When host populations move north, but disease moves south: counter-intuitive impacts of climate warming on disease spread

Empirical observations and mathematical models show that climate warming can lead to the northern (or, more generally, poleward) spread of host species ranges and their corresponding diseases. Here, we consider an unexpected possibility whereby climate warming facilitates disease spread in the oppos...

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Main Authors: Moran, E. Joe, Martignoni, Maria, Lecomte, Nicolas, Leighton, Patrick, Hurford, Amy
Format: Other/Unknown Material
Language:unknown
Published: Authorea, Inc. 2024
Subjects:
Arctic
Online Access:http://dx.doi.org/10.22541/au.170669761.19551080/v1
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spelling crwinnower:10.22541/au.170669761.19551080/v1 2024-06-02T08:02:30+00:00 When host populations move north, but disease moves south: counter-intuitive impacts of climate warming on disease spread Moran, E. Joe Martignoni, Maria Lecomte, Nicolas Leighton, Patrick Hurford, Amy 2024 http://dx.doi.org/10.22541/au.170669761.19551080/v1 unknown Authorea, Inc. posted-content 2024 crwinnower https://doi.org/10.22541/au.170669761.19551080/v1 2024-05-07T14:19:22Z Empirical observations and mathematical models show that climate warming can lead to the northern (or, more generally, poleward) spread of host species ranges and their corresponding diseases. Here, we consider an unexpected possibility whereby climate warming facilitates disease spread in the opposite direction to the directional shift in the host species range. To explore this possibility, we consider two host species, both susceptible to a disease, but spatially isolated due to distinct thermal niches, and where prior to climate warming the disease is endemic in the northern species only. Previous theoretical results show that species’ distributions can lag behind species’ thermal niches when climate warming occurs. As such, we hypothesize that climate warming may increase the overlap between northern and southern host species ranges, due to the northern species lagging behind its thermal tolerance limit. To test our hypothesis, we simulate climate warming as a reaction-diffusion equation model with a Susceptible-Infected (SI) epidemiological structure, for two competing species with distinct temperature-dependent niches. We show that climate warming, by shifting both species’ niches northwards, can facilitate the southward spread of disease, due to increased range overlap between the two populations. As our model is general, our findings may apply to viral, bacterial, and prion diseases that do not have thermal tolerance limits and are inextricably linked to their hosts’ distributions, such as the spread of rabies from arctic to red foxes. Other/Unknown Material Arctic The Winnower Arctic
institution Open Polar
collection The Winnower
op_collection_id crwinnower
language unknown
description Empirical observations and mathematical models show that climate warming can lead to the northern (or, more generally, poleward) spread of host species ranges and their corresponding diseases. Here, we consider an unexpected possibility whereby climate warming facilitates disease spread in the opposite direction to the directional shift in the host species range. To explore this possibility, we consider two host species, both susceptible to a disease, but spatially isolated due to distinct thermal niches, and where prior to climate warming the disease is endemic in the northern species only. Previous theoretical results show that species’ distributions can lag behind species’ thermal niches when climate warming occurs. As such, we hypothesize that climate warming may increase the overlap between northern and southern host species ranges, due to the northern species lagging behind its thermal tolerance limit. To test our hypothesis, we simulate climate warming as a reaction-diffusion equation model with a Susceptible-Infected (SI) epidemiological structure, for two competing species with distinct temperature-dependent niches. We show that climate warming, by shifting both species’ niches northwards, can facilitate the southward spread of disease, due to increased range overlap between the two populations. As our model is general, our findings may apply to viral, bacterial, and prion diseases that do not have thermal tolerance limits and are inextricably linked to their hosts’ distributions, such as the spread of rabies from arctic to red foxes.
format Other/Unknown Material
author Moran, E. Joe
Martignoni, Maria
Lecomte, Nicolas
Leighton, Patrick
Hurford, Amy
spellingShingle Moran, E. Joe
Martignoni, Maria
Lecomte, Nicolas
Leighton, Patrick
Hurford, Amy
When host populations move north, but disease moves south: counter-intuitive impacts of climate warming on disease spread
author_facet Moran, E. Joe
Martignoni, Maria
Lecomte, Nicolas
Leighton, Patrick
Hurford, Amy
author_sort Moran, E. Joe
title When host populations move north, but disease moves south: counter-intuitive impacts of climate warming on disease spread
title_short When host populations move north, but disease moves south: counter-intuitive impacts of climate warming on disease spread
title_full When host populations move north, but disease moves south: counter-intuitive impacts of climate warming on disease spread
title_fullStr When host populations move north, but disease moves south: counter-intuitive impacts of climate warming on disease spread
title_full_unstemmed When host populations move north, but disease moves south: counter-intuitive impacts of climate warming on disease spread
title_sort when host populations move north, but disease moves south: counter-intuitive impacts of climate warming on disease spread
publisher Authorea, Inc.
publishDate 2024
url http://dx.doi.org/10.22541/au.170669761.19551080/v1
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_doi https://doi.org/10.22541/au.170669761.19551080/v1
_version_ 1800746987072520192

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