日本乌蔹莓卷须的自我识别是由生理连接介导的。
Self-discrimination in the tendrils of the vine Cayratia japonica is mediated by physiological connection.
作者信息
Fukano Yuya, Yamawo Akira
出版信息
Proc Biol Sci. 2015 Sep 7;282(1814). doi: 10.1098/rspb.2015.1379.
Abstract
Although self-discrimination has been well documented, especially in animals, self-discrimination in plants has been identified in only a few cases, such as self-incompatibility in flowers and root discrimination. Here, were port a new form of self-discrimination in plants: discrimination by vine tendrils. We found that tendrils of the perennial vine Cayratia japonica were more likely to coil around neighbouring non-self plants than neighbouring self plants in both experimental and natural settings. The higher level of coiling around a physiologically severed self plant compared with that around a physiologically connected self plant suggested that self-discrimination was mediated by physiological coordination between the tendril and the touched plant as reported for self-discrimination in roots. The results highlight the importance of self-discrimination for plant competition not only underground,but also above-ground.
摘要
尽管自我识别现象已有充分记载,尤其是在动物中,但植物中的自我识别仅在少数情况下被发现,比如花朵中的自交不亲和性和根部识别。在此,我们报告植物中一种新的自我识别形式:藤蔓卷须的识别。我们发现,在实验和自然环境中,多年生藤本植物乌蔹莓的卷须缠绕相邻非自身植株的可能性都高于相邻的自身植株。与缠绕生理连接的自身植株相比,卷须缠绕生理切断的自身植株的程度更高,这表明自我识别是由卷须与被触碰植株之间的生理协调介导的,正如根部自我识别的报道那样。这些结果凸显了自我识别对于植物竞争的重要性,不仅在地下,在地上同样重要。
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