 |
|
Isolated forest patches lose species, diversity
June 12, 2009MADISON - Failing to see the forest for the trees may be causing us to overlook the declining health of Wisconsin's forest ecosystems.
Even areas with apparently robust trees and lush canopies are threatened as forests are increasingly fragmented by roads and development, becoming isolated green islands in a sea of agricultural fields, housing tracts, and strip malls, say University of Wisconsin-Madison researchers.
A new study is revealing that decades of fragmentation of Wisconsin's forests have taken a largely unseen toll on the sustainability of these natural ecosystems.
The long generation times of trees and other plants have masked many of the ecological changes already under way in the patches of forest that remain, says study co-author Don Waller, a professor in the Department of Botany and Nelson Institute for Environmental Studies at UW-Madison. "Things may look healthy, but over time we see an erosion of biodiversity," he says.
To better catalog the changes at work, he and colleagues looked beyond the trees to the forest understory - the shrubs, grasses and herbs covering the forest floor - to witness how Wisconsin's forests are really faring. Their results, published online June 8 and appearing in an upcoming issue of the journal Conservation Biology, show that fragmentation is reducing the abundance and diversity of native plants in southern Wisconsin forests.
The findings highlight the effects of increasing urban development and road density, especially in the southeastern part of the state. Land use changes have a pronounced impact on the islands of forest that remain, even when these are protected as parks or natural areas.
"These forest patches are not just losing species - their whole biological nature is changing," says David Rogers, an assistant professor of biological sciences at UW-Parkside who led the study while a UW-Madison graduate student. "Surrounding landscape factors, like urbanization and agricultural dominance, are now determining which species can survive in these little patches."
One unique quality of the current work is that it builds on a detailed trove of historical data collected throughout the state in the 1940s and 1950s by renowned UW-Madison ecologist John Curtis. More than 50 years later, Rogers and others revisited many of Curtis's sites in southern Wisconsin to see what changes time has wrought.
Though negative effects of fragmentation on biodiversity have gone largely unrecognized in the past, the impacts appear to be intensifying over time, the researchers say. Nearby cities and towns now strongly affect local woodlots, causing smaller plots in particular to lose species.
"When we isolated these forest patches 50 or 100 years ago, we were dooming species to extinction," says Waller. "It may not happen right away - and in that sense it's an 'extinction debt' - but it will accumulate over time."
They believe that isolation takes its biggest toll on forest plant diversity by cutting off routes for native plants to re-colonize areas where local populations may have disappeared. "Plant species might go locally extinct for lots of different reasons," including natural cycles of turnover, Waller says. "But typically the area will be re-colonized very soon by nearby populations of the same species. That's what does not happen once a habitat becomes isolated or that patch becomes smaller."
The connections between local plant communities and more distant landscapes have increased markedly. The bottom line is that humans appear to be having larger cumulative impacts on Wisconsin's forest communities than even ecologists previously appreciated.
This realization has important implications for how we should manage southern Wisconsin's remaining forests, Rogers says. The scientists are now working to identify the specific factors driving the observed ecological changes.
"People are a really important part of the system," Rogers says. "We are having a greater influence over our local ecology, whether we want to or not. That puts the responsibility on people to take care of it, protect it and maintain it."
University of Wisconsin-Madison
The long generation times of trees and other plants have masked many of the ecological changes already under way in the patches of forest that remain, says study co-author Don Waller, a professor in the Department of Botany and Nelson Institute for Environmental Studies at UW-Madison. "Things may look healthy, but over time we see an erosion of biodiversity," he says.
To better catalog the changes at work, he and colleagues looked beyond the trees to the forest understory - the shrubs, grasses and herbs covering the forest floor - to witness how Wisconsin's forests are really faring. Their results, published online June 8 and appearing in an upcoming issue of the journal Conservation Biology, show that fragmentation is reducing the abundance and diversity of native plants in southern Wisconsin forests.
The findings highlight the effects of increasing urban development and road density, especially in the southeastern part of the state. Land use changes have a pronounced impact on the islands of forest that remain, even when these are protected as parks or natural areas.
"These forest patches are not just losing species - their whole biological nature is changing," says David Rogers, an assistant professor of biological sciences at UW-Parkside who led the study while a UW-Madison graduate student. "Surrounding landscape factors, like urbanization and agricultural dominance, are now determining which species can survive in these little patches."
