Barreto Julia Rodrigues, Berenguer Erika, Ferreira Joice, Joly Carlos A, Malhi Yadvinder, de Seixas Marina Maria Moraes, Barlow Jos
Setor de Ecologia e Conservação Universidade Federal de Lavras Lavras Brazil.
Programa de Pós-Graduação em Ecologia do Instituto de Biociências da USP Universidade de São Paulo São Paulo Brazil.
Ecol Evol. 2021 Mar 26;11(9):4012-4022. doi: 10.1002/ece3.7295. eCollection 2021 May.
Studies on the effects of human-driven forest disturbance usually focus on either biodiversity or carbon dynamics but much less is known about ecosystem processes that span different trophic levels. Herbivory is a fundamental ecological process for ecosystem functioning, but it remains poorly quantified in human-modified tropical rainforests.Here, we present the results of the largest study to date on the impacts of human disturbances on herbivory. We quantified the incidence (percentage of leaves affected) and severity (the percentage of leaf area lost) of canopy insect herbivory caused by chewers, miners, and gall makers in leaves from 1,076 trees distributed across 20 undisturbed and human-modified forest plots in the Amazon.We found that chewers dominated herbivory incidence, yet were not a good predictor of the other forms of herbivory at either the stem or plot level. Chewing severity was higher in both logged and logged-and-burned primary forests when compared to undisturbed forests. We found no difference in herbivory severity between undisturbed primary forests and secondary forests. Despite evidence at the stem level, neither plot-level incidence nor severity of the three forms of herbivory responded to disturbance. . Our large-scale study of canopy herbivory confirms that chewers dominate the herbivory signal in tropical forests, but that their influence on leaf area lost cannot predict the incidence or severity of other forms. We found only limited evidence suggesting that human disturbance affects the severity of leaf herbivory, with higher values in logged and logged-and-burned forests than undisturbed and secondary forests. Additionally, we found no effect of human disturbance on the incidence of leaf herbivory.
关于人类驱动的森林干扰影响的研究通常聚焦于生物多样性或碳动态变化,而对于跨越不同营养级的生态系统过程却知之甚少。食草作用是生态系统功能的一个基本生态过程,但在人类改造的热带雨林中,其量化程度仍然很低。在此,我们展示了迄今为止关于人类干扰对食草作用影响的最大规模研究结果。我们量化了咀嚼者、潜叶虫和造瘿昆虫对分布在亚马逊地区20个未受干扰和人类改造森林样地的1076棵树木叶片造成的树冠层昆虫食草作用的发生率(受影响叶片的百分比)和严重程度(损失叶面积的百分比)。我们发现咀嚼者在食草作用发生率中占主导地位,但在树干或样地层面,它们都不是其他形式食草作用的良好预测指标。与未受干扰的森林相比,在皆伐和刀耕火种的原始森林中,咀嚼严重程度更高。我们发现未受干扰的原始森林和次生林之间的食草作用严重程度没有差异。尽管在树干层面有证据表明,但三种形式的食草作用在样地层面的发生率和严重程度均未对干扰做出响应。我们对树冠层食草作用的大规模研究证实,咀嚼者在热带森林的食草作用信号中占主导地位,但它们对叶面积损失的影响无法预测其他形式的发生率或严重程度。我们仅发现有限的证据表明人类干扰会影响叶片食草作用的严重程度,皆伐和刀耕火种森林中的值高于未受干扰和次生林。此外,我们发现人类干扰对叶片食草作用的发生率没有影响。
