 |
|
Alpine rivers hold important clues for preserving biodiversity and coping with climate change
November 18, 2008Marginal plants, particularly trees, play a crucial role in sustaining the biodiversity of Europe's big river systems, according to a recently held workshop organised by the European Science Foundation (ESF). This finding provides important clues for protecting Europe's rivers against a combined onslaught from human development and climate change, which are tampering with existing ecosystems and changing both the physical and biological forces acting upon them.
Both aquatic plants (living in rivers) and, more importantly, riparian ones (growing along the banks and on islands) play critical roles in building and sustaining habitats for colonisation by other species, and in the chemical and biochemical processes that keep rivers and their ecosystems healthy, according to Professor Angela Gurnell, convenor of the ESF workshop and director of the Centre for Environmental Assessment, Management and Policy at King's College, London.
Gurnell described some plant species as "ecosystem engineers" marshalling habitat development and maintenance. Furthermore, ecosystem engineering by plants operates at many different spatial scales, and in different ways along rivers from their source to mouth. But the vegetation itself is part of the habitat it supports and so vulnerable to the same forces, with the potential for tipping whole ecosystems into new states when certain thresholds are breached, for example as a result of a slight change in climate or river flows.
"Vegetation-physical process interactions are highly complex and are subject to distinct thresholds across which massive shifts in system condition can occur," said Gurnell. "Threshold crossing can be driven by both physical and biological processes and is particularly susceptible to changes in climate, river flow and channel management."
The ESF workshop focused on Alpine systems because most of Europe's largest rivers, including the Rhine, Rhone and Danube have their source in the Alps. Alpine rivers receive a significant part of their flow from snow and ice melt and so are particularly sensitive to climate change, but these rivers also embrace ecosystems and conditions that are found widely in other European rivers.
The ESF workshop heralded an important step forward for the field of modelling the complex physical and chemical processes of river ecosystems, by taking account of the vegetation's role not just as a guardian of habitats but also in modulating water flow and sediment movements. A full understanding of river habitats therefore requires these effects to be incorporated in the models used to analyse them and predict response to forcing factors such as climate change.
"Complex river channel patterns, including a wide variety of vegetated and unvegetated landforms, induce complex flow patterns at the surface and subsurface driving a range of hydraulic 'patches', which change their hydraulic properties and also connect and disconnect at different flow stages," said Gurnell.. "It is crucial to develop models that represent this hydraulic patchiness and its dynamics under changing river levels, whether through detailed numerical approaches or more aggregated statistical approaches, because these make it possible to define the range of hydraulic conditions available to aquatic organisms within different river settings."
Rivers and their ecosystems, apart from being crucial for human survival in many parts of the world, also make fascinating studies in their own right. Rivers are connected systems, not only because water, sediment and organisms move between upstream and downstream reaches, but also because the faster flowing and deeper middle of the river is linked to the edges where the water may move quite slowly, and also to flood plains during flood events. An important aspect of river modelling therefore lies in defining the major associations between physical patterns of flow, sediment and landforms, how organisms and ecosystems relate to them, and how both may change when threshold conditions are reached. Achieving this in turn relies on synergy between numerical models and experiments or observations both in the laboratory and in the field.
A major objective is then to apply this work firstly to develop tools that can help to identify the best ways of managing rivers. "Colleagues in mainland Europe have been developing ideas of 'channel-widening' with managers, whereby the river is given more space to adjust its morphology (structure) in a dynamic way within reaches where space can be made available for this," said Gurnell. The idea here is to reconnect river ecosystems with the banks and even floodplains in cases where space is available but past management has severed such links. However, it is also important that river flows can sustain the widening and that this process is applied at different sites along rivers to maintain upstream to downstream connections between affected sites if sustainable benefits to the river ecosystem are to be achieved.
European Science Foundation
"Vegetation-physical process interactions are highly complex and are subject to distinct thresholds across which massive shifts in system condition can occur," said Gurnell. "Threshold crossing can be driven by both physical and biological processes and is particularly susceptible to changes in climate, river flow and channel management."
The ESF workshop focused on Alpine systems because most of Europe's largest rivers, including the Rhine, Rhone and Danube have their source in the Alps. Alpine rivers receive a significant part of their flow from snow and ice melt and so are particularly sensitive to climate change, but these rivers also embrace ecosystems and conditions that are found widely in other European rivers.
The ESF workshop heralded an important step forward for the field of modelling the complex physical and chemical processes of river ecosystems, by taking account of the vegetation's role not just as a guardian of habitats but also in modulating water flow and sediment movements. A full understanding of river habitats therefore requires these effects to be incorporated in the models used to analyse them and predict response to forcing factors such as climate change.
