Li Yong-Hua, Xia Zhi-Chao, Kong Chui-Hua
College of Resources and Environmental Sciences, China Agricultural University, Beijing, China.
Pest Manag Sci. 2016 Nov;72(11):2146-2153. doi: 10.1002/ps.4246. Epub 2016 Mar 2.
Plants may chemically affect the performance of neighbouring plants through allelopathy, allelobiosis or both. In spite of increasing knowledge about allelobiosis, defined as the signalling interactions mediated by non-toxic chemicals involved in plant-plant interactions, the phenomenon has received relatively little attention in the scientific literature. This study examined the role of allelobiosis in the interference of allelopathic wheat with weeds.
Allelopathic wheat inhibited the growth of five weed species tested, and the allelochemical (2,4-dihydroxy-7-methoxy-1,4-benzoxazin-3-one) production of wheat was elicited in the presence of these weeds, even with root segregation. The inhibition and allelochemical levels varied greatly with the mixed species density. Increased inhibition and allelochemical levels occurred at low and medium densities but declined at high densities. All the root exudates and their components of jasmonic acid and salicylic acid from five weeds stimulated allelochemical production. Furthermore, jasmonic acid and salicylic acid were found in plants, root exudates and rhizosphere soils, regardless of weed species, indicating their participation in the signalling interactions defined as allelobiosis.
Through root-secreted chemical signals, allelopathic wheat can detect competing weeds and respond by increased allelochemical levels to inhibit them, providing an advantage for its own growth. Allelopathy and allelobiosis are two probably inseparable processes that occur together in wheat-weed chemical interactions. © 2016 Society of Chemical Industry.
植物可通过化感作用、异种相生相克作用或两者共同作用对邻近植物的生长产生化学影响。尽管人们对异种相生相克作用(定义为植物间相互作用中由无毒化学物质介导的信号相互作用)的了解不断增加,但该现象在科学文献中受到的关注相对较少。本研究探讨了异种相生相克作用在化感小麦对杂草的干扰中的作用。
化感小麦抑制了所测试的5种杂草的生长,并且即使根部分隔,在这些杂草存在的情况下小麦的化感物质(2,4 - 二羟基 - 7 - 甲氧基 - 1,4 - 苯并恶嗪 - 3 - 酮)产量也会增加。抑制作用和化感物质水平随混合物种密度的变化差异很大。在低密度和中等密度下,抑制作用和化感物质水平增加,但在高密度下则下降。5种杂草的所有根系分泌物及其茉莉酸和水杨酸成分均刺激了化感物质的产生。此外,无论杂草种类如何,在植物、根系分泌物和根际土壤中均发现了茉莉酸和水杨酸,表明它们参与了定义为异种相生相克作用的信号相互作用。
化感小麦可通过根系分泌的化学信号检测竞争杂草,并通过增加化感物质水平做出反应以抑制杂草,从而为自身生长提供优势。化感作用和异种相生相克作用可能是在小麦与杂草的化学相互作用中共同发生的两个不可分割的过程。© 2016化学工业协会。
