Characterization of the Allelopathic Potential of Sugarcane Leaves and Roots

N. Hijano, M. Nepomuceno, C. Cantrell, S. Duke, P. Alves
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引用次数: 2

Abstract

Sugarcane cultivars that are currently planted are the result of genetic improvement focused on increased crop yield. However, this selection and genetic alteration reduced the competitive potential of sugarcane, as well as its allelopathic capabilities. Many members of the Poaceae family are highly allelopathic. Thus, the objective of this study was to characterize the allelopathic potential of two sugarcane cultivars (CTC 2 and IAC 91109) by bioassay-guided fractionation, isolation, and identification of significant phytotoxins, including those that are lipophilic. For both leaves and roots, alpha-linolenic and linoleic acid were found to be the most phytotoxic compounds found with this approach. Both compounds were phytotoxic when applied in soil and caused light-independent cellular leakage of treated cucumber cotyledon discs. We conclude that some of the phytotoxic effects of sugarcane residues in soil are due to the combined action of alpha-linolenic and linoleic acid.
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甘蔗叶片和根系化感电位的表征
目前种植的甘蔗品种是基因改良的结果,其重点是提高作物产量。然而,这种选择和遗传改变降低了甘蔗的竞争潜力,以及它的化感能力。许多禾本科植物具有高度的化感作用。因此,本研究的目的是通过生物测定指导分离、分离和鉴定重要的植物毒素,包括亲脂性毒素,来表征两个甘蔗品种(CTC 2和IAC 91109)的化感作用潜力。对于叶子和根,α -亚麻酸和亚油酸被发现是用这种方法发现的最具植物毒性的化合物。这两种化合物在土壤中施用均具有植物毒性,并引起处理过的黄瓜子叶盘不依赖光的细胞渗漏。我们认为,一些甘蔗残留物在土壤中的植物毒性作用是由于α -亚麻酸和亚油酸的共同作用。
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