20 years after Rio Earth Summit: Ecologists call for preservation of planet’s remaining biological diversity

June 6, 2012
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U-M ecologist Bradley Cardinale setting up an electrical fence to simulate extinction of fish in a stream. Image credit: Bradley CardinaleU-M ecologist Bradley Cardinale setting up an electrical fence to simulate extinction of fish in a stream. Image credit: Bradley CardinaleANN ARBOR—Twenty years after the Earth Summit in Rio de Janeiro, 17 prominent ecologists are calling for renewed international efforts to curb the loss of biological diversity, which is compromising nature’s ability to provide goods and services essential for human well-being.

Over the past two decades, strong scientific evidence has emerged showing that loss of the world’s biological diversity reduces the productivity and sustainability of natural ecosystems and decreases their ability to provide society with goods and services like food, wood, fodder, fertile soils, and protection from pests and disease, according to an international team of ecologists led by the University of Michigan’s Bradley Cardinale.

Human actions are dismantling Earth’s natural ecosystems, resulting in species extinctions at rates several orders of magnitude faster than observed in the fossil record. Even so, there’s still time—if the nations of the world make biodiversity preservation an international priority—to conserve much of the remaining variety of life and to restore much of what’s been lost, according to Cardinale and his colleagues.

The researchers present their findings in the June 7 edition of the journal Nature, in an article titled “Biodiversity loss and its impact on humanity.” The paper is a scientific consensus statement that summarizes evidence that has emerged from more than 1,000 ecological studies over the past two decades.

“Much as the consensus statements by doctors led to public warnings that tobacco use is harmful to your health, this is a consensus statement by experts who agree that loss of Earth’s wild species will be harmful to the world’s ecosystems and may harm society by reducing ecosystem services that are essential to human health and prosperity,” said Cardinale, an associate professor at the U-M School of Natural Resources and Environment and in the Department of Ecology and Evolutionary Biology.

Researcher sampling at a stream biodiversity experiment. Image credit: Brad CardinaleResearcher sampling at a stream biodiversity experiment. Image credit: Brad Cardinale“We need to take biodiversity loss far more seriously—from individuals to international governing bodies—and take greater action to prevent further losses of species,” said Cardinale, the first author of the Nature paper.

An estimated 9 million species of plants, animals, protists and fungi inhabit the Earth, sharing it with some 7 billion people.

The call to action comes as international leaders prepare to gather in Rio de Janeiro on June 20-22 for the United Nations Conference on Sustainable Development, known as the Rio+20 Conference. The upcoming conference marks the 20th anniversary of 1992 Earth Summit in Rio, which resulted in 193 nations supporting the Convention on Biological Diversity’s goals of biodiversity conservation and the sustainable use of natural resources.

The 1992 Earth Summit caused an explosion of interest in understanding how biodiversity loss might impact the dynamics and functioning of ecosystems, as well as the supply of goods and services of value to society. In the Nature paper, Cardinale and his colleagues review published studies on the topic and list six consensus statements, four emerging trends and four “balance of evidence” statements.

The balance of evidence shows, for example, that genetic diversity increases the yield of commercial crops, enhances the production of wood in tree plantations, improves the production of fodder in grasslands, and increases the stability of yields in fisheries. Increased plant diversity also results in greater resistance to invasion by exotic plants, inhibits plant pathogens such as fungal and viral infections, increases above-ground carbon sequestration through enhanced biomass, and increases nutrient remineralization and soil organic matter.

“No one can agree on what exactly will happen when an ecosystem loses a species, but most of us agree that it’s not going to be good. And we agree that if ecosystems lose most of their species, it will be a disaster,” said Shahid Naeem of Columbia University, one of the co-authors of the Nature paper. “Twenty years and a thousand studies later, what the world thought was true in Rio in 1992 has finally been proven: Biodiversity underpins our ability to achieve sustainable development.”

Western Washington University biology professor David Hooper and graduate student Leslie Gonzalez measure plant diversity and productivity in experimental grassland plots in California. Credit: Jeff DukesWestern Washington University biology professor David Hooper and graduate student Leslie Gonzalez measure plant diversity and productivity in experimental grassland plots in California. Credit: Jeff DukesDespite far-reaching support for the Convention on Biological Diversity, biodiversity loss has continued over the past two decades, often at increasing rates. In response, a new set of diversity-preservation goals for 2020, known as the Aichi targets, was recently formulated. Also, a new international body called the Intergovernmental Platform on Biodiversity and Ecosystem Services was formed in April 2012 to guide a global response toward sustainable management of the world’s biodiversity and ecosystems.

Significant gaps in the science behind biological diversity remain and must be addressed if the Aichi targets are to be met, Cardinale and his colleagues write in Nature.

“This paper is important both because of what it shows we know and because of what it shows we don’t know,” said David Hooper of Western Washington University, one of the study co-authors. “Several of the key questions we outline help point the way for the next generation of research on how changing biodiversity affects human well-being.”

Without an understanding of the fundamental ecological processes that link biodiversity, ecosystem functions and services, attempts to forecast the societal consequences of diversity loss, and to meet policy objectives, are likely to fail, the 17 ecologists write.

Researchers measure how changing estuarine food webs influence sediment biogeochemistry at a Chesapeake Bay site. Image credit: Emmett DuffyResearchers measure how changing estuarine food webs influence sediment biogeochemistry at a Chesapeake Bay site. Image credit: Emmett DuffyBut with that fundamental understanding in hand, we may yet bring the modern era of biodiversity loss to a safe end for humanity,” they conclude.

In addition to Cardinale, Naeem and Hooper, co-authors of the Nature paper are: J. Emmett Duffy of the Virginia Institute of Marine Science, College of William and Mary; Andrew Gonzalez of McGill University; Charles Perrings and Ann Kinzig of Arizona State University; Patrick Venail and Anita Narwani of U-M’s School of Natural Resources and Environment; Georgina Mace of Imperial College London; David Tilman of the University of Minnesota; David Wardle of the Swedish University of Agricultural Sciences; Gretchen Daily of Stanford University; Michel Loreau of Centre National de la Recherche Scientifique in Moulis, France; James Grace of the U.S. Geological Survey; Anne Larigauderie of the Museum National d’Histoire Naturelle in Rue Cuvier, France; and Diane Srivastava of the University of British Columbia.

The work was supported by grants from the National Science Foundation and funding from the University of California-Santa Barbara and the state of California.

“Water purity, food production and air quality are easy to take for granted, but all are largely provided by communities of organisms,” said George Gilchrist, program director in the National Science Foundation’s Division of Environmental Biology, which funded the research. “This paper demonstrates that it is not simply the quantity of living things, but their species, genetic and trait biodiversity that influences the delivery of many essential ‘ecosystem services.'”

 

 

M planet blue: the sustainable differenceU-M Sustainability fosters a more sustainable world through collaborations across campus and beyond aimed at educating students, generating new knowledge, and minimizing our environmental footprint. Learn more at sustainability.umich.edu.

 

 

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