长期昆虫普查揭示东亚生态系统功能的渐进式丧失。

Long-term insect censuses capture progressive loss of ecosystem functioning in East Asia.

机构信息

State Key Laboratory for Biology of Plant Diseases and Insect Pests, Institute of Plant Protection, Chinese Academy of Agricultural Sciences, Beijing 100193, P.R. China.

出版信息

Sci Adv. 2023 Feb 3;9(5):eade9341. doi: 10.1126/sciadv.ade9341.

DOI:10.1126/sciadv.ade9341

PMID:36735783

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9897670/

Abstract

Insects provide critical ecosystem services such as biological pest control, in which natural enemies (NE) regulate the populations of crop-feeding herbivores (H). While H-NE dynamics are routinely studied at small spatiotemporal scales, multiyear assessments over entire agrolandscapes are rare. Here, we draw on 18-year radar and searchlight trapping datasets (2003-2020) from eastern Asia to (i) assess temporal population trends of 98 airborne insect species and (ii) characterize the associated H-NE interplay. Although NE consistently constrain interseasonal H population growth, their summer abundance declined by 19.3% over time and prominent agricultural pests abandoned their equilibrium state. Within food webs composed of 124 bitrophic couplets, NE abundance annually fell by 0.7% and network connectance dropped markedly. Our research unveils how a progressive decline in insect numbers debilitates H trophic regulation and ecosystem stability at a macroscale, carrying implications for food security and (agro)ecological resilience during times of global environmental change.

摘要

昆虫提供了关键的生态系统服务，例如生物防治，其中天敌（NE）调节作物食草动物（H）的种群。虽然 H-NE 动态通常在小时空尺度上进行研究，但对整个农业景观进行多年评估的情况很少见。在这里，我们利用来自东亚的 18 年雷达和探照灯诱捕数据集（2003-2020 年），（i）评估 98 种空中昆虫物种的时间种群趋势，（ii）描述相关的 H-NE 相互作用。尽管 NE 一直限制着季节性 H 种群的增长，但它们的夏季丰度随着时间的推移下降了 19.3%，一些重要的农业害虫也放弃了它们的平衡状态。在由 124 对双营养级组成的食物网中，NE 的丰度每年下降 0.7%，网络连接度明显下降。我们的研究揭示了昆虫数量的逐渐减少如何削弱了宏观尺度上 H 的营养调节和生态系统稳定性，这对全球环境变化时期的粮食安全和（农业）生态弹性产生了影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f75/9897670/c1c28960d006/sciadv.ade9341-f1.jpg

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长期昆虫普查揭示东亚生态系统功能的渐进式丧失。

Long-term insect censuses capture progressive loss of ecosystem functioning in East Asia.

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