Over the past few millennia, human-caused habitat change has had one of the most profound effects on bird populations globally, especially since industrialization in the 1800s. Looking forward, we can expect human-caused habitat loss to represent the greatest threat to many North American breeding birds. The problem will be most severe on their wintering grounds, according to a new study published today in the journal Global Change Biology by a international research team including representatives from the Cornell Lab, Environment and Climate Change Canada, and VU University Amsterdam. By the end of this century, the study’s authors say predicted changes in rainfall and temperature will compound the problem for birds that breed in eastern North America and winter in Central America. The data source for this research? Your eBird checklists.
The wintering grounds for migratory species are vitally important because the birds spend a greater proportion of the year in these places.“This is really the first study to measure the combined impact of climate change and land-use change over a bird’s full annual cycle,” says lead author Frank La Sorte at the Cornell Lab of Ornithology. “Typically, studies tend to focus on the breeding season. If you do that, you’re missing the real story which is inherently dynamic and complex.”
“We found the species we studied spend up to 60 percent of the year on their wintering grounds in Central America, where they occur in higher numbers and densities,” says La Sorte. “That means more individuals of more species are likely to be exposed over a longer period of time to habitat loss as people continue to convert forests to cropland or grassland.”
The scientists ran dozens of scenarios to predict what the future might look like for 21 species, most of them flycatchers, vireos, and warblers. They used checklists that volunteers entered into eBird from 2004 through 2014 to establish where and in what density the species are found throughout the year. Then, they layered in modeled climate change projections (temperature and rainfall) and habitat data (land-use changes and the location of protected areas).
The study finds loss of wintering habitat in the near future will likely be magnified by the long-term effects of climate change. By the end of this century the study species are expected to encounter several significant changes:
- Greater warming on the northern breeding grounds and during autumn migrations—a surface temperature increase of about 9°F (5°C) with uncertain consequences for breeding and migration success; a smaller increase of about 5.4°F (3°C) is projected for their wintering grounds.
- Less rain on the nonbreeding grounds: a projected decline of 20% or more during the summer would reduce available habitat and food for birds arriving after fall migration.
- More rain on the breeding grounds, nearly 25% more during the winter on their breeding grounds. This could enhance vegetation growth and increase insect densities for returning spring migrants—a positive trend if the birds arrive at the right time.
By examining the birds’ full life cycle, La Sorte points out, we learn that birds face a host of challenges all year long—and the intensity of those challenges shifts, depending on whether the birds are breeding, wintering, or migrating. Short-term conservation action will be most effective if it’s targeted to the times and places birds face their biggest threats. Knowing what may lie ahead in the long term underscores the need for action right now to offset the impact of climate change.
“Human activities are placing pressure on bird populations from many different angles at varying intensities,” says La Sorte. “Birds are responding with tools designed to function under gradual environmental change—but how effective this will be under rapid change occurring from many different sources is not well understood.”
Reference:
La Sorte, F.A., D. Fink, P.J. Blancher, A.D. Rodewald, V.R. Gutierrez, K.V. Rosenberg, W.M. Hochachka, P.H. Verburg, and S. Kelling. 2017. Global change and the distributional dynamics of migratory bird populations wintering in Central America. Global Change Biology. July 2017.
Originally published on eBird.
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