Global drivers of avian haemosporidian infections vary across zoogeographical regions

Alan Fecchio; Nicholas J. Clark; Jeffrey A. Bell; Heather R. Skeen; Holly L. Lutz; Gabriel M. De La Torre; Jefferson A. Vaughan; Vasyl V. Tkach; Fabio Schunck; Francisco C. Ferreira; Érika M. Braga; Camile Lugarini; Wanyoike Wamiti; Janice H. Dispoto; Spencer C. Galen; Karin Kirchgatter; M. Cecilia Sagario; Victor R. Cueto; Daniel González-Acuña; Mizue Inumaru; Yukita Sato; Yvonne R. Schumm; Petra Quillfeldt; Irene Pellegrino; Guha Dharmarajan; Pooja Gupta; V. V. Robin; Arif Ciloglu; Alparslan Yildirim; Xi Huang; Leonardo Chapa-Vargas; Paulina Álvarez-Mendizábal; Diego Santiago-Alarcon; Serguei V. Drovetski; Olof Hellgren; Gary Voelker; Robert E. Ricklefs; Shannon J. Hackett; Michael D. Collins; Jason D. Weckstein; Konstans Wells

doi:10.1111/geb.13390

Global drivers of avian haemosporidian infections vary across zoogeographical regions

Alan Fecchio, Nicholas J. Clark, Jeffrey A. Bell, Heather R. Skeen, Holly L. Lutz, Gabriel M. De La Torre, Jefferson A. Vaughan, Vasyl V. Tkach, Fabio Schunck, Francisco C. Ferreira, Érika M. Braga, Camile Lugarini, Wanyoike Wamiti, Janice H. Dispoto, Spencer C. Galen, Karin Kirchgatter, M. Cecilia Sagario, Victor R. Cueto, Daniel González-Acuña, Mizue InumaruYukita Sato, Yvonne R. Schumm, Petra Quillfeldt, Irene Pellegrino, Guha Dharmarajan, Pooja Gupta, V. V. Robin, Arif Ciloglu, Alparslan Yildirim, Xi Huang, Leonardo Chapa-Vargas, Paulina Álvarez-Mendizábal, Diego Santiago-Alarcon, Serguei V. Drovetski, Olof Hellgren, Gary Voelker, Robert E. Ricklefs, Shannon J. Hackett, Michael D. Collins, Jason D. Weckstein, Konstans Wells

Dipartimento per lo Sviluppo Sostenibile e la Transizione Ecologica

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

Aim: Macroecological analyses provide valuable insights into factors that influence how parasites are distributed across space and among hosts. Amid large uncertainties that arise when generalizing from local and regional findings, hierarchical approaches applied to global datasets are required to determine whether drivers of parasite infection patterns vary across scales. We assessed global patterns of haemosporidian infections across a broad diversity of avian host clades and zoogeographical realms to depict hotspots of prevalence and to identify possible underlying drivers. Location: Global. Time period: 1994–2019. Major taxa studied: Avian haemosporidian parasites (genera Plasmodium, Haemoproteus, Leucocytozoon and Parahaemoproteus). Methods: We amalgamated infection data from 53,669 individual birds representing 2,445 species world-wide. Spatio-phylogenetic hierarchical Bayesian models were built to disentangle potential landscape, climatic and biotic drivers of infection probability while accounting for spatial context and avian host phylogenetic relationships. Results: Idiosyncratic responses of the three most common haemosporidian genera to climate, habitat, host relatedness and host ecological traits indicated marked variation in host infection rates from local to global scales. Notably, host ecological drivers, such as migration distance for Plasmodium and Parahaemoproteus, exhibited predominantly varying or even opposite effects on infection rates across regions, whereas climatic effects on infection rates were more consistent across realms. Moreover, infections in some low-prevalence realms were disproportionately concentrated in a few local hotspots, suggesting that regional-scale variation in habitat and microclimate might influence transmission, in addition to global drivers. Main conclusions: Our hierarchical global analysis supports regional-scale findings showing the synergistic effects of landscape, climate and host ecological traits on parasite transmission for a cosmopolitan and diverse group of avian parasites. Our results underscore the need to account for such interactions, in addition to possible variation in drivers across regions, to produce the robust inference required to predict changes in infection risk under future scenarios.

