期刊
FUNCTIONAL ECOLOGY
卷 37, 期 4, 页码 900-914出版社
WILEY
DOI: 10.1111/1365-2435.14245
关键词
anuran; chytridiomycosis; emerging infectious diseases; energy metabolism; meta-analysis; pathogen; quantitative synthesis
类别
Understanding the impact of pathogen infection on different functional traits in amphibians infected with Batrachochytrium dendrobatidis (Bd) can provide insights into the pathogenesis of infectious diseases. This study found consistent effects of Bd infection on energy metabolism and decreased traits related to body condition, osmoregulation, and behavior. However, there were biases in the research focus, highlighting the need for studies on immune response, locomotor capacity, energy metabolism, and cardiovascular traits in relation to infectious diseases.
1. The progression of infectious disease depends on the intensity of and sensitivity to pathogen infection. Understanding commonalities in trait sensitivity to pathogen infection across studies through meta-analytic approaches could provide insight to the pathogenesis of infectious diseases. The globally devastating amphibian chytrid fungus, Batrachochytrium dendrobatidis (Bd), offers a good case system due to the widely available dataset on disruption to functional traits across species. 2. Here, I systematically conducted a phylogenetically controlled meta-analysis to test how infection intensity affects different functional traits (e.g. behaviour, physiology, morphology, reproduction) and the survival in amphibians infected with Bd. 3. There was a consistent effect of Bd infection on energy metabolism, while traits related to body condition, osmoregulation, and behaviour generally decreased with Bd infection. Skin integrity, hormone levels, and osmoregulation were most sensitive to Bd infection (minimum Bd load ln 2.5 zoospore equivalent), while higher minimum Bd loads were required to influence reproduction (ln 10.6 zoospore equivalent). Mortality differed between life stages, where juvenile mortality was dependent on infection intensity and exposure duration, while adult mortality was dependent on infection intensity only. Importantly, there were strong biases for studies on immune response, body condition and survival, while locomotor capacity, energy metabolism and cardiovascular traits were lacking. 4. The influence of pathogen load on functional disruption can help inform pathogen thresholds before the onset of irreversible damage and mortality. Meta-analytic approaches can provide quantitative assessment across studies to reveal commonalities, differences and biases of panzootic diseases, especially for understanding the ecological relevance of disease impact.
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