入侵的 Teline monspessulana 和 Ulex europaeus 等位化学物质对智利两种本地树种的生长和生理表现产生了不同的影响

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Lubia M. Guedes, Denis Coelho de Oliveira, Carolina Sanhueza, Ana S. Moreira, Narciso Aguilera
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引用次数: 0

摘要

Teline monspessulana 和 Ulex europaeus(豆科)是高度入侵物种,分布于世界各地。在智利,这两个物种与本地物种 Quillaja saponaria 和 Peumus boldus 分布区域相似。这项研究的重点是确定这两种入侵物种的气生器官水提取物对两种本地树种的初始生长和光合作用性能的影响。实验是在模拟入侵物种和本地物种共存的自然条件下进行的。对确定根系和气生发育的形态变量进行了评估。还通过测量叶绿素荧光、色素含量和非结构性碳水化合物对光合作用进行了评估。在等位化学胁迫下,皂角苷幼苗的气生器官和根部器官的生长受到影响,但光同化物的产量有所增加。在 P. boldus 中没有观察到光合作用机制受到破坏,但其初始生长明显减弱,这可能会影响其在与这两种入侵物种相互作用时的生存。结果表明,两种入侵物种合成的等位化学物质对两种本地物种的形态生理表现产生了不同的影响。在碳管理方面,我们的研究结果表明,皂荚树幼苗可能利用同化的碳生产生物量和防御性化合物。相比之下,黑皮草幼苗的生长对等位化学胁迫更为敏感,并受到严重影响,这可能是因为它的新陈代谢主要投入到防御性化合物中,以应对入侵物种。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Invasive Teline monspessulana and Ulex europaeus allelochemicals induce differential responses regarding the growth and physiological performance of two native Chilean tree species

Invasive Teline monspessulana and Ulex europaeus allelochemicals induce differential responses regarding the growth and physiological performance of two native Chilean tree species

Teline monspessulana and Ulex europaeus (Fabaceae) are highly invasive species distributed worldwide. In Chile, both species share a similar distribution area with the native species Quillaja saponaria and Peumus boldus. This research focused on determining the effects caused by the aqueous extracts of the aerial organs of both invaders on the initial growth and photosynthetic performance of the two native tree species. Experiments were established under controlled conditions simulating natural conditions where both invasive and native species coexist. Morphometric variables defining root and aerial development were evaluated. Photosynthetic performance was also evaluated by measuring chlorophyll fluorescence, pigment content, and non-structural carbohydrates. In Q. saponaria seedlings, the growth of aerial and root organs was affected, but the production of photoassimilates increased under allelochemical stress. No damage to the photosynthetic machinery was observed in P. boldus, but its initial growth was notably reduced, possibly compromising its survival when interacting with both invasive species. The results indicated that allelochemicals synthesized by the two invasive species differentially affected the morphophysiological performance of the two native species. In terms of carbon administration, our results indicate that Q. saponaria seedlings probably use the assimilated carbon for biomass and defensive compound production. In contrast, P. boldus seedling growth is more sensitive to allelochemical stress and is seriously compromised, maybe because its metabolism is mainly invested in defensive compounds to deal with invasive species.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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