Avian malaria-mediated population decline of a widespread iconic bird species

Dadam, Daria; Robinson, Robert A.; Clements, Anabel; Peach, Will J.; Bennett, Malcolm; Rowcliffe, J. Marcus; Cunningham, Andrew A.

doi:10.1098/rsos.182197

Cited by 58 publications

(48 citation statements)

References 56 publications

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“…These parasites are transmitted by arthropod vectors, with Plasmodium being transmitted by culicid mosquitoes, and Haemoproteus by ceratopogonid biting midges and hippoboscid louse flies [ 21 , 23 ]. Avian haemosporidians can impose strong selective pressures on bird hosts as they are known to reduce longevity [ 24 ], host fitness [ 25 , 26 ], individual host condition [ 27 ] and have led to severe population declines [ 28 – 31 ]. Previous research has revealed that avian haemosporidian parasites vary widely in their host range, with Plasmodium lineages often being generalists infecting a broad range of host species and Haemoproteus lineages often being specialists infecting one or few closely related host species [ 32 – 34 ] but this pattern is not universal [ 35 , 36 ].…”

Section: Introductionmentioning

confidence: 99%

Host phylogeny matters: Examining sources of variation in infection risk by blood parasites across a tropical montane bird community in India

et al. 2020

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Background Identifying patterns and drivers of infection risk among host communities is crucial to elucidate disease dynamics and predict infectious disease risk in wildlife populations. Blood parasites of the genera Plasmodium and Haemoproteus are a diverse group of vector-borne protozoan parasites that affect bird populations globally. Despite their widespread distribution and exceptional diversity, factors underlying haemosporidian infection risk in wild bird communities remain poorly understood. While some studies have examined variation in avian haemosporidian risk, researchers have primarily focused on host ecological traits without considering host phylogenetic relationships. In this study, we employ a phylogenetically informed approach to examine the association between host ecological traits and haemosporidian infection risk in endemic bird communities in the Western Ghats Sky Islands. Methods We used parasite sequence data based on partial mitochondrial cytochrome b gene, that was amplified from genomic DNA extracted from 1177 birds (28 species) across the Western Ghats to assess infection of birds with haemosporidian parasites. We employed a Bayesian phylogenetic mixed effect modelling approach to test whether haemosporidian infection risk was affected by seven species-specific and four individual-level ecological predictors. We also examined the effect of host phylogenetic relationships on the observed patterns of variation in haemosporidian infection risk by estimating phylogenetic signal. Results Our study shows that host ecological traits and host phylogeny differentially influence infection risk by Plasmodium (generalist parasite) and Haemoproteus (specialist parasite). For Plasmodium, we found that sociality, sexual dimorphism and foraging strata were important ecological predictors. For Haemoproteus, patterns of infection risk among host species were associated with sociality, species elevation and individual body condition. Interestingly, variance in infection risk explained by host phylogeny was higher for Haemoproteus parasites compared to Plasmodium. Conclusions Our study highlights that while host ecological traits promoting parasite exposure and host susceptibility are important determinants of infection risk, host phylogeny also contributes substantially to predicting patterns of haemosporidian infection risk in multi-host communities. Importantly, infection risk is driven by joint contributions of host ecology and host phylogeny and studying these effects together could increase our ability to better understand the drivers of infection risk and predict future disease threats. Graphical abstract

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Section: Introductionmentioning

confidence: 99%

Host phylogeny matters: Examining sources of variation in infection risk by blood parasites across a tropical montane bird community in India

et al. 2020

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“…These parasites are transmitted by arthropod vectors, with Plasmodium being transmitted by Culicid mosquitoes, and Haemoproteus by Ceratopogonid biting midges and Hippoboscid louse ies [17,19]. Avian haemosporidians can impose strong selective pressures on bird hosts as they are known to reduce longevity [20], host tness [21,22], individual host condition [23] and have led to severe population declines [24][25][26][27]. Previous research has revealed that avian haemosporidian parasites vary widely in their host range, with Plasmodium lineages often being generalists infecting a broad range of host species and Haemoproteus lineages often being specialists infecting one or few closely related host species [28,29].…”

Section: Introductionmentioning

confidence: 99%

Host Phylogeny Matters: Examining Sources of Variation in Infection Risk by Blood Parasites Across a Tropical Montane Bird Community in India

