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Climate warming promotes pesticide resistance through expanding overwintering range of a global pest

Chun‐Sen Ma, Wei Zhang, Yu Peng, Fei Zhao, Xiang‐Qian Chang, Kun Xing, Liang Zhu, Gang Ma, Heping Yang, Volker H. W. Rudolf

2021Nature Communications221 citationsDOIOpen Access PDF

Abstract

Abstract Climate change has the potential to change the distribution of pests globally and their resistance to pesticides, thereby threatening global food security in the 21st century. However, predicting where these changes occur and how they will influence current pest control efforts is a challenge. Using experimentally parameterised and field-tested models, we show that climate change over the past 50 years increased the overwintering range of a global agricultural insect pest, the diamondback moth ( Plutella xylostella ), by ~2.4 million km 2 worldwide. Our analysis of global data sets revealed that pesticide resistance levels are linked to the species’ overwintering range: mean pesticide resistance was 158 times higher in overwintering sites compared to sites with only seasonal occurrence. By facilitating local persistence all year round, climate change can promote and expand pesticide resistance of this destructive species globally. These ecological and evolutionary changes would severely impede effectiveness of current pest control efforts and potentially cause large economic losses.

Topics & Concepts

OverwinteringDiamondback mothPEST analysisClimate changeEcologyResistance (ecology)PesticidePesticide resistancePest controlRange (aeronautics)Global warmingBiologyEnvironmental sciencePlutellaLarvaBotanyMaterials scienceComposite materialInsect-Plant Interactions and ControlInsect and Pesticide ResearchInsect Resistance and Genetics
Climate warming promotes pesticide resistance through expanding overwintering range of a global pest | Litcius