Birds : Warming Could Benefit Some Species
Predicted changes (%) in the proportion of long- and short-distance migratory bird species in Europe. Shown are predictions for the time period 2051-2080 in relation to 1961-1990 under two different greenhouse gas emissions scenarios. One scenario assumes
Published: December 19, 2010, 12:00 am
Updated: May 7, 2012, 7:07 pm
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David Hassenzahl PhD
Birds, particularly those that fly, have a high metabolic rate that heightens their sensitivity to their immediate surroundings. As such, they have long served as bellwethers of environmental change. For example, canaries were brought into coal mines in the United Kingdom as recently as 1986 to monitor carbon monoxide and methane because the birds gave clear indications of distress — they stopped singing and fell off their perches — if these noxious gases began to accumulate.
Seasonal temperature variations influence the proportion of short- and long-distance migratory species in European bird communities. [1] Bird species that migrate only short distances must endure winter and its meager resources, whereas long-distance migratory birds escape to warmer climes. Both short and long-distance migrants benefit from the expanded resources that result from warm and early springs. In a study of birds at 21 sites across Europe, spring temperatures and the number of long-distance migratory species have increased significantly, while winter temperatures and the number of short-distance migratory species have not. [1] A computer model of bird populations, which incorporates the United Kingdom’s Hadley Centre HadCM3 climate model, predicts that the warming anticipated over the next half-century will favor long-distance migratory bird species to the detriment of short-distance migratory species.
This is an excerpt from the book Global Climate Change: Convergence of Disciplines by Dr. Arnold J. Bloom and taken from UCVerse of the University of California.
©2010 Sinauer Associates and UC Regents
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The Author
Arnold J. Bloom became a botanist through a circuitous route. Upon receiving an undergraduate degree in Physics from Yale University, he spent several years developing computer models of the spread of air pollution over cities in the USA and Germany. He received a Ph.D. in Biological Sciences from Stanford University, where he also completed a two-semester course in Environmental Legislation at the Law School. He conducted postdoctoral research on the temperature responses of plants at the ... (Full Bio)
Birds, particularly those that fly, have a high metabolic rate that heightens their sensitivity to their immediate surroundings. As such, they have long served as bellwethers of environmental change. For example, canaries were brought into coal mines in the United Kingdom as recently as 1986 to monitor carbon monoxide and methane because the birds gave clear indications of distress — they stopped singing and fell off their perches — if these noxious gases began to accumulate.
Seasonal temperature variations influence the proportion of short- and long-distance migratory species in European bird communities. [1] Bird species that migrate only short distances must endure winter and its meager resources, whereas long-distance migratory birds escape to warmer climes. Both short and long-distance migrants benefit from the expanded resources that result from warm and early springs. In a study of birds at 21 sites across Europe, spring temperatures and the number of long-distance migratory species have increased significantly, while winter temperatures and the number of short-distance migratory species have not. [1] A computer model of bird populations, which incorporates the United Kingdom’s Hadley Centre HadCM3 climate model, predicts that the warming anticipated over the next half-century will favor long-distance migratory bird species to the detriment of short-distance migratory species.
This is an excerpt from the book Global Climate Change: Convergence of Disciplines by Dr. Arnold J. Bloom and taken from UCVerse of the University of California.
©2010 Sinauer Associates and UC Regents
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