Lingua originale	Inglese
pagine (da-a)	2393-2406
Numero di pagine	14
Rivista	Global Ecology and Biogeography
Volume	30
Numero di pubblicazione	12
DOI	https://doi.org/10.1111/geb.13390
Stato di pubblicazione	Pubblicato - dic 2021

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10.1111/geb.13390

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Fecchio, A., Clark, N. J., Bell, J. A., Skeen, H. R., Lutz, H. L., De La Torre, G. M., Vaughan, J. A., Tkach, V. V., Schunck, F., Ferreira, F. C., Braga, É. M., Lugarini, C., Wamiti, W., Dispoto, J. H., Galen, S. C., Kirchgatter, K., Sagario, M. C., Cueto, V. R., González-Acuña, D., ... Wells, K. (2021). Global drivers of avian haemosporidian infections vary across zoogeographical regions. Global Ecology and Biogeography, 30(12), 2393-2406. https://doi.org/10.1111/geb.13390

@article{0b7da6fb141c458fae1ff3ed86a531de,

title = "Global drivers of avian haemosporidian infections vary across zoogeographical regions",

abstract = "Aim: Macroecological analyses provide valuable insights into factors that influence how parasites are distributed across space and among hosts. Amid large uncertainties that arise when generalizing from local and regional findings, hierarchical approaches applied to global datasets are required to determine whether drivers of parasite infection patterns vary across scales. We assessed global patterns of haemosporidian infections across a broad diversity of avian host clades and zoogeographical realms to depict hotspots of prevalence and to identify possible underlying drivers. Location: Global. Time period: 1994–2019. Major taxa studied: Avian haemosporidian parasites (genera Plasmodium, Haemoproteus, Leucocytozoon and Parahaemoproteus). Methods: We amalgamated infection data from 53,669 individual birds representing 2,445 species world-wide. Spatio-phylogenetic hierarchical Bayesian models were built to disentangle potential landscape, climatic and biotic drivers of infection probability while accounting for spatial context and avian host phylogenetic relationships. Results: Idiosyncratic responses of the three most common haemosporidian genera to climate, habitat, host relatedness and host ecological traits indicated marked variation in host infection rates from local to global scales. Notably, host ecological drivers, such as migration distance for Plasmodium and Parahaemoproteus, exhibited predominantly varying or even opposite effects on infection rates across regions, whereas climatic effects on infection rates were more consistent across realms. Moreover, infections in some low-prevalence realms were disproportionately concentrated in a few local hotspots, suggesting that regional-scale variation in habitat and microclimate might influence transmission, in addition to global drivers. Main conclusions: Our hierarchical global analysis supports regional-scale findings showing the synergistic effects of landscape, climate and host ecological traits on parasite transmission for a cosmopolitan and diverse group of avian parasites. Our results underscore the need to account for such interactions, in addition to possible variation in drivers across regions, to produce the robust inference required to predict changes in infection risk under future scenarios.",

keywords = "Plasmodium, avian malaria, avian migration, disease hotspot, disease macroecology, haemosporidian prevalence, host–parasite interaction, infection probability, parasite macroecology, spatio-phylogenetic models",

