 |
|
Scientists find new clues to explain Amazonian biodiversity
July 23, 2008AUSTIN, TEXAS-Ice age climate change and ancient flooding-but not barriers created by rivers-may have promoted the evolution of new insect species in the Amazon region of South America, a new study suggests.
The Amazon basin is home to the richest diversity of life on earth, yet the reasons why this came to be are not well understood.
A team of American and Brazilian researchers, led by former graduate student Dr. Scott Solomon of The University of Texas at Austin, studied three species of leafcutter ants from Central and South America to determine how geography and climate affect the formation of new species.
Their results will be published July 23 in the journal PLoS ONE.
In order to evaluate the three most popular hypotheses as to why there's such a diversity of species in the Amazon, Solomon collected genetic samples from 194 leafcutter ant colonies scattered throughout the Amazon basin.
"Scott is the first to thoroughly test the importance of geographic barriers for the origin of insect biodiversity in South America, using the leafcutter ants as a model system," says study co-author Ulrich Mueller, the W.M. Wheeler Lost Pines Professor of Integrative Biology and Solomon's graduate adviser. "He's following in the footsteps of Alfred Wallace, the pioneering naturalist who, along with Darwin, first noted that many species are found in geographic proximity to closely related species."
By combining analysis of the genetic information with knowledge of the species' current ranges and "paleodistribution" models of what the species' ranges were during the last ice age, Solomon, Mueller and their colleagues found support for both the "Pleistocene refugia hypothesis" and the "marine incursion hypothesis."
The genetic and the climatic results, however, both suggested that the "riverine barrier hypothesis" cannot explain insect biodiversity.
The "Pleistocene refugia hypothesis" posits that a major decrease in rainfall during the last ice age (about 21,000 years ago) affected where many Amazonian species, such as leafcutter ants, were able to survive. What was initially a single species would evolve into multiple, distinct species after being separated into isolated "refugia," each with its own set of selective environmental pressures.
The "marine incursion hypothesis" suggests that some 10-15 million years ago, a combination of tectonic events and elevated sea levels flooded much of the Amazon Basin in salty or brackish water. This would have caused higher elevation regions, like the slopes of the Andes Mountains, to become like islands, in which species were able to evolve independently from species on other "islands."
The "riverine barrier hypothesis" suggests that tropical rivers serve as barriers to gene flow for terrestrial organisms. These rivers, which are wide and numerous in Amazonia, would promote divergence of populations restricted to either side.
According to the study, however, even the Amazon river-which at places is nearly two miles wide-has not kept winged leafcutter ant queens and males from flying across it.
"It is interesting that Amazonian rivers acts as barriers to some birds, but these ants are apparently able to cross them," says Solomon.
The results, says Mueller, don't resolve all the mysteries of tropical biodiversity. It's possible, for instance, that both ancient flooding of the Amazon basin as well as more recent, ice age climate change contributed to speciation, and even both factors don't explain why tropical insect diversity exceeds temperate insect diversity by so much.
"The results don't solve the great puzzle of why tropical insect diversity exceeds temperate insect diversity by several orders of magnitude," says Mueller, "but they are significant, and they point to some key processes that other researchers will now test also on other organisms."
University of Texas at Austin
Their results will be published July 23 in the journal PLoS ONE.
In order to evaluate the three most popular hypotheses as to why there's such a diversity of species in the Amazon, Solomon collected genetic samples from 194 leafcutter ant colonies scattered throughout the Amazon basin.
"Scott is the first to thoroughly test the importance of geographic barriers for the origin of insect biodiversity in South America, using the leafcutter ants as a model system," says study co-author Ulrich Mueller, the W.M. Wheeler Lost Pines Professor of Integrative Biology and Solomon's graduate adviser. "He's following in the footsteps of Alfred Wallace, the pioneering naturalist who, along with Darwin, first noted that many species are found in geographic proximity to closely related species."
By combining analysis of the genetic information with knowledge of the species' current ranges and "paleodistribution" models of what the species' ranges were during the last ice age, Solomon, Mueller and their colleagues found support for both the "Pleistocene refugia hypothesis" and the "marine incursion hypothesis."
The genetic and the climatic results, however, both suggested that the "riverine barrier hypothesis" cannot explain insect biodiversity.
