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Contact: Cheryl Dybas
cdybas@nsf.gov
703-292-7734
National Science Foundation
Long-term study finds that each species plays a role in maintaining a productive ecosystem
Vegetation, such as a patch of prairie or a forest stand, is more productive in the long run when more plant species are present, results of a new study show.
The long-term study of plant biodiversity found that each species plays a role in maintaining a productive ecosystem, especially when a long time horizon is considered.
The research found that every additional species in a plot contributed to a gradual increase in both soil fertility and biomass production over a 14-year period.
This week's issue of the journal Science publishes the results. They highlight the importance of managing for diversity in prairies, forests and crops, according to Peter Reich, lead author of the paper and a forest ecologist at the University of Minnesota.
Reich and colleagues looked at how the effect of diversity on productivity of plants changed over the long-term.
Two large field experiments were conducted at the National Science Foundation's (NSF) Cedar Creek Long-Term Ecological Research (LTER) site in Minnesota, one of 26 such NSF LTER sites around the globe in ecosystems from forests to grasslands, tundra to coral reefs.
"This study reveals what short-term experiments have missed: that the effects of biodiversity loss on ecosystems are more complex, severe and unpredictable than previously thought," says Matt Kane, an NSF LTER program director.
"The work shows the importance of doing long-term research," says Kane, "in this case documenting for the first time the critical importance of biodiversity for ecosystem health and sustainability."
The biodiversity experiments at Cedar Creek are the longest-running such experiments in the world, says Reich.
They contain plots with one, four, nine or 16 different species of plants.
The research used long-lived prairie plants, but serves as a model system for all vegetation, whether prairie, forest or row crop.
The study also showed how diversity works by demonstrating that different species have different ways of acquiring water, nutrients and carbon--and maintaining them in an ecosystem.
"Prior shorter-term studies, most about two years long, found that diversity increased productivity, but that having more than six or eight species in a plot gave no additional benefit," Reich says.
The scientists found that over a 14-year time span, all 16 species in the most diverse plots contributed more and more each year to higher soil fertility and biomass production.
"The take-home message," says Reich, "is that when we reduce diversity in the landscape--think of a cornfield or a pine plantation or a suburban lawn--we are failing to capitalize on the valuable natural services that biodiversity provides."
###
Co-authors of the paper are David Tilman, Forest Isbell, Kevin Mueller, Sarah Hobbie and Nico Eisenhauer of the University of Minnesota, and Dan Flynn of the University of Zurich.
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AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
[ | E-mail | Share ]
Contact: Cheryl Dybas
cdybas@nsf.gov
703-292-7734
National Science Foundation
Long-term study finds that each species plays a role in maintaining a productive ecosystem
Vegetation, such as a patch of prairie or a forest stand, is more productive in the long run when more plant species are present, results of a new study show.
The long-term study of plant biodiversity found that each species plays a role in maintaining a productive ecosystem, especially when a long time horizon is considered.
The research found that every additional species in a plot contributed to a gradual increase in both soil fertility and biomass production over a 14-year period.
This week's issue of the journal Science publishes the results. They highlight the importance of managing for diversity in prairies, forests and crops, according to Peter Reich, lead author of the paper and a forest ecologist at the University of Minnesota.
Reich and colleagues looked at how the effect of diversity on productivity of plants changed over the long-term.
Two large field experiments were conducted at the National Science Foundation's (NSF) Cedar Creek Long-Term Ecological Research (LTER) site in Minnesota, one of 26 such NSF LTER sites around the globe in ecosystems from forests to grasslands, tundra to coral reefs.
"This study reveals what short-term experiments have missed: that the effects of biodiversity loss on ecosystems are more complex, severe and unpredictable than previously thought," says Matt Kane, an NSF LTER program director.
"The work shows the importance of doing long-term research," says Kane, "in this case documenting for the first time the critical importance of biodiversity for ecosystem health and sustainability."
The biodiversity experiments at Cedar Creek are the longest-running such experiments in the world, says Reich.
They contain plots with one, four, nine or 16 different species of plants.
The research used long-lived prairie plants, but serves as a model system for all vegetation, whether prairie, forest or row crop.
The study also showed how diversity works by demonstrating that different species have different ways of acquiring water, nutrients and carbon--and maintaining them in an ecosystem.
"Prior shorter-term studies, most about two years long, found that diversity increased productivity, but that having more than six or eight species in a plot gave no additional benefit," Reich says.
The scientists found that over a 14-year time span, all 16 species in the most diverse plots contributed more and more each year to higher soil fertility and biomass production.
"The take-home message," says Reich, "is that when we reduce diversity in the landscape--think of a cornfield or a pine plantation or a suburban lawn--we are failing to capitalize on the valuable natural services that biodiversity provides."
###
Co-authors of the paper are David Tilman, Forest Isbell, Kevin Mueller, Sarah Hobbie and Nico Eisenhauer of the University of Minnesota, and Dan Flynn of the University of Zurich.
[ | E-mail | Share ]
?
AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert! system.
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