Add to ORKGAim Identifying barriers that govern parasite community assembly and parasite invasion risk is critical to understand how shifting host ranges impact disease emergence. We studied regional variation in the phylogenetic compositions of bird species and their blood parasites (Plasmodium and Haemoproteus spp.) to identify barriers that shape parasite community assembly. Location Australasia and Oceania Methods We used a dataset of parasite infections from >10,000 host individuals sampled across 29 bioregions. Hierarchical models and matrix regressions were used to assess the relative influences of interspecies (host community connectivity and local phylogenetic distinctiveness), climate and geographic barriers on parasite local dis...
Aim: Macroecological analyses provide valuable insights into factors that influence how parasites ar...
Relationships between hosts and parasites represent complex co-evolving systems that can vary both t...
Aim (1) To describe the species-area relationships among communities of Plasmodium and Haemoproteus ...
Why do some regions share more or fewer species than others? Community assembly relies on the abilit...
The range of hosts a pathogen infects (host specificity) is a key element of disease risk that may b...
The range of hosts a pathogen infects (host specificity) is a key element of disease risk that may b...
1. Host-parasite interactions have the potential to influence broadscale ecological and evolutionary...
Parasites with low host specificity (e.g. infecting a large diversity of host species) are of specia...
Environmental factors strongly influence the ecology and evolution of vector‐borne infectious diseas...
Understanding the unequal distribution of life on earth is a fundamental goal of ecology and evoluti...
Identifying robust environmental predictors of infection probability is central to forecasting and m...
The latitudinal diversity gradient (LDG) is an established macroecological pattern, but is poorly st...
1. Patterns of diversity and turnover in macroorganism communities can often be predicted from diffe...
Aim: Macroecological analyses provide valuable insights into factors that influence how parasites ar...
Relationships between hosts and parasites represent complex co-evolving systems that can vary both t...
Aim (1) To describe the species-area relationships among communities of Plasmodium and Haemoproteus ...
Why do some regions share more or fewer species than others? Community assembly relies on the abilit...
The range of hosts a pathogen infects (host specificity) is a key element of disease risk that may b...
The range of hosts a pathogen infects (host specificity) is a key element of disease risk that may b...
1. Host-parasite interactions have the potential to influence broadscale ecological and evolutionary...
Parasites with low host specificity (e.g. infecting a large diversity of host species) are of specia...
Environmental factors strongly influence the ecology and evolution of vector‐borne infectious diseas...
Understanding the unequal distribution of life on earth is a fundamental goal of ecology and evoluti...
Identifying robust environmental predictors of infection probability is central to forecasting and m...
The latitudinal diversity gradient (LDG) is an established macroecological pattern, but is poorly st...
1. Patterns of diversity and turnover in macroorganism communities can often be predicted from diffe...
Aim: Macroecological analyses provide valuable insights into factors that influence how parasites ar...
Relationships between hosts and parasites represent complex co-evolving systems that can vary both t...
Aim (1) To describe the species-area relationships among communities of Plasmodium and Haemoproteus ...