Abstract
Parasitic nematodes represent one of the most pervasive and significant challenges to grazing livestock, and their intensity and distribution are strongly influenced by climate. Parasite levels and species composition have already shifted under climate change, with nematode parasite intensity frequently low in newly colonized areas, but sudden large-scale outbreaks are becoming increasingly common. These outbreaks compromise both food security and animal welfare, yet there is a paucity of predictions on how climate change will influence livestock parasites. This study aims to assess how climate change can affect parasite risk. Using a process-based approach, we determine how changes in temperature-sensitive elements of outbreaks influence parasite dynamics, to explore the potential for climate change to influence livestock helminth infections. We show that changes in temperate-sensitive parameters can result in nonlinear responses in outbreak dynamics, leading to distinct ‘tipping-points’ in nematode parasite burdens. Through applying two mechanistic models, of varying complexity, our approach demonstrates that these nonlinear responses are robust to the inclusion of a number of realistic processes that are present in livestock systems. Our study demonstrates that small changes in climatic conditions around critical thresholds may result in dramatic changes in parasite burdens.
Highlights
The distribution and abundance of livestock helminths has been shifting and increasing in temperate regions [1,2,3], with climate change implicated as one of the main2015 The Authors
Helminth abundance and species composition have changed in temperate regions [1,2,6], with an increase in tropically adapted species such as Haemonchus contortus, which typically dominates in regions with hot summers [7]
Given the lack of data, we address this issue using a process-based modelling approach to explore the potential for climate change to influence the dynamics of livestock helminth infections
Summary
The distribution and abundance of livestock helminths (parasitic worms) has been shifting and increasing in temperate regions [1,2,3], with climate change implicated as one of the main. Helminth infections in temperate regions were historically limited to species better adapted to colder climes e.g. Ostertagia ostertagi, Teladorsagia circumcincta, Cooperia spp., Trichostrongylus spp. and Nematodirus spp. Helminth abundance and species composition have changed in temperate regions [1,2,6], with an increase in tropically adapted species such as Haemonchus contortus, which typically dominates in regions with hot summers [7]
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