author = "Alan Fecchio and Clark, \{Nicholas J.\} and Bell, \{Jeffrey A.\} and Skeen, \{Heather R.\} and Lutz, \{Holly L.\} and \{De La Torre\}, \{Gabriel M.\} and Vaughan, \{Jefferson A.\} and Tkach, \{Vasyl V.\} and Fabio Schunck and Ferreira, \{Francisco C.\} and Braga, \{{\'E}rika M.\} and Camile Lugarini and Wanyoike Wamiti and Dispoto, \{Janice H.\} and Galen, \{Spencer C.\} and Karin Kirchgatter and Sagario, \{M. Cecilia\} and Cueto, \{Victor R.\} and Daniel Gonz{\'a}lez-Acu{\~n}a and Mizue Inumaru and Yukita Sato and Schumm, \{Yvonne R.\} and Petra Quillfeldt and Irene Pellegrino and Guha Dharmarajan and Pooja Gupta and Robin, \{V. V.\} and Arif Ciloglu and Alparslan Yildirim and Xi Huang and Leonardo Chapa-Vargas and Paulina {\'A}lvarez-Mendiz{\'a}bal and Diego Santiago-Alarcon and Drovetski, \{Serguei V.\} and Olof Hellgren and Gary Voelker and Ricklefs, \{Robert E.\} and Hackett, \{Shannon J.\} and Collins, \{Michael D.\} and Weckstein, \{Jason D.\} and Konstans Wells",

note = "Publisher Copyright: {\textcopyright} 2021 John Wiley \& Sons Ltd.",

year = "2021",

month = dec,

doi = "10.1111/geb.13390",

language = "English",

volume = "30",

pages = "2393--2406",

journal = "Global Ecology and Biogeography",

issn = "1466-822X",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "12",

}

Fecchio, A, Clark, NJ, Bell, JA, Skeen, HR, Lutz, HL, De La Torre, GM, Vaughan, JA, Tkach, VV, Schunck, F, Ferreira, FC, Braga, ÉM, Lugarini, C, Wamiti, W, Dispoto, JH, Galen, SC, Kirchgatter, K, Sagario, MC, Cueto, VR, González-Acuña, D, Inumaru, M, Sato, Y, Schumm, YR, Quillfeldt, P, Pellegrino, I, Dharmarajan, G, Gupta, P, Robin, VV, Ciloglu, A, Yildirim, A, Huang, X, Chapa-Vargas, L, Álvarez-Mendizábal, P, Santiago-Alarcon, D, Drovetski, SV, Hellgren, O, Voelker, G, Ricklefs, RE, Hackett, SJ, Collins, MD, Weckstein, JD & Wells, K 2021, 'Global drivers of avian haemosporidian infections vary across zoogeographical regions', Global Ecology and Biogeography, vol. 30, n. 12, pagg. 2393-2406. https://doi.org/10.1111/geb.13390

TY - JOUR

T1 - Global drivers of avian haemosporidian infections vary across zoogeographical regions

AU - Fecchio, Alan

AU - Clark, Nicholas J.

AU - Bell, Jeffrey A.

AU - Skeen, Heather R.

AU - Lutz, Holly L.

AU - De La Torre, Gabriel M.

AU - Vaughan, Jefferson A.

AU - Tkach, Vasyl V.

AU - Schunck, Fabio

AU - Ferreira, Francisco C.

AU - Braga, Érika M.

AU - Lugarini, Camile

AU - Wamiti, Wanyoike

AU - Dispoto, Janice H.

AU - Galen, Spencer C.

AU - Kirchgatter, Karin

AU - Sagario, M. Cecilia

AU - Cueto, Victor R.

AU - González-Acuña, Daniel

AU - Inumaru, Mizue

AU - Sato, Yukita

AU - Schumm, Yvonne R.

AU - Quillfeldt, Petra

AU - Pellegrino, Irene

AU - Dharmarajan, Guha

AU - Gupta, Pooja

AU - Robin, V. V.

AU - Ciloglu, Arif

AU - Yildirim, Alparslan

AU - Huang, Xi

AU - Chapa-Vargas, Leonardo

AU - Álvarez-Mendizábal, Paulina

AU - Santiago-Alarcon, Diego

AU - Drovetski, Serguei V.

AU - Hellgren, Olof

AU - Voelker, Gary

AU - Ricklefs, Robert E.

AU - Hackett, Shannon J.

AU - Collins, Michael D.

AU - Weckstein, Jason D.

