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Fossil record should help guide conservation in a changing world
Focus on saving resilient ecosystems as well as species, say experts from many disciplines
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February 9, 2017
University of California ­ Berkeley
A group of biologists, paleobiologists, lawyers, policymakers and writers is urging conservationists not
only to save species, but also to preserve a diverse array of ecosystem structures and functions in
the face of rising populations and changing climate. This could include allowing some species to
disappear from some areas if that means a more resilient environment able to respond to warming
temperatures and habitat loss, according to researchers.
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An African lion (Panthera leo) is in the Okavango Delta, Botswana. Incorporating information from the fossil
record will be essential to keep nature alive under today's rapid and unprecedented human impacts.
Credit: Elizabeth A. Hadly, Stanford University
Scientists are joining lawyers, policymakers and writers to urge conservationists not only to
save species, but also to preserve a diverse array of ecosystem structures and functions in
the face of rising populations and changing climate. This could include allowing some
species to disappear from some areas if that means a more resilient environment able to
respond to warming temperatures and loss of habitat.
Key to assessing the health of today's rapidly changing ecosystems is understanding their history, which can only
be read from the fossil record, or the paleobiology of the region, the scientists argue.
"In the past, conservation biology was about trying to hold everything static, to save everything just the way it is, like
you have a museum collection of species," said senior author Anthony Barnosky, a professor emeritus of integrative
biology at the University of California, Berkeley, who is now executive director of Stanford University's Jasper Ridge
Biological Preserve. "But we are changing the planet so much that we can't expect to hold to the old norms. Already
there are new normals, and in the future there will be even more new normals. So the question is: How do we do
conservation biology under that scenario of really rapid change?"
The answer is rethinking how to manage ecosystems, whether wilderness like Yellowstone National Park or a field
of strawberries, to promote healthy change over time.
"We are advocating in this paper that we have to preserve the capacity to respond to changes in a way that keeps
the ecosystem healthy, which will likely involve watching species come and go, watching assemblages of species
change, and in any given place, what we regard as a normal ecosystem today will not be the same 20 to 30 years
down the road," Barnosky said.
The ideas came from a workshop involving 41 scholars from around the world convened at UC Berkeley by an
international group of collaborators in September 2015 to discuss the future of conservation. The group, which
included ecologists, conservation biologists, paleobiologists, geologists, lawyers, policymakers and writers, is
publishing its conclusions in a perspective paper appearing in the Feb. 10 issue of the journal Science.
"Having collaborators from developing parts of the world helped us ground our ideas," said Elizabeth Hadly, a
professor of biology at Stanford University and co­author of the paper. "Our ideas are well­motivated in science, but
must account for the realities people living in these landscapes experience each day."
Is conservation about preserving museum specimens?
Barnosky noted that conservation biologists have become split between those who want to focus on preserving
ecosystems such as wilderness areas by excluding humans, and those wanting to manipulate what they refer to as
"novel ecosystems" that result from human activities.
The workshop group's consensus was that both perspectives are needed. Historically intact ecosystems, like parts
of the Amazon, could be managed to simultaneously maximize biodiversity, a balanced food web and ecosystem
services such as storing carbon or cleansing water, all the while preserving a feeling of wildness.
Other ecosystems, like agricultural fields, could be managed to maximize producton without destroying the
biodiversity surrounding them, as often happens with monocultures of corn, wheat or soybeans.
"We rely on nature for almost everything: clean water, food, materials for construction and making computers and
phones," said co­author Allison Stegner, a former UC Berkeley graduate student who is now a postdoctoral
research associate at the University of Wisconsin­Madison. "The pace of global change today is so fast that we
stand to lose all of those things that we rely on. Coming up with new approaches to conservation is essential to
maintaining human life."
Whether dealing with historically intact or novel ecosystems ­­ the 47 percent of Earth's ice­free land that has been
altered by humans ­­ scientists need to look at the paleobiology of the region, that is, what the ecosystem looked
like before humans altered it, and seek to rebuild it to some degree toward that natural balance, Barnosky said.
In many cases, this may involve trying to preserve a member of the community that does a critical job, like a top
carnivore, although the particular species that does the job may change through time.
"One of the things we are arguing is, let's decide what we are trying to preserve and then use the paleobiological
record to tell you how to preserve it. The fossil record is becoming critical in guiding nature into the future,"
Barnosky said.
For novel ecosystems, the paleobiological record is essential because we may have to artificially rebuild a healthy
ecosystem, which means knowing the jobs of each species there and making sure we have the right number of
large mammals, for example, or the right balance of carnivores and herbivores.
"You have to know the pieces, the functional roles and how to put species together to make an ecosystem that is
going to last and maintain itself and remain healthy," Barnosky said.