In a study published in the November 3, 2006, issue of the journal Science, an international group of ecologists and economists show that the loss of biodiversity is profoundly reducing the ocean's ability to produce seafood, resist diseases, filter pollutants and rebound from stresses such as overfishing and climate change. The study, which was coauthored by Jeremy Jackson and Enric Sala of Scripps Institution of Oceanography at UC San Diego, reveals that every species lost causes a faster unraveling of the overall ecosystem. Conversely, every species recovered adds significantly to the overall productivity and stability of the ecosystem and its ability to withstand stresses.
"Whether we looked at tide pools or studies over the entire world's ocean, we saw the same picture emerging," says lead author Boris Worm of Dalhousie University. "In losing species we lose the productivity and stability of entire ecosystems. I was shocked and disturbed by how consistent these trends are-beyond anything we suspected."
The four-year analysis is the first to examine all existing data on ocean species and ecosystems, synthesizing historical, experimental, fisheries and observational datasets to understand the importance of biodiversity at the global scale.
The results reveal global trends that mirror what scientists have observed at smaller scales and they prove that progressive biodiversity loss not only impairs the ability of oceans to feed a growing human population, but also sabotages the stability of marine environments and their ability to recover from stresses.
"Marine ecosystems are like machines that have evolved to work with all of their pieces, that is, species. If they lose some of these pieces, the system may malfunction with consequences for humans as well. Who would board a plane that has missing parts, even if they do not know what these parts are for?" said Sala, deputy director of the Center for Marine Biodiversity and Conservation at Scripps.
The good news is that the data show that ocean ecosystems still hold great ability to rebound. However, the current global trend is a serious concern: it projects the collapse of all species of wild seafood that are currently fished by the year 2050 (collapse is defined as 90 percent depletion).
Collapses also are hastened by the decline in overall health of the ecosystem-fish rely on the clean water, prey populations and diverse habitats that are linked to higher diversity systems. This points to the need for managers to consider all species together rather than continuing with single species management.
"Unless we fundamentally change the way we manage all the oceans species together, as working ecosystems, then this century is the last century of wild seafood," says coauthor Steve Palumbi of Stanford University.
The impacts of species loss go beyond declines in seafood. Human health risks emerge as depleted coastal ecosystems become vulnerable to invasive species, disease outbreaks and noxious algal blooms.
Many of the economic activities along our coasts rely on diverse systems and the healthy waters they supply. "The ocean is a great recycler," explains Palumbi, "it takes sewage and recycles it into nutrients, it scrubs toxins out of the water and it produces food and turns carbon dioxide into food and oxygen."
The strength of the study is the consistent agreement of theory, experiments and observations across widely different scales and ecosystems. The study analyzed 32 controlled experiments, observational studies from 48 marine protected areas and global catch data from the United Nation's Food and Agriculture Organization's database of all fish and invertebrates worldwide from 1950 to 2003. The scientists also looked at a 1,000-year time series for 12 coastal regions, drawing on data from archives, fishery records, sediment cores and archeological data.
"We see an accelerating decline in coastal species over the last 1,000 years, resulting in the loss of biological filter capacity, nursery habitats and healthy fisheries," says coauthor Heike Lotze of Dalhousie University, who led the historical analysis of Chesapeake Bay, San Francisco Bay, the Bay of Fundy and the North Sea, among others.
The scientists note that a pressing question for management is whether losses can be reversed. If species have not been pushed too far down, recovery can be fast - but there is also a point of no return as seen with species such as northern Atlantic cod.
Examination of protected areas worldwide show that restoration of biodiversity increased productivity four-fold in terms of catch per unit effort and made ecosystems 21 percent less susceptible to environmental and human-caused fluctuations on average.
"The data show us it's not too late," says Worm. "We can turn this around. But less than one percent of the global ocean is effectively protected right now. We won't see complete recovery in one year, but in many cases species come back more quickly than people anticipated - in three to five to ten years. And where this has been done we see immediate economic benefits."
The buffering impact of species diversity also generates long-term insurance values that must be incorporated into future economic valuation and management decisions. "Although there are short-term economic costs associated with preservation of marine biodiversity, over the long term biodiversity conservation and economic development are complementary goals," says coauthor Ed Barbier, an economist from the University of Wyoming.
The authors conclude that restoring marine biodiversity through an ecosystem-based management approach-including integrated fisheries management, pollution control, maintenance of essential habitats and creation of marine reserves-is essential to avoid serious threats to global food security, coastal water quality and ecosystem stability.
"This isn't predicted to happen, this is happening now," says coauthor Nicola Beaumont, an ecological economist with the Plymouth Marine Laboratory. "If biodiversity continues to decline, the marine environment will not be able to sustain our way of life, indeed it may not be able to sustain our lives at all."
Scripps Institution of Oceanography at the University of California San Diego, is one of the oldest, largest, and most important centers for global science research and education in the world. Now in its second century of discovery, the scientific scope of the institution has grown to include biological, physical, chemical, geological, geophysical, and atmospheric studies of the earth as a system. Hundreds of research programs covering a wide range of scientific areas are under way today on every continent and in every ocean. The institution has a staff of more than 1,400 and annual expenditures of approximately $195 million from federal, state, and private sources. Scripps operates oceanographic research vessels recognized worldwide for their outstanding capabilities. Equipped with innovative instruments for ocean exploration, these ships constitute mobile laboratories and observatories that serve students and researchers from institutions throughout the world. Birch Aquarium at Scripps serves as the interpretive center of the institution and showcases Scripps research and a diverse array of marine life through exhibits and programming for more than 430,000 visitors each year. Learn more at scripps.ucsd.edu and follow us at Facebook, Twitter, and Instagram.
About UC San Diego
At the University of California San Diego, we constantly push boundaries and challenge expectations. Established in 1960, UC San Diego has been shaped by exceptional scholars who aren’t afraid to take risks and redefine conventional wisdom. Today, as one of the top 15 research universities in the world, we are driving innovation and change to advance society, propel economic growth, and make our world a better place. Learn more at www.ucsd.edu.