26 January 2016

Migratory Birds In Decline Due To Human Impact


According to research from the University of East Anglia (UEA), migratory birds such as the wood warbler pictured above are in decline because of human impacts such as climate change and the loss of habitat. Those that are 'set in their ways' could be more vulnerable to environmental impacts than other migratory birds that have a more diverse range of winter locations to go to during their non breeding season.

New research published today reveals why some species are more vulnerable than others.

Declining Bird Population

It shows that species that migrate to a more diverse range of winter locations during their non-breeding season - such as White Storks, Marsh Harriers and Reed Warblers - are less likely to suffer population decline.

However species that tend to 'funnel' into smaller areas during the winter - such as Turtle Doves and Wood Warblers - have been more vulnerable to declining numbers, caused by human impacts.

Lead researcher Dr James Gilroy from UEA's School of Environmental Sciences said: "Birds are well-known for their remarkable long-distance migrations, often involving extreme feats of navigation and endurance. Unfortunately, many migratory birds are in decline, and there is an urgent need to understand what determines their vulnerability to human impacts.

"We wanted to know whether 'migratory diversity' - the variability of migratory behaviour within species - plays a role in determining their population trends."

The research team studied the migration patterns of 340 bird species in relation to their status across Europe over the last two decades (1990-2012).


Dr Gilroy said: "We found that the species which scatter across wider areas in the non-breeding season have been more resilient, whereas those that converge along narrower routes, and hence occupy smaller wintering areas, have been more likely to decline.

"This suggests that these species may be particularly vulnerable to impacts like habitat loss and hunting in their non-breeding ranges. Species that spread across wider wintering areas, by contrast, might have a greater chance of reaching safe habitats in at least some parts of their range."

The research team also found that species classed as 'partial migrants' - meaning that their populations include both migratory individuals and others that remain in the breeding area all year round - were less likely to decline than fully migratory species, or even those that are fully resident.

Dr Gilroy said: "Many species adopt this mixed migratory strategy, including familiar species like Blackbirds and Robins. It looks like it could make them more resilient to human impacts - even in comparison to species that don't migrate at all. Many fully resident species like Lesser-spotted Woodpeckers and Willow Tits have been showing worrying declines in recent years.

"Partially migratory species also showed a greater capacity to shift their spring arrival dates forwards in recent decades, relative to fully migratory species. This trend towards earlier spring arrival might help species adapt to climate change, by allowing them to commence breeding earlier in the year as spring temperatures rise."

Co-author Dr Aldina Franco, also from UEA's School of Environmental Sciences, said: "The fact that migratory birds are declining globally has been troubling both scientific and conservation communities.

"We hope that this research will help relevant authorities identify ways to protect the long-distance migratory species that occupy small wintering areas. These are more likely to suffer population declines and need specific conservation efforts. Species with low migratory dispersion for example would benefit from a focus on conservation within their winter locations."

This research was funded by the Natural Environment Research Council (NERC) and is part of a project to investigate the causes and consequences of partial migration on birds.

'Migratory diversity predicts population declines in birds' is published in the journal Ecology Letters on January 26, 2016.

RELATED LINKS

University of East Anglia (UEA)
Ecology Letters
Natural Environment Research Council (NERC)
Human Colonization in the Pacific Resulted in the Extinction of 1300 Bird Species
Prehistoric Shark Exhibited Migratory Spawning Behavior Similar to Salmon
Studying the Actual Size of Undersea Giants
Studying Climate Variability By Reconstructing 2500 Years Of Volcanic Activity
Fossil of Giant Camel That Lived During the Pliocene Period Found In Canada's High Arctic
Dinosaurs Survived By Shrinking
Crazy Ants Displace Fire Ants As Dominant Invasive Species
Studying Current 21st Century Patterns of a Spreading Pandemic