 |
|
Scientists warn that species extinction could reduce productivity of plants on Earth by half
November 06, 2007(Santa Barbara, Calif.) -- An international team of scientists has published a new analysis showing that as plant species around the world go extinct, natural habitats become less productive and contain fewer total plants -- a situation that could ultimately compromise important benefits that humans get from nature.
The article is to appear in the online issue of the Proceedings of the National Academy of Sciences the week of Nov. 5.
"The process by which plants grow and produce more plant biomass is one of the most fundamental biological processes on the planet," said Bradley Cardinale, lead author of the paper and assistant professor of biology at the University of California, Santa Barbara.
Plant productivity regulates the ability of nature to take greenhouse gases like carbon dioxide out of the atmosphere, as well as the ability of habitats to produce oxygen, food, fiber, and biofuels, according to the authors of the study. "Therefore, species extinctions could compromise the benefits that nature provides to society," said Cardinale.
The study summarized the results of 44 experiments from around the world that simulated plant species extinction and showed that ecosystems with fewer species produce up to 50 percent less plant biomass than those with more "natural" levels of diversity.
"Our analyses provide the most comprehensive evidence yet that natural habitats with a greater variety of plant species are more productive," said co-author Michel Loreau of McGill University in Montreal. "This occurs partly because diverse communities are more likely to contain highly productive species. But even more important, our analyses show that diverse communities are more productive because plants are 'complementary' in how they use biological resources. In other words, different plant species play unique roles in the environment."
Co-author Andy Hector, an assistant professor at the University of Zurich, explained this result with a sports analogy. "The results of our analyses suggest that plant communities operate much like a soccer team," he said. "Teams are composed of both star players and supporting players. You probably can't win many games if you lose your top striker because she or he is the most productive player and can dominate a game. But strikers cannot win games by themselves. They need great passes from supporting players and solid goal-tending if the team is going to be successful as a whole."
According to the authors, plant communities are also composed of both stars and supporting players. Some plants are so productive that they dominate the productivity of natural habitats. But supporting species complement the key players and enhance the productivity of plant communities even further.
They said that species extinction is one of the most pronounced environmental changes of our time and noted that many scientists now argue that the Earth is in the middle of the sixth mass extinction in the history of life. Some estimates suggest that as much as 50 percent of all known species could be extinct by the end of this century.
Cardinale emphasized that experiments to date have probably underestimated the impact of species loss on ecosystems. "We found that as experiments were run longer, they detected increasingly strong impacts of species diversity on plant productivity," he said. "Unfortunately, because most experiments have only been funded to run for a few years at a time, they have probably underestimated the impacts of extinction on natural habitats."
University of California - Santa Barbara
Plant productivity regulates the ability of nature to take greenhouse gases like carbon dioxide out of the atmosphere, as well as the ability of habitats to produce oxygen, food, fiber, and biofuels, according to the authors of the study. "Therefore, species extinctions could compromise the benefits that nature provides to society," said Cardinale.
The study summarized the results of 44 experiments from around the world that simulated plant species extinction and showed that ecosystems with fewer species produce up to 50 percent less plant biomass than those with more "natural" levels of diversity.
"Our analyses provide the most comprehensive evidence yet that natural habitats with a greater variety of plant species are more productive," said co-author Michel Loreau of McGill University in Montreal. "This occurs partly because diverse communities are more likely to contain highly productive species. But even more important, our analyses show that diverse communities are more productive because plants are 'complementary' in how they use biological resources. In other words, different plant species play unique roles in the environment."
Co-author Andy Hector, an assistant professor at the University of Zurich, explained this result with a sports analogy. "The results of our analyses suggest that plant communities operate much like a soccer team," he said. "Teams are composed of both star players and supporting players. You probably can't win many games if you lose your top striker because she or he is the most productive player and can dominate a game. But strikers cannot win games by themselves. They need great passes from supporting players and solid goal-tending if the team is going to be successful as a whole."
According to the authors, plant communities are also composed of both stars and supporting players. Some plants are so productive that they dominate the productivity of natural habitats. But supporting species complement the key players and enhance the productivity of plant communities even further.
They said that species extinction is one of the most pronounced environmental changes of our time and noted that many scientists now argue that the Earth is in the middle of the sixth mass extinction in the history of life. Some estimates suggest that as much as 50 percent of all known species could be extinct by the end of this century.
Cardinale emphasized that experiments to date have probably underestimated the impact of species loss on ecosystems. "We found that as experiments were run longer, they detected increasingly strong impacts of species diversity on plant productivity," he said. "Unfortunately, because most experiments have only been funded to run for a few years at a time, they have probably underestimated the impacts of extinction on natural habitats."
University of California - Santa Barbara
Plant Species News and Current Plant Species Events RSSStudy of islands reveals surprising extinction results
It's no secret that humans are having a huge impact on the life cycles of plants and animals. UC Santa Barbara's Steven D. Gaines and fellow researcher Dov Sax decided to test that theory by studying the world's far-flung islands.
Getting to the Root of the Matter
Like most things that exist underground, plant roots are out-of-sight and easily forgotten, but while flowers, leaves, and other aboveground plant parts are more familiar, plant roots are equally deserving of our appreciation. Beneath every towering tree, tasty crop, and dazzling ornamental lies a root system that makes it all possible. Roots provide anchor and support for plants, extract water and nutrients from soil, and reduce soil erosion.
Brown tree snake could mean Guam will lose more than its birds
In the last 60 years, brown tree snakes have become the embodiment of the bad things that can happen when invasive species are introduced in places where they have few predators. Unchecked for many years, the snakes caused the extinction of nearly every native bird species on the Pacific island of Guam.
