research areas to promote the sustainable development of agricultural production.

     

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