AU - Wells, Konstans

PY - 2021/12

Y1 - 2021/12

N2 - Aim: Macroecological analyses provide valuable insights into factors that influence how parasites are distributed across space and among hosts. Amid large uncertainties that arise when generalizing from local and regional findings, hierarchical approaches applied to global datasets are required to determine whether drivers of parasite infection patterns vary across scales. We assessed global patterns of haemosporidian infections across a broad diversity of avian host clades and zoogeographical realms to depict hotspots of prevalence and to identify possible underlying drivers. Location: Global. Time period: 1994–2019. Major taxa studied: Avian haemosporidian parasites (genera Plasmodium, Haemoproteus, Leucocytozoon and Parahaemoproteus). Methods: We amalgamated infection data from 53,669 individual birds representing 2,445 species world-wide. Spatio-phylogenetic hierarchical Bayesian models were built to disentangle potential landscape, climatic and biotic drivers of infection probability while accounting for spatial context and avian host phylogenetic relationships. Results: Idiosyncratic responses of the three most common haemosporidian genera to climate, habitat, host relatedness and host ecological traits indicated marked variation in host infection rates from local to global scales. Notably, host ecological drivers, such as migration distance for Plasmodium and Parahaemoproteus, exhibited predominantly varying or even opposite effects on infection rates across regions, whereas climatic effects on infection rates were more consistent across realms. Moreover, infections in some low-prevalence realms were disproportionately concentrated in a few local hotspots, suggesting that regional-scale variation in habitat and microclimate might influence transmission, in addition to global drivers. Main conclusions: Our hierarchical global analysis supports regional-scale findings showing the synergistic effects of landscape, climate and host ecological traits on parasite transmission for a cosmopolitan and diverse group of avian parasites. Our results underscore the need to account for such interactions, in addition to possible variation in drivers across regions, to produce the robust inference required to predict changes in infection risk under future scenarios.

AB - Aim: Macroecological analyses provide valuable insights into factors that influence how parasites are distributed across space and among hosts. Amid large uncertainties that arise when generalizing from local and regional findings, hierarchical approaches applied to global datasets are required to determine whether drivers of parasite infection patterns vary across scales. We assessed global patterns of haemosporidian infections across a broad diversity of avian host clades and zoogeographical realms to depict hotspots of prevalence and to identify possible underlying drivers. Location: Global. Time period: 1994–2019. Major taxa studied: Avian haemosporidian parasites (genera Plasmodium, Haemoproteus, Leucocytozoon and Parahaemoproteus). Methods: We amalgamated infection data from 53,669 individual birds representing 2,445 species world-wide. Spatio-phylogenetic hierarchical Bayesian models were built to disentangle potential landscape, climatic and biotic drivers of infection probability while accounting for spatial context and avian host phylogenetic relationships. Results: Idiosyncratic responses of the three most common haemosporidian genera to climate, habitat, host relatedness and host ecological traits indicated marked variation in host infection rates from local to global scales. Notably, host ecological drivers, such as migration distance for Plasmodium and Parahaemoproteus, exhibited predominantly varying or even opposite effects on infection rates across regions, whereas climatic effects on infection rates were more consistent across realms. Moreover, infections in some low-prevalence realms were disproportionately concentrated in a few local hotspots, suggesting that regional-scale variation in habitat and microclimate might influence transmission, in addition to global drivers. Main conclusions: Our hierarchical global analysis supports regional-scale findings showing the synergistic effects of landscape, climate and host ecological traits on parasite transmission for a cosmopolitan and diverse group of avian parasites. Our results underscore the need to account for such interactions, in addition to possible variation in drivers across regions, to produce the robust inference required to predict changes in infection risk under future scenarios.

KW - Plasmodium

KW - avian malaria

KW - avian migration

KW - disease hotspot

KW - disease macroecology

KW - haemosporidian prevalence

KW - host–parasite interaction

KW - infection probability

KW - parasite macroecology

KW - spatio-phylogenetic models

UR - https://www.scopus.com/pages/publications/85114332306

U2 - 10.1111/geb.13390

DO - 10.1111/geb.13390

M3 - Article

SN - 1466-822X

VL - 30

SP - 2393

EP - 2406

JO - Global Ecology and Biogeography

JF - Global Ecology and Biogeography

IS - 12

ER -

Global drivers of avian haemosporidian infections vary across zoogeographical regions

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