植食性甲虫对叶片的损伤改变了夏枯草的绿色和衰老叶片的化学成分。

Thomas E Marler
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引用次数: 0

摘要

在关岛测定了金龟子叶片的化学特性,以了解金龟子叶草食性引起的变化。绿叶化学表明,氮是关岛气候和土壤中最具限制性的营养物质。甲虫损伤后,叶片化学成分发生了广泛的变化。衰老的叶片化学表明,甲虫的损伤降低了一些预测落叶质量较低的性状,如木质素,但也降低了一些预示落叶质量较高的性状,例如氮。基于碳的化学计量性状:大量营养素和木质素:大量营养物质通常预测甲虫草食后的落叶质量更高。在关岛造成这种卡塔帕叶损伤的甲虫是非本土的,总体而言,研究结果表明,这些害虫将增加卡塔帕叶流行的栖息地的枯枝落叶分解率和养分周转率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Leaf Damage by Phytophagous Beetles alters <i>Terminalia catappa</i> Green and Senesced Leaf Chemistry.

Leaf Damage by Phytophagous Beetles alters <i>Terminalia catappa</i> Green and Senesced Leaf Chemistry.

Leaf Damage by Phytophagous Beetles alters <i>Terminalia catappa</i> Green and Senesced Leaf Chemistry.

Leaf Damage by Phytophagous Beetles alters Terminalia catappa Green and Senesced Leaf Chemistry.

Chemical traits of Terminalia catappa L. leaves were determined on the island of Guam to understand the changes caused by beetle leaf herbivory. Green leaf chemistry indicated nitrogen was the most limiting nutrient in the climate and soils of Guam. The changes in leaf chemistry following beetle damage were extensive. Senesced leaf chemistry indicated beetle damage decreased some traits that predict lower leaf litter quality, such as lignin, but also decreased some traits that predict higher leaf litter quality, such as nitrogen. The stoichiometric traits based on carbon:macronutrient and lignin:macronutrient generally predicted higher quality leaf litter following beetle herbivory. The beetles that produce this form of T. catappa leaf damage on Guam are non-native, and overall, the results indicate these pests will increase the rate of litter decomposition and nutrient turnover in habitats where T. catappa is prevalent.

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