有害生物分析
生态学
农业
气候变化
病虫害综合治理
作物
生物
全球变暖
农林复合经营
环境科学
农业害虫
自然(考古学)
病虫害防治
天敌
农学
领域(数学)
外温
节肢动物
地理
小气候
作者
Mia Lippey,Jay A. Rosenheim,Emily Meineke,Daniel Paredes,Richard Sharp,Rebecca Chaplin-Kramer,Daniel Karp,Sara Emery,Colleen Miller
标识
DOI:10.5061/dryad.ffbg79d87
摘要
Models generated from laboratory-based thermal performance experiments predict that arthropod crop pest densities will escalate under rising temperatures. Conversely, natural enemies are predicted to decline under warming, exacerbating pest outbreaks. We tested these predictions using 141,562 field-year observations of 43 arthropod populations across spatial and temporal temperature gradients. Pests exhibited remarkable heterogeneity of responses to elevated temperatures, with some populations increasing and others decreasing. Natural enemies also showed variable responses to elevated temperatures, with partial support emerging for the hypothesis that natural enemies are more vulnerable to warming than pests. Laboratory-measured thermal performance and life-history traits failed to explain the variability of responses across taxa. Our findings challenge predictions of universal pest proliferation, highlighting the urgent need for species-specific monitoring approaches in agricultural climate adaptation.
科研通智能强力驱动
Strongly Powered by AbleSci AI