Saving our bees
Most of the world's plant species rely on animals to transfer their pollen to other plants. The undisputed queen of these animal pollinators is the bee, made up of about 30,000 species worldwide, whose daily flights aid in the reproduction of more than half of the world's flowering plants.
Pollination Habits of Endangered Texas Rice Revealed to Help Its Preservation
A type of wild rice that only grows in a small stretch of the San Marcos River is likely so rare because it plays the sexual reproduction game poorly, a study led by the Lady Bird Johnson Wildflower Center at The University of Texas at Austin has revealed.
New study finds that some plants can adapt to widespread climate change
While many plant species move to a new location or go extinct as a result of climate change, grasslands clinging to a steep, rocky dale-side in Northern England seem to defy the odds and adapt to long-term changes in temperature and rainfall.
A bitter pill to swallow
Two reports from TRAFFIC, the world's largest wildlife trade monitoring network, on traditional medicine systems in Cambodia and Vietnam suggest that illegal wildlife trade, including entire tiger skeletons, and unsustainable harvesting is depleting the region's rich and varied biodiversity and putting the primary healthcare resource of millions at risk.
Genome communication
In the late 19th century Gregor Mendel used peas to show that one copy of a gene (allele) is inherited from the mother and one from the father.
SEX4, starch and phosphorylation
Energy from the sun and carbon dioxide fuel photosynthesis in plants and algae, making life on earth possible. Carbon that is fixed by plants is converted to starch and sucrose, which are utilized by plants for energy and to build biomass.
Feeding and fueling the future: the bioenergy potential of reviving abandoned agricultural land
Across the globe, hundreds of millions of acres of once-productive agricultural land lie abandoned, according to a new report from researchers at Stanford University and the Carnegie Institution for Science. If this land was used to grow crops for conversion into biofuel, it could help ease the energy crunch without worsening the world food shortage or contributing to global warming.
More Plant Species News Articles
 | The New Encyclopedia of Orchids: 1500 Species in Cultivation by Isobyl la Croix 1500 orchid species are profiled in this authoritative, detailed, and carefully researched encyclopedia. Infinitely varied and hugely interesting, these strikingly beautiful plants are sumptuously illustrated with over 1000 photographs in a reference that no orchid lover can afford to be without. Isobyl la Croix is a scientist, plant hunter, and horticulturalist; her deep passion for orchids... |
 | Invasive Plants: A Guide to Identification, Impacts, and Control of Common North American Species by Sylvan Ramsey Kaufman, Wallace Kaufman Identifying and understanding the plants that are changing the North American landscape forever Full-color photographs make identification simple An easy-to-use, wide-ranging guide to invasive plants in North America. Features full-color photos and descriptions of some 175 alien species--both terrestrial and aquatic--that are in some cases changing the landscape to an almost unimaginable... |
 | Renewing America's Food Traditions: Saving and Savoring the Continent's Most Endangered Foods Renewing America's Food Traditions is a beautifully illustrated dramatic call to recognize, celebrate, and conserve the great diversity of foods that gives North America its distinctive culinary identity that reflects our multicultural heritage. It offers us rich natural and cultural histories as well as recipes and folk traditions associated with the rarest food plants and animals in North... |
 | 500 Cacti: Species and Varieties in Cultivation by Ken Preston-Mafham A visual reference to 500 cacti. The cactus family includes more than 2,500 species of cacti, succulents, caudiciforms and euphorbs. Native to the Americas, they are at least 50 million years old and highly advanced in their evolution. Not all are desert plants. Some are found in the rainforest, where they enjoy the heavy rainfall and grow much more vigorously than their desert cousins. Many... |
 | Landscape Plants For Dry Regions: More Than 600 Species From Around The World by Warren Jones, Charles Sacamano The definitive guide to landscaping in the Southwest, featuring exotic plants of tremendous potential seldom used in Southwest landscapes.... |
 | Tropical Slipper Orchids: Paphiopedilum & Phragmipedium Species & Hybrids by Harold Koopowitz Distinguished by a prominent pouchlike sac which resembles a ballroom slipper and often decorated with warts, hairs, or stripes, the flowers of slipper orchids may be ugly or pretty, depending on your point of view. In either case, they are captivating to amateur and professional orchids growers alike and indeed may be the most poplar group of orchids in cultivation. The tropical slipper orchids... |
 | The Reference Manual of Woody Plant Propagation: From Seed to Tissue Culture : A Practical Working Guide to the Propagation of over 1100 Species, Va by Michael A. Dirr, Charles W. Heuser |
 | Archipelago: Portraits of Life in the World's Most Remote Island Sanctuary by David Liittschwager, Susan Middleton For this project, Middleton and Liittschwager gained unprecedented access to photograph on and around these protected islands that are otherwise completely off-limits to people. Home to nearly seventy percent of our nation's coral reefs, known as the "rainforests of the sea," the Northwestern Hawaiian Islands is a remarkable ecosystem that supports a vast array of interdependent native plants and... |
 | The World of the Polar Bear A powerful predator, revealed here by an acclaimed nature photographer. The polar bear is the largest terrestrial carnivore, uniquely adapted to thrive in the harsh environment of the Far North. In The World of the Polar Bear, renowned nature photographer Norbert Rosing follows the polar bear through each season. With its thorough and engaging text and spectacular photography, the book... |
 | New York State Trees & Wildflowers: An Introduction to Familiar Species (Pocket Naturalist - Waterford Press) by James Kavanagh |
| © 2008 BrightSurf.com |