Gupta¹,

Vishnudas

Robin

et al. 2020

Preprint

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Background: Identifying patterns and drivers of infection risk among host communities is crucial to elucidate disease dynamics and predict infectious disease risk in wildlife populations. Blood parasites of genera Plasmodium and Haemoproteus are a diverse group of vector-borne protozoan parasites that affected bird populations globally. Despite their widespread distribution and exceptional diversity, factors underlying haemosporidian infection risk in wild bird communities remain poorly understood. While some studies have examined variation in avian haemosporidian risk, researchers have primarily focused on host ecological traits without considering host phylogenetic relationships. In this study, we employ a phylogenetically informed approach to examine the association between host ecological traits and avian haemosporidian infection risk in endemic bird communities in the Western Ghats Sky Islands.Methods: We collected blood samples from 1177 birds (28 species) and amplified partial parasite mitochondrial cytochrome b gene to identify avian haemosporidian infection and characterized unique haemosporidian lineages by sequencing. We employed a Bayesian phylogenetic mixed effect modelling approach to test the association between seven species specific ecological predictors, four individual level predictors and avian haemosporidian infection risk. We also examined the effect of host phylogenetic relationships on the observed patterns of variation in haemosporidian infection risk by estimating phylogenetic signal.Results: Our study shows that effects of host ecological traits and host phylogeny on infection risk vary for Plasmodium (generalist parasite) vs. Haemoproteus (specialist parasite). For Plasmodium, we found that sociality, sexual dimorphism and feeding strata were important ecological predictors. For Haemoproteus, patterns of infection risk among host species were associated with sociality, elevation and individual body condition. Interestingly, variance in infection risk explained by host phylogeny was higher for Haemoproteus parasites compared to Plasmodium. Conclusion: Our study highlights that while host ecological traits promoting parasite exposure and host susceptibility are important determinants of infection risk, host phylogeny also contributes substantially in predicting patterns of avian haemosporidian infection risk among host communities. Importantly, infection risk is driven by joint contributions of host ecology and host phylogeny and studying these effects together could increase our ability to better understand the drivers of infection risk and predict future disease threats.

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“…For haemosporidian parasites, fitness costs for birds can be highly variable [25]. In some cases, haemosporidians have caused dramatic population declines in hosts such as some Hawaiian honeycreepers (e.g., Vestiaria coccinea) and possibly house sparrows (Passer domesticus) in Europe [59,60]. Relapse of chronic infections under ALAN in anthropogenic habitats could accordingly either facilitate infection-related population declines in less tolerant avian hosts or increase parasitemia in tolerant species that instead serve as sources of infection for generalist vectors, thereby increasing transmission in the local avian community.…”

Section: Discussionmentioning

confidence: 99%

Artificial light at night amplifies seasonal relapse of haemosporidian parasites in a widespread songbird

Becker

Singh

Pan

et al. 2020

Preprint

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14Urban habitats can shape interactions between hosts and parasites by altering within-host 15 processes such as resistance. Artificial light at night is common in urban environments, and 16 chronic exposure can impair host immunity in ways that may increase infection. However, 17 studies of causal links between this stressor, immunity, and infection dynamics are rare, 18 particularly in migratory animals. Here, we experimentally tested how artificial light at night 19 affects cellular immunity and haemosporidian parasite intensity across the annual cycle of 20 migrant and resident subspecies of the dark-eyed junco (Junco hyemalis). We monitored an 21 experimental group exposed to light at night and a control group under nighttime darkness as 22 they passed through short days simulating early spring to longer days simulating the breeding 23 season, followed by fall migration. Using generalized additive models, we show that artificial 24 light at night increased inflammation, and leukocyte counts were greatest in early spring and fall. 25At the start of the experiment, few birds had active infections based on microscopy, but PCR 26 revealed many birds had chronic infections. Artificial light at night increased parasitemia across 27 the annual cycle, with strong peaks in spring and fall that were largely absent in control birds. As 28 birds were kept in indoor aviaries to prevent vector exposure, this increased parasitemia indicates 29 relapse of chronic infection during costly life history stages (i.e., reproduction). Although the 30 immunological and parasitological time series were in phase for control birds, cross-correlation 31 analyses also revealed artificial light at night desynchronized leukocyte profiles and parasitemia, 32 which could suggest a general exaggerated inflammatory response. Our study shows how a 33 common anthropogenic influence can shape within-host processes to affect infection dynamics. 34 35 As suburban and urban habitats expand globally, certain species are attracted to these 36 environments owing to a combination of altered microclimate, predation risk, and resource 37 availability [1,2]. Such changes in biotic and abiotic conditions can have cascading and complex 38 effects on wildlife [3,4]. When considering infectious disease, urban habitats can shape the 39 interactions between hosts and parasites by altering within-host processes such as resistance or 40 tolerance [5]. Understanding how urbanization affects these processes is especially important, as 41 it can facilitate novel cross-species transmission opportunities between various host species [6]. 42 One aspect of urban habitats that could have strong effects on these within-host processes 43 is artificial light at night (ALAN). By altering animal circadian rhythms, ALAN can cause a suite 44 of physiological changes relevant to infection [7]. In particular, chronic exposure to ALAN can 45 suppress various aspects of host immune function, including cellular response and microbial 46killing ability [8,9]. Prolonged ambient lig...

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Avian malaria-mediated population decline of a widespread iconic bird species

Cited by 58 publications

References 56 publications

Host phylogeny matters: Examining sources of variation in infection risk by blood parasites across a tropical montane bird community in India

Host phylogeny matters: Examining sources of variation in infection risk by blood parasites across a tropical montane bird community in India

Host Phylogeny Matters: Examining Sources of Variation in Infection Risk by Blood Parasites Across a Tropical Montane Bird Community in India

Artificial light at night amplifies seasonal relapse of haemosporidian parasites in a widespread songbird

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