The "Pleistocene refugia hypothesis" posits that a major decrease in rainfall during the last ice age (about 21,000 years ago) affected where many Amazonian species, such as leafcutter ants, were able to survive. What was initially a single species would evolve into multiple, distinct species after being separated into isolated "refugia," each with its own set of selective environmental pressures.
The "marine incursion hypothesis" suggests that some 10-15 million years ago, a combination of tectonic events and elevated sea levels flooded much of the Amazon Basin in salty or brackish water. This would have caused higher elevation regions, like the slopes of the Andes Mountains, to become like islands, in which species were able to evolve independently from species on other "islands."
The "riverine barrier hypothesis" suggests that tropical rivers serve as barriers to gene flow for terrestrial organisms. These rivers, which are wide and numerous in Amazonia, would promote divergence of populations restricted to either side.
According to the study, however, even the Amazon river-which at places is nearly two miles wide-has not kept winged leafcutter ant queens and males from flying across it.
"It is interesting that Amazonian rivers acts as barriers to some birds, but these ants are apparently able to cross them," says Solomon.
The results, says Mueller, don't resolve all the mysteries of tropical biodiversity. It's possible, for instance, that both ancient flooding of the Amazon basin as well as more recent, ice age climate change contributed to speciation, and even both factors don't explain why tropical insect diversity exceeds temperate insect diversity by so much.
"The results don't solve the great puzzle of why tropical insect diversity exceeds temperate insect diversity by several orders of magnitude," says Mueller, "but they are significant, and they point to some key processes that other researchers will now test also on other organisms."
University of Texas at Austin
Biodiversity Current Events and Biodiversity News RSSNew chameleon species discovered in East Africa
Dr Andrew Marshall, from the Environment Department at the University of York, first spotted the animal while surveying monkeys in the Magombera Forest when he disturbed a twig snake eating one.
Beyond sunlight: Explorers census 17,650 ocean species between edge of darkness and black abyss
Census of Marine Life scientists have inventoried an astonishing abundance, diversity and distribution of deep sea species that have never known sunlight - creatures that somehow manage a living in a frigid black world down to 5,000 meters (~3 miles) below the ocean waves.
Smithsonian scientists find the frog legs trade may facilitate spread of pathogens
Most countries throughout the world participate in the $40-million-per-year culinary trade of frog legs in some way, with 75 percent of frog legs consumed in France, Belgium and the United States.
TEEB report released on the economics of ecosystems and biodiversity for policy makers
Policy makers who factor the planet's multi-trillion dollar ecosystem services into their national and international investment strategies are likely to see far higher rates of return and stronger economic growth in the 21st century.
Darwin meets Facebook
Natural history plans to chart life on earth, yet the discipline risks being buried under a landslide of painstakingly collected data that isn't always used.
DNA 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.
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 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. |
 |
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. |
 |
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... |
 |
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 |
 |
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. |
 |
The Diversity of Life by E. O. Wilson (Author), Edward O. Wilson (Author) Harvard Professor and two-time Pulitzer Prize winner Edward Wilson takes readers through time--tracing the processes that create new species, the five cataclysmic events that have disrupted evolution over the past 600 million years, and how humans are destroying diversity at a projected rate of 20 percent over the next 30 years. "In the Amazon Basin the greatest violence sometimes begins as a flicker of light beyond the horizon. There in the perfect bowl of the night sky, untouched by light from any human source, a thunderstorm sends its premonitory signal and begins a slow journey to the observer, who thinks: the world is about to change." Watching from the edge of the Brazilian rain forest, witness to the sort of violence nature visits upon its creatures, Edward O. Wilson reflects... |
 |
Understanding Biodiversity by David Zeigler (Author) The idea of biodiversity has become increasingly important for those who wish to preserve and protect the varieties of life on Earth. While most works on biodiversity look at only three components-the diversity of genes, of species, and of ecosystems-Understanding Biodiversity examines the diversity of life in all of its manifestations. The living world is diverse in many ways. Animals and plants vary greatly in their size and shape, in their behavior, in how they reproduce, in how they sense the surrounding world. Understanding Biodiversity argues that there are many ways in which biodiversity has an intrinsic value - for humans, and for the living world as a whole - and that biodiversity should be better understood and appreciated by everyone, not just those in the scientific... |
| © 2009 BrightSurf.com |