The drivers of avian-haemosporidian prevalence in tropical lowland forests of New Guinea in three dimensions

Celia Vinagre-Izquierdo; Kasun H Bodawatta; Kryštof Chmel; Justinn Renelies-Hamilton; Luda Paul; Pavel Munclinger; Michael Poulsen; Knud A Jønsson

doi:10.1002/ece3.8497

The drivers of avian-haemosporidian prevalence in tropical lowland forests of New Guinea in three dimensions

Ecol Evol. 2022 Feb 14;12(2):e8497. doi: 10.1002/ece3.8497. eCollection 2022 Feb.

Authors

Celia Vinagre-Izquierdo^{1

2

3}, Kasun H Bodawatta¹, Kryštof Chmel^{4

5}, Justinn Renelies-Hamilton², Luda Paul⁶, Pavel Munclinger⁷, Michael Poulsen², Knud A Jønsson¹

Affiliations

¹ Natural History Museum of Denmark University of Copenhagen Copenhagen Denmark.
² Section for Ecology and Evolution Department of Biology University of Copenhagen Copenhagen Denmark.
³ Conservation and Evolutionary Genetics Group Estación Biológica de Doñana - CSIC Sevilla Spain.
⁴ Department of Zoology Faculty of Sciences University of South Bohemia České Budějovice Czech Republic.
⁵ Biology Centre Czech Academy of Sciences České Budějovice Czech Republic.
⁶ New Guinea Binatang Research Centre Madang Papua New Guinea.
⁷ Department of Zoology Faculty of Science Charles University Prague Czech Republic.

Abstract

Haemosporidians are among the most common parasites of birds and often negatively impact host fitness. A multitude of biotic and abiotic factors influence these associations, but the magnitude of these factors can differ by spatial scales (i.e., local, regional and global). Consequently, to better understand global and regional drivers of avian-haemosporidian associations, it is key to investigate these associations at smaller (local) spatial scales. Thus, here, we explore the effect of abiotic variables (e.g., temperature, forest structure, and anthropogenic disturbances) on haemosporidian prevalence and host-parasite networks on a horizontal spatial scale, comparing four fragmented forests and five localities within a continuous forest in Papua New Guinea. Additionally, we investigate if prevalence and host-parasite networks differ between the canopy and the understory (vertical stratification) in one forest patch. We found that the majority of Haemosporidian infections were caused by the genus Haemoproteus and that avian-haemosporidian networks were more specialized in continuous forests. At the community level, only forest greenness was negatively associated with Haemoproteus infections, while the effects of abiotic variables on parasite prevalence differed between bird species. Haemoproteus prevalence levels were significantly higher in the canopy, and an opposite trend was observed for Plasmodium. This implies that birds experience distinct parasite pressures depending on the stratum they inhabit, likely driven by vector community differences. These three-dimensional spatial analyses of avian-haemosporidians at horizontal and vertical scales suggest that the effect of abiotic variables on haemosporidian infections are species specific, so that factors influencing community-level infections are primarily driven by host community composition.

Keywords: Haemoproteus; Normalized Difference Vegetation Index (NDVI); Plasmodium; forest cover; host–parasite networks; vertical stratification.