"Complex river channel patterns, including a wide variety of vegetated and unvegetated landforms, induce complex flow patterns at the surface and subsurface driving a range of hydraulic 'patches', which change their hydraulic properties and also connect and disconnect at different flow stages," said Gurnell.. "It is crucial to develop models that represent this hydraulic patchiness and its dynamics under changing river levels, whether through detailed numerical approaches or more aggregated statistical approaches, because these make it possible to define the range of hydraulic conditions available to aquatic organisms within different river settings."
Rivers and their ecosystems, apart from being crucial for human survival in many parts of the world, also make fascinating studies in their own right. Rivers are connected systems, not only because water, sediment and organisms move between upstream and downstream reaches, but also because the faster flowing and deeper middle of the river is linked to the edges where the water may move quite slowly, and also to flood plains during flood events. An important aspect of river modelling therefore lies in defining the major associations between physical patterns of flow, sediment and landforms, how organisms and ecosystems relate to them, and how both may change when threshold conditions are reached. Achieving this in turn relies on synergy between numerical models and experiments or observations both in the laboratory and in the field.
A major objective is then to apply this work firstly to develop tools that can help to identify the best ways of managing rivers. "Colleagues in mainland Europe have been developing ideas of 'channel-widening' with managers, whereby the river is given more space to adjust its morphology (structure) in a dynamic way within reaches where space can be made available for this," said Gurnell. The idea here is to reconnect river ecosystems with the banks and even floodplains in cases where space is available but past management has severed such links. However, it is also important that river flows can sustain the widening and that this process is applied at different sites along rivers to maintain upstream to downstream connections between affected sites if sustainable benefits to the river ecosystem are to be achieved.
European Science Foundation
Biodiversity Current Events and Biodiversity News RSSDNA barcodes: Creative new uses span health, fraud, smuggling, history, more
The scientific ability to quickly and accurately identify species through DNA "barcoding" is being embraced and applied by a growing legion of global authorities - from medical and agricultural researchers to police and customs authorities to palaeontologists and others.
Researchers Hail Innovative Plan to Save Rainforest, Reduce Greenhouse Gas Emissions
An innovative proposal by the Ecuadorian government to protect an untouched, oil rich region of Amazon rainforest is a precedent-setting and potentially economically viable approach, says a team of environmental researchers from the University of Maryland, the World Resources Institute and Save America's Forests.
Wolves, moose and biodiversity: An unexpected connection
Moose eat plants; wolves kill moose. What difference does this classic predator-prey interaction make to biodiversity?
World interest in Australian fishery impact test
An Australian method for assessing the environmental impact of marine fisheries has caught the eye of fishery management agencies worldwide.
Charles Darwin really did have advanced ideas about the origin of life
When Charles Darwin published The Origin of Species 150 years ago, he deliberately avoided the subject of the origin of life.
Modified crops reveal hidden cost of resistance
Genetically modified squash plants that are resistant to a debilitating viral disease become more vulnerable to a fatal bacterial infection, according to biologists.
Scientists discover largest orb-weaving spider
Researchers from the United States and Slovenia have discovered a new, giant Nephila species (golden orb weaver spider) from Africa and Madagascar and have published their findings in the Oct. 21 issue of the journal PLoS ONE.
Do 3 meals a day keep fungi away?
The fact that they eat a lot - and often - may explain why most people and other mammals are protected from the majority of fungal pathogens, according to research from Albert Einstein College of Medicine of Yeshiva University.
Global Seed Banking Milestone Celebrated by Wildflower Center, 122 Other Organizations
An international partnership of 54 countries led by the United Kingdom's Royal Botanic Gardens, Kew is celebrating a decade of work to set aside seeds for future generations from 10 percent of the world's wild flowering species.
What are coral reef services worth? $130,000 to $1.2 million per hectare, per year: experts
Experts concluding the global DIVERSITAS biodiversity conference today in Cape Town described preliminary research revealing jaw-dropping dollar values of the "ecosystem services" of biomes like forests and coral reefs - including food, pollution treatment and climate regulation.
