R.M. Erwin scite author profile

Emergence of avian influenza viruses with high lethality to humans, such as the currently circulating highly pathogenic A(H5N1) (emerged in 1996) and A(H7N9) cause serious concern for the global economic and public health sectors. Understanding the spatial and temporal interface between wild and domestic populations, from which these viruses emerge, is fundamental to taking action. This information, however, is rarely considered in influenza risk models, partly due to a lack of data. We aim to identify areas of high transmission risk between domestic poultry and wild waterfowl in China, the epicenter of both viruses. Two levels of models were developed: one that predicts hotspots of novel virus emergence between domestic and wild birds, and one that incorporates H5N1 risk factors, for which input data exists. Models were produced at 1 and 30 km spatial resolution, and two temporal seasons. Patterns of risk varied between seasons with higher risk in the northeast, central-east, and western regions of China during spring and summer, and in the central and southeastern regions during winter. Monte-Carlo uncertainty analyses indicated varying levels of model confidence, with lowest errors in the densely populated regions of eastern and southern China. Applications and limitations of the models are discussed within.

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Foraging Decisions, Patch Use, and Seasonality in Egrets (Aves: Ciconiiformes)

Erwin¹

1985

Ecology

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Feeding Snowy (Egretta thula) and Great (Casmerodius a/bus) egrets were observed during two breeding seasons in coastal New Jersey and two brief winter periods in northeast Florida. A number of tests based on assumptions of foraging models, predictions from foraging theory, and earlier empirical tests concerning time allocation and movement in foraging patches was made.Few of the expectations based on foraging theory and/or assumptions were supported by the empirical evidence. Snowy Egrets fed with greater intensity and efficiency during the breeding season (when young were being fed) than during winter. They also showed some tendency to leave patches when their capture rate declined, and they spent more time foraging in patches when other birds were present nearby. Great Egrets, in contrast, showed few of these tendencies, although they did leave patches when their intercapture intervals increased. Satiation differences had some influence on feeding rates in Snowy Egrets, but only at the end of feeding bouts.Some individuals of both species revisited areas in patches that had recently been exploited, and success rates were usually higher after the second visit. Apparently, for predators of active prey, shortterm changes in resource availability ("resource depression") may be more important than resource depletion, a common assumption in most OFT models.

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R.M. Erwin

Modeling Colony-Site Dynamics: A Case Study of Gull-Billed Terns (Sterna nilotica) in Coastal Virginia

Responses to Human Intruders by Birds Nesting in Colonies: Experimental Results and Management Guidelines

Mapping Avian Influenza Transmission Risk at the Interface of Domestic Poultry and Wild Birds

Foraging Decisions, Patch Use, and Seasonality in Egrets (Aves: Ciconiiformes)

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