One unique quality of the current work is that it builds on a detailed trove of historical data collected throughout the state in the 1940s and 1950s by renowned UW-Madison ecologist John Curtis. More than 50 years later, Rogers and others revisited many of Curtis's sites in southern Wisconsin to see what changes time has wrought.
Though negative effects of fragmentation on biodiversity have gone largely unrecognized in the past, the impacts appear to be intensifying over time, the researchers say. Nearby cities and towns now strongly affect local woodlots, causing smaller plots in particular to lose species.
"When we isolated these forest patches 50 or 100 years ago, we were dooming species to extinction," says Waller. "It may not happen right away - and in that sense it's an 'extinction debt' - but it will accumulate over time."
They believe that isolation takes its biggest toll on forest plant diversity by cutting off routes for native plants to re-colonize areas where local populations may have disappeared. "Plant species might go locally extinct for lots of different reasons," including natural cycles of turnover, Waller says. "But typically the area will be re-colonized very soon by nearby populations of the same species. That's what does not happen once a habitat becomes isolated or that patch becomes smaller."
The connections between local plant communities and more distant landscapes have increased markedly. The bottom line is that humans appear to be having larger cumulative impacts on Wisconsin's forest communities than even ecologists previously appreciated.
This realization has important implications for how we should manage southern Wisconsin's remaining forests, Rogers says. The scientists are now working to identify the specific factors driving the observed ecological changes.
"People are a really important part of the system," Rogers says. "We are having a greater influence over our local ecology, whether we want to or not. That puts the responsibility on people to take care of it, protect it and maintain it."
University of Wisconsin-Madison
Forest Ecosystems Current Events and Forest Ecosystems News RSSCoral reefs inspire rare consensus -- just save them
One of the first set of studies to examine what tourists and recreation enthusiasts actually think about coral reef ecosystems suggests they are a rare exception to controversies over human use versus environmental conservation - their stunning beauty is so extraordinary that almost everyone wants them protected in perpetuity.
Loss of top predators causing surge in smaller predators, ecosystem collapse
The catastrophic decline around the world of "apex" predators such as wolves, cougars, lions or sharks has led to a huge increase in smaller "mesopredators" that are causing major economic and ecological disruptions, a new study concludes.
Scientists say climate change mitigation strategies ignore carbon cycling processes of inland waters
In the paper, The Boundless Carbon Cycle, published in the September issue of Nature Geoscience, scientists from the University of Vienna, Uppsala University in Sweden, University of Antwerp, and the U.S. based Stroud™ Water Research Center argue that current international strategies to mitigate manmade carbon emissions and address climate change have overlooked a critical player - inland waters.
Wolf reintroduction proposed in Scottish Highland test case
Researchers are proposing in a new report that a major experiment be conducted to reintroduce wolves to a test site in the Scottish Highlands, to help control the populations and behavior of red deer that in the past 250 years have changed the whole nature of large ecosystems.
Forest fire prevention efforts will lessen carbon sequestration, add to greenhouse warming
Widely sought efforts to reduce fuels that increase catastrophic fire in Pacific Northwest forests will be counterproductive to another important societal goal of sequestering carbon to help offset global warming.
Yale study: Most polluted ecosystems recoverable
Most polluted or damaged ecosystems worldwide can recover within a lifetime if societies commit to their cleanup or restoration, according to an analysis of 240 independent studies by researchers at the Yale School of Forestry & Environmental Studies.
Scientist Names Top Five Invasive Plants Threatening Southern Forests in 2009
U.S. Forest Service Southern Research Station (SRS) Ecologist Jim Miller, Ph.D., one of the foremost authorities on nonnative plants in the South, today identified the invasive plant species he believes pose the biggest threats to southern forest ecosystems in 2009.
Study helps clarify role of soil microbes in global warming
Current models of global climate change predict warmer temperatures will increase the rate that bacteria and other microbes decompose soil organic matter, a scenario that pumps even more heat-trapping carbon into the atmosphere.
Forest peoples' rights key to reducing emissions from deforestation
Unless based on respect for the rights of indigenous peoples and forest communities, efforts by rich countries to combat climate change by funding reductions in deforestation in developing countries will fail, and could even unleash a devastating wave of forest loss, cultural destruction and civil conflict, warned a leading group of forestry and development experts meeting in Oslo this week.
