Bird migration and avian influenza: A comparison of hydrogen stable isotopes and satellite tracking methods

Bridge, Eli S.; Kelly, Jeffrey F.; Xiao, Xiangming; Takekawa, John Y.; Hill, Nichola J.; Yamage, Mat; Haque, Enam Ul; Islam, Mohammad Anwarul; Mundkur, Taej; Erciyas-Yavuz, Kiraz; Leader, Paul J.; Leung, Connie Y. H.; Smith, Bena; Spragens, Kyle A.; Vandegrift, Kurt J.; Hosseini, Parviez R.; Saif, Samia; Mohsanin, Samiul; Mikolon, Andrea; Islam, A M Khairul; George, Acty; Balachandran, S; Daszak, Peter; Newman, Scott H.

doi:10.1016/j.ecolind.2014.04.027

Cited by 23 publications

(20 citation statements)

References 57 publications

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“…An alternate approach is to derive a feather δ 2 H isoscape directly by collecting feathers from known origins across the continent [17, 13], but little direct information exists about the stable isotope distribution in feathers along the Afrotropical areas. Feather δ 2 H isoscapes created using ground-truthed rescaling functions are therefore required to improve assignment accuracy in these areas [18, 19]. In Africa, widespread feather sampling is logistically extremely difficult but museum collections can be used as a source of feather samples at a continental scale.…”

Section: Introductionmentioning

confidence: 99%

Toward a Deuterium Feather Isoscape for Sub-Saharan Africa: Progress, Challenges and the Path Ahead

et al. 2015

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A key challenge to the application of continent-wide feather isoscapes for geographic assignment of migrant birds is the lack of ground-truthed samples. This is especially true for long-distance Palearctic-Afrotropical migrants. We used spatially-explicit information on the δ 2H composition of archived feathers from Green-backed/Grey-backed Camaroptera, to create a feather δ 2H isoscape for sub-Saharan Africa. We sampled from 34 out of 41 sub-Saharan countries, totaling 205 sampling localities. Feather samples were obtained from museum collections (n = 224, from 1950 to 2014) for δ 2H assay. Region, altitude, annual rainfall and seasonal patterns in precipitation were revealed as relevant explanatory variables for spatial patterns in feather δ 2H. Predicted feather δ 2H values ranged from -4.0 ‰ to -63.3 ‰, with higher values observed in the Great Rift Valley and South Africa, and lower values in central Africa. Our feather isoscape differed from that modelled previously using a precipitation δ 2H isoscape and an assumed feather-to-precipitation calibration, but the relatively low model goodness fit (F10,213 = 5.98, p<0.001, R2 = 0.18) suggests that other, non-controlled variables might be driving observed geographic patterns in feather δ 2H values. Additional ground-truthing studies are therefore recommended to improve the accuracy of the African feather δ 2H isoscape.

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Section: Introductionmentioning

confidence: 99%

Toward a Deuterium Feather Isoscape for Sub-Saharan Africa: Progress, Challenges and the Path Ahead

et al. 2015

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“…Understanding how different regional breeding populations may intermingle during the migratory or wintering phases of their annual cycle can help prioritize conservation efforts and can inform continental-scale studies of disease transmission (Faaborg et al . 2010; Bridge et al . 2014; Runge et al .…”

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confidence: 99%

Stable Isotopes Suggest Low Site Fidelity in Bar-Headed Geese (Anser indicus) in Mongolia: Implications for Disease Transmission

et al. 2015

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Population connectivity is an important consideration in studies of disease transmission and biological conservation, especially with regard to migratory species. Determining how and when different subpopulations intermingle during different phases of the annual cycle can help identify important geographical regions or features as targets for conservation efforts and can help inform our understanding of continental-scale disease transmission. In this study, stable isotopes of hydrogen and carbon in contour feathers were used to assess the degree of molt-site fidelity among Bar-headed Geese (Anser indicus) captured in north-central Mongolia. Samples were collected from actively molting Bar-headed Geese (n = 61), and some individual samples included both a newly grown feather (still in sheath) and an old, worn feather from the bird’s previous molt (n = 21). Although there was no difference in mean hydrogen isotope ratios for the old and new feathers, the isotopic variance in old feathers was approximately three times higher than that of the new feathers, which suggests that these birds use different and geographically distant molting locations from year to year. To further test this conclusion, online data and modeling tools from the isoMAP website were used to generate probability landscapes for the origin of each feather. Likely molting locations were much more widespread for old feathers than for new feathers, which supports the prospect of low molt-site fidelity. This finding indicates that population connectivity would be greater than expected based on data from a single annual cycle, and that disease spread can be rapid even in areas like Mongolia where Bar-headed Geese generally breed in small isolated groups.

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“…In emergency outbreak situations, decisions and strategies must be developed and implemented rapidly; band‐recovery data were an easily accessible resource that could be integrated into a targeted sampling strategy that could be deployed quickly. A number of studies (Bridge et al., ; Gunnarsson et al., ) have employed satellite telemetry, genetics and stable isotopes to link waterfowl movement with large‐scale spatial and temporal distributions of avian influenza viruses. While excellent tools for research, these techniques are not always feasible to rapidly inform emergency‐response situations because they provide information after sampling has taken place rather than guiding sampling in the beginning.…”

Section: Discussionmentioning

confidence: 99%

“…In emergency outbreak situations, decisions and strategies must be developed and implemented rapidly; band-recovery data were an easily accessible resource that could be integrated into a targeted sampling strategy that could be deployed quickly. A number of studies (Bridge et al, 2014;Gunnarsson et al, 2012) 2009), and (c) incorporating more rigorous estimators into the predictive modelling process (e.g., Buhnerkempe et al, 2016).…”

Section: Discussionmentioning

confidence: 99%

Predicting the initial spread of novel Asian origin influenza A viruses in the continental USA by wild waterfowl

Franklin

Bevins

Ellis

et al. 2018

Transbound Emerg Dis

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Summary Using data on waterfowl band recoveries, we identified spatially explicit hotspots of concentrated waterfowl movement to predict occurrence and spatial spread of a novel influenza A virus (clade 2.3.4.4) introduced from Asia by waterfowl from an initial outbreak in North America in November 2014. In response to the outbreak, the hotspots of waterfowl movement were used to help guide sampling for clade 2.3.4.4 viruses in waterfowl as an early warning for the US poultry industry during the outbreak . After surveillance sampling of waterfowl, we tested whether there was greater detection of clade 2.3.4.4 viruses inside hotspots. We found that hotspots defined using kernel density estimates of waterfowl band recoveries worked well in predicting areas with higher prevalence of the viruses in waterfowl. This approach exemplifies the value of ecological knowledge in predicting risk to agricultural security.

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Bird migration and avian influenza: A comparison of hydrogen stable isotopes and satellite tracking methods

Cited by 23 publications

References 57 publications

Toward a Deuterium Feather Isoscape for Sub-Saharan Africa: Progress, Challenges and the Path Ahead

Toward a Deuterium Feather Isoscape for Sub-Saharan Africa: Progress, Challenges and the Path Ahead

Stable Isotopes Suggest Low Site Fidelity in Bar-Headed Geese (Anser indicus) in Mongolia: Implications for Disease Transmission

Predicting the initial spread of novel Asian origin influenza A viruses in the continental USA by wild waterfowl

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