More Biodiversity Current Events and Biodiversity News Articles
 |
What Is Biodiversity? by James Maclaurin (Author), Kim Sterelny (Author) In the life sciences, there is wide-ranging debate about biodiversity. While nearly everyone is in favor of biodiversity and its conservation, methods for its assessment vary enormously. So what exactly is biodiversity? Most theoretical work on the subject assumes it has something to do with species richness—with the number of species in a particular region—but in reality, it is much more than that. Arguing that we cannot make rational decisions about what it is to be protected without knowing what biodiversity is, James Maclaurin and Kim Sterelny offer in What Is Biodiversity? a theoretical and conceptual exploration of the biological world and how diversity is valued. Here, Maclaurin and Sterelny explore not only the origins of the concept of biodiversity, but also how that... |
 |
Sustaining Life: How Human Health Depends on Biodiversity by Eric Chivian (Editor), Aaron Bernstein (Editor) The Earth's biodiversity-the rich variety of life on our planet-is disappearing at an alarming rate. And while many books have focused on the expected ecological consequences, or on the aesthetic, ethical, sociological, or economic dimensions of this loss, Sustaining Life is the first book to examine the full range of potential threats that diminishing biodiversity poses to human health. Edited and written by Harvard Medical School physicians Eric Chivian and Aaron Bernstein, along with more than 100 leading scientists who contributed to writing and reviewing the book, Sustaining Life presents a comprehensive--and sobering--view of how human medicines, biomedical research, the emergence and spread of infectious diseases, and the production of food, both on land and in the... |
 |
Biodiversity (Papers from the 1st National Forum on Biodiversity, September 1986, Washington, D.C.) by Edward O. Wilson (Editor), Frances M. Peter (Editor) This book calls attention to a most urgent global problem: the rapidly accelerating loss of plant and animal species to increasing human population pressure and the demands of economic development. Biodiversity creates a systematic framework for analyzing the problem and searching for possible solutions. |
 |
Biodiversity: An Introduction by Kevin J. Gaston (Author), John I. Spicer (Author) CLICK HERE TO DOWNLOAD ARTWORK This concise introductory text provides a complete overview of biodiversity - what it is, how it arose, its distribution, why it is important, human impact upon it, and what should be done to maintain it. |
 |
Understanding Biodiversity DVD Starring: Artist Not Provided Earth teems with a variety of life-forms. Each species occupies a hard-won niche and serves as an integral part of the whole. Explore how each species is important to the entire environment. Award Winner: Outdoor Writers Association of America"Certificate of Merit" |
 |
Biodiversity by Dorothy Hinshaw Patent (Author), William Munoz (Illustrator) A photo essay demonstrating the concept of biodiversity, a term used to encompass the many forms of life on Earth and their interdependence on one another for survival. The reader not only gets a firm grasp of what biodiversity is, but also an explanation of why it is important to maintain. |
 |
Climate Change and Biodiversity by Thomas E. Lovejoy (Editor), Lee Hannah (Editor) Leading researchers discuss what is now known about the effects of climate change on the natural world. They examine recent trends in and projections about climate change; ways that particular organisms are responding to climate change; conservation challenges, including social and policy issues; and more. "This book will be a milestone in the emerging discipline of climate change biology. No issue is more important for the global environment; the impressive line-up of experts here gives it definitive coverage."—Edward O. Wilson, Harvard University "A well-written treatise on the past, present, and future effects of climate change on plant and animal biodiversity. . . . It is destined to become a classic."—Choice |
|
Back Issue - Sawawak Biodiversity Centre by Sawawak Biodiversity Univ | |
 |
The Biodiversity Crisis: Losing What Counts (American Museum of Natural History Books) by American Museum of Natural History (Compiler), American Museum of Natural History (Compiler), Michael J. Novacek (Compiler) The fastest mass extinction of species in Earth's history, intriguingly explored in an illustrated companion to the American Museum of Natural History's permanent exhibit. The Biodiversity Crisis offers general audiences a clear understanding of the current threat to life on Earth posed by the fastest mass extinction in Earth's history, which has taken place over the last five hundred years. Unlike prior extinctions, this one is clearly a direct result of human activity, not of natural phenomena. Yet the public remains unaware of the crisis in sustaining biodiversity—the variety and interdependence of all living things on Earth. Published in conjunction with the American Museum of Natural History, whose major Hall of Biodiversity recently opened to great acclaim, the book defines... |
 |
Tree of Life: The Incredible Biodiversity of Life on Earth (CitizenKid) by Rochelle Strauss (Author), Margot Thompson (Illustrator) If every known species on Earth were a leaf on a tree, that tree would have 1 750 000 leaves. Since humans count for just one leaf on the tree, we have a lot to learn about the millions of other forms of life with which we share the world. A dazzlingly illustrated and child-friendly introduction to biodiversity, Tree of Life shows how living things are classified into five kingdoms -- and how each has much to tell us about all aspects of life on our planet. |
| © 2009 BrightSurf.com |