Scripps study sets high economic value on threatened Mexican mangroves
The ecological value of coastal mangrove forests in Mexico has been apparent to marine scientists for years. Now, for the first time, researchers have used a wide-ranging compilation of fisheries landings, the official record of fish catches, to place an economic price tag on that value.
More Forest Ecosystems Current Events and Forest Ecosystems News Articles
 |
Forest Ecosystems by David A. Perry (Author), Ram Oren (Author), Stephen C. Hart (Author) This acclaimed textbook is the most comprehensive available in the field of forest ecology. Designed for advanced students of forest science, ecology, and environmental studies, it is also an essential reference for forest ecologists, foresters, and land managers. The authors provide an inclusive survey of boreal, temperate, and tropical forests with an emphasis on ecological concepts across scales that range from global to landscape to microscopic. Situating forests in the context of larger landscapes, they reveal the complex patterns and processes observed in tree-dominated habitats. The updated and expanded second edition covers • Conservation• Ecosystem services • Climate change• Vegetation classification• Disturbance• Species interactions•... |
 |
Forest Ecosystems, Third Edition: Analysis at Multiple Scales by Richard H. Waring B.S. 1957 Forestry University of Minnesota St. Paul MN M.S. 1959 Forestry (Botany) University of Minnesota Ph.D. 1963 Botany (Soils) University of California Berkeley (Author), Steven W. Running (Author) This revision maintains the position of Forest Ecosystems as the one source for the latest information on the advanced methods that have enhanced our understating of forest ecosystems. Further understanding is given to techniques to explore the changes in climatic cycles, the implications of wide-scale pollution, fire and other ecological disturbances that have a global effect. The inclusion of models, equations, graphs, and tabular examples provides readers with a full understanding of the methods and techniques. * Includes a revised section on important advances in regional scale analyses * Features an update to global scale analyses including revised color images * Provides a detailed comparison of predicted vs. observed... |
 |
Introduction to Forest Ecosystem Science and Management by Raymond A. Young (Editor), Ronald L. Giese (Editor) Conveying the wide-ranging scope of forestry and the great challenges that lie ahead, this Third Edition brings together leading forestry experts and gives readers a broad overview of the field. Coverage ranges from the basic cell, individual trees, and the forest stand, to management of the forest stand and acquisition of goods and services from the forest. |
|
All About Forest Ecosystems Ecosystems for Children Schlessinger Science Library | |
 |
Saving Forest Ecosystems DVD Starring: Artist Not Provided The practice of clear-cutting forests removes not only all of the trees, but also the ground cover and the animals that live there. |
 |
Carbon Sequestration in Forest Ecosystems by Klaus Lorenz (Author), Rattan Lal (Author) Carbon Sequestration in Forest Ecosystems is a comprehensive book describing the basic processes of carbon dynamics in forest ecosystems, their contribution to carbon sequestration and implications for mitigating abrupt climate change. This book provides the information on processes, factors and causes influencing carbon sequestration in forest ecosystems. Drawing upon most up-to-date references, this book summarizes the current understanding of carbon sequestration processes in forest ecosystems while identifying knowledge gaps for future research, Thus, this book is a valuable knowledge source for students, scientists, forest managers and policy makers. |
 |
Discoveries:Forest Ecosystem by Sunburst SUNBURST T03842 DISCOVERIES: EXPLORE THE FOREST ECOSYSTEM LAB PACK (10) |
|
Jeff Corwin Experience: South America: A Rain Forest Ecosystem DVD by Discovery Education Jeff explores the fabled Zancudo Coch (Mosquito Lake) region of this South American republic. | |
 |
The Hidden Forest: The Biography of an Ecosystem by Jon R. Luoma (Author), Jerry Franklin (Foreword) A masterful work of natural history points the way to a new conservation model. From the leaves at the top of the canopy to the insects living deep beneath the soil, a forest is a complete, unified ecosystem. Each event, from the growth of a single sapling to a cataclysmic fire, is critical to the life of the forest as organism. Veteran science writer Luoma here chronicles the work of a unique and fascinating scientific research project that, over the course of several decades, will bring together scientists from almost every discipline-botanists, entomologists, wildlife ecologists, soil biologists, etc.-to piece together the long-term natural history of a single forest ecosystem, in this case a majestic old-growth forest of the Pacific Northwest. What emerges is a... |
|
The Vegetation Starring: Ron Hamill, Christiana Dene-Lambert Directed By: Kevin Glover |
| © 2009 BrightSurf.com |