Host phylogeny and elevation predict infection by avian haemosporidians in a diverse New Guinean bird community

Aim The biotic interactions hypothesis predicts that interactions between species are stronger at lower elevations compared to higher elevations. We tested whether this prediction is met by examining elevational patterns in avian haemosporidian infections in New Guinean birds. Location YUS Conservat...

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Bibliographic Details
Published inJournal of biogeography Vol. 50; no. 1; pp. 23 - 31
Main Authors Lau, Geoffrey C. F., Class Freeman, Alexandra M., Pulgarín‐R, Paulo, Cadena, Carlos Daniel, Ricklefs, Robert E., Freeman, Benjamin G.
Format Journal Article
LanguageEnglish
Published Oxford Wiley Subscription Services, Inc 01.01.2023
Subjects
altitudinal gradient
avian malaria
biotic interactions
Birds
blood parasite
Conservation areas
elevational gradient
Genera
Hypotheses
Infections
Parasites
phylogenetic signal
Phylogenetics
Phylogeny
tropical mountain
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Summary:Aim The biotic interactions hypothesis predicts that interactions between species are stronger at lower elevations compared to higher elevations. We tested whether this prediction is met by examining elevational patterns in avian haemosporidian infections in New Guinean birds. Location YUS Conservation Area, Papua New Guinea. Taxon Birds and haemosporidia. Methods We collected blood samples from 2268 individuals of 66 bird species along a reef‐to‐ridgetop tropical elevational gradient covering ~3000 m of elevation. We used molecular methods to screen samples for haemosporidian parasites, and sequenced 70% of positive infections to determine the identity of parasite genera. We fit a phylogenetic generalized mixed‐effects model to test whether infection prevalence was higher at low elevations, as predicted by the biotic interactions hypothesis. Finally, we tested for phylogenetic signal in parasite prevalence and in host elevational distribution using Pagel's λ. Results Overall parasite prevalence was 45%. Infection prevalence decreased with elevation, though prevalence remained above ~30% even for high‐elevation communities between 2000 and 3000 m. We found strong phylogenetic signal in infection prevalence, but no phylogenetic signal in host elevational distribution. Nearly all sequenced infections (97%) were of Haemoproteus. Main Conclusions Our results are consistent with predictions arising from the biotic interactions hypothesis. However, phylogenetic relationships among hosts are a much better predictor of infection prevalence than is elevational position: closely related bird species tend to have similar infection prevalence regardless of the elevations where they live.
Bibliography:V. V. Robin
Handling Editor
ISSN:0305-0270
1365-2699
DOI:10.1111/jbi.14524