Saved in:
Bibliographic Details
Main Authors: Broughton, Heather, Crews, Arielle, Lilly, Marie, Sambado, Samantha, Salomon, Jordan, Lawrence, Alexandra, Ring, Kacie, Clark, Jacoby, Shaw, Grace, Summers, Shannon, Nakano, Angie, Swei, Andrea
Format: Artículo científico
Language:en
Published: Science advances 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40680127/
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1868266176805601281
author Broughton, Heather
Crews, Arielle
Lilly, Marie
Sambado, Samantha
Salomon, Jordan
Lawrence, Alexandra
Ring, Kacie
Clark, Jacoby
Shaw, Grace
Summers, Shannon
Nakano, Angie
Swei, Andrea
author_facet Broughton, Heather
Crews, Arielle
Lilly, Marie
Sambado, Samantha
Salomon, Jordan
Lawrence, Alexandra
Ring, Kacie
Clark, Jacoby
Shaw, Grace
Summers, Shannon
Nakano, Angie
Swei, Andrea
Broughton, Heather
Crews, Arielle
Lilly, Marie
Sambado, Samantha
Salomon, Jordan
Lawrence, Alexandra
Ring, Kacie
Clark, Jacoby
Shaw, Grace
Summers, Shannon
Nakano, Angie
Swei, Andrea
collection PubMed - marine biology
contents Climate differentially impacts ticks infected and uninfected with . Broughton, Heather Crews, Arielle Lilly, Marie Sambado, Samantha Salomon, Jordan Lawrence, Alexandra Ring, Kacie Clark, Jacoby Shaw, Grace Summers, Shannon Nakano, Angie Swei, Andrea Animals Borrelia burgdorferi Lyme Disease Ixodes Climate Change Humans Ecosystem Climate Ticks Climate change continues to alter the behavior and distribution of species worldwide, with major ramifications for the transmission and risk of infectious diseases, including those caused by zoonotic vector-borne pathogens. This study explores the potential implications of climate change for one such pathogen, (the causative agent of human Lyme disease), in ticks of the far-western United States. Nymphal tick infection prevalence and density are compared against several metrics for climate, while also accounting for habitat fragmentation, mammalian species richness, and rodent tick burden to eliminate confounding variables. Findings show that climate extremes, such as those forecast with climate change, correlate with a reduction in prevalence in nymphal ticks despite nominal impacts on uninfected tick density, contrasting traditional hypotheses that these changes will increase vector-borne pathogens.
format Artículo científico
id pubmed_40680127
institution PubMed
language en
publishDate 2025
publisher Science advances
record_format pubmed
spellingShingle Climate differentially impacts ticks infected and uninfected with .
Broughton, Heather
Crews, Arielle
Lilly, Marie
Sambado, Samantha
Salomon, Jordan
Lawrence, Alexandra
Ring, Kacie
Clark, Jacoby
Shaw, Grace
Summers, Shannon
Nakano, Angie
Swei, Andrea
Animals
Borrelia burgdorferi
Lyme Disease
Ixodes
Climate Change
Humans
Ecosystem
Climate
Ticks
Climate differentially impacts ticks infected and uninfected with . Broughton, Heather Crews, Arielle Lilly, Marie Sambado, Samantha Salomon, Jordan Lawrence, Alexandra Ring, Kacie Clark, Jacoby Shaw, Grace Summers, Shannon Nakano, Angie Swei, Andrea Animals Borrelia burgdorferi Lyme Disease Ixodes Climate Change Humans Ecosystem Climate Ticks Climate change continues to alter the behavior and distribution of species worldwide, with major ramifications for the transmission and risk of infectious diseases, including those caused by zoonotic vector-borne pathogens. This study explores the potential implications of climate change for one such pathogen, (the causative agent of human Lyme disease), in ticks of the far-western United States. Nymphal tick infection prevalence and density are compared against several metrics for climate, while also accounting for habitat fragmentation, mammalian species richness, and rodent tick burden to eliminate confounding variables. Findings show that climate extremes, such as those forecast with climate change, correlate with a reduction in prevalence in nymphal ticks despite nominal impacts on uninfected tick density, contrasting traditional hypotheses that these changes will increase vector-borne pathogens.
title Climate differentially impacts ticks infected and uninfected with .
topic Animals
Borrelia burgdorferi
Lyme Disease
Ixodes
Climate Change
Humans
Ecosystem
Climate
Ticks
url https://pubmed.ncbi.nlm.nih.gov/40680127/