AUTHOR=Porras Mitzy F. , Navas Carlos A. , Agudelo-Cantero Gustavo A. , Santiago-Martínez Michel Geovanni , Loeschcke Volker , Sørensen Jesper Givskov , Crandall Sharifa G. , Biddinger David , Rajotte Edwin G. 

TITLE=Extreme heat alters the performance of hosts and pathogen

JOURNAL=Frontiers in Ecology and Evolution

VOLUME=11

YEAR=2023

URL=https://www.frontiersin.org/journals/ecology-and-evolution/articles/10.3389/fevo.2023.1186452

DOI=10.3389/fevo.2023.1186452

ISSN=2296-701X

ABSTRACT=<p>The frequency and intensity of extreme heat in the environment have increased in the last decade. Extreme heating events (EHE) have wide-ranging impacts on biological systems from the molecular to the community level. However, the impacts of EHE have been poorly studied in pathogen–host systems. Here, we explore how EHE affects the interaction among the insect hosts, <italic>Osmia cornifrons</italic> and <italic>Osmia lignaria</italic>, and a protozoan pathogen, <italic>Crithidia mellificae</italic>. We compared changes in the upper limit for locomotion of hosts (Ct<sub>max</sub>), thermal boldness (voluntary exposure to Extreme Temperature Zones – ETZ) between healthy and infected host exposed to EHE, and the effect of host Ct<sub>max</sub> on pathogen growth rate. Our results showed that 1-day EHE significantly reduced the upper limit for locomotion of hosts by an average of 4 °C in healthy and 7 °C in infected hosts. Further, EHE significantly reduced the protozoan pathogen growth rate. EHE also reduced the hosts’ voluntary exposure to (or transit across) extreme (hot or cold) temperature zones (ETZ). Our results show that EHE reduces both hosts’ heat tolerance and pathogen fitness, and shed light on the implications of EHE on host–pathogen dynamics under warmer world.</p>