Around the world, animals and plants are disappearing at alarming rates. In May 2019, a major U.N. report warned that around one million species were at risk of extinction – more than at any other time in human history.
Conservation scientists like me focus on predicting and preventing extinctions. But we see that as an essential first step, not a final goal. Ultimately, we want species to recover.
The challenge is that while extinction is easy to define, recovery is not. Until recently, there was no general definition of a “recovered” species. As a result, some species recovery plans are much less ambitious than others, and scientists don’t have a common yardstick for recognizing conservation successes.
To address this challenge, the International Union for the Conservation of Nature’s Species Survival Commission – the world’s largest network of conservationists – is developing a Green List of Species to highlight species recovery. This tool will complement the well-known Red List, which highlights endangered species.
While the Red List focuses on extinction risk, the Green List will measure recovery and conservation success. As a member of the team charged with making the Green List a practical conservation tool, I see it as a way of measuring the impact of conservation and communicating conservation success stories, as well as learning from failures.
To know how much conservation has accomplished, and to encourage ambitious conservation goals, we need an objective way to measure progress toward a species’ recovery. Studies of recovery plans developed under the U.S. Endangered Species Act show that some plans consider a species recovered even if its population remains the same or shrinks during the recovery effort. A standard definition of recovery would prevent such inconsistencies and encourage wildlife managers to aim higher.
Conservation scientists have long attempted to identify different facets of species recovery. Reviewing these efforts, our team came up with several requirements for considering a species fully recovered.
As I explain with an international group of colleagues in a new study, one key idea is that populations of the species should be “functional.” By this we mean that they are able to perform all the roles that the species is known to play in ecosystems where it exists. This may seem like an obvious measurement, but in fact, some species that are considered to be “recovered” in the U.S. fail this test.Joel Trick/USFWS, CC BY
What’s your function?
Each species has many kinds of ecological functions. For example, bees help plants reproduce by pollinating them. When birds and bats eat fruits and later excrete the seeds, they help forests regenerate.
Similarly, when salmon swim upstream to spawn and then are consumed by bears and other predators, that process moves essential nutrients from the oceans up into rivers and forests. And when flammable grasses burn in the U.S. Southeast, they fuel fires that maintain longleaf pine forests.
All these critical functions are possible only when enough members of the key species are present. Put another way, keeping a species alive is not enough – it also is essential to keep its functions from going extinct.
Scientists have known for decades that species may persist at such low numbers that they do not fulfill the ecological roles they used to perform. This can be true even if significant numbers of animals or plants are present.
One example is the American Bison, which is a great conservation success story in terms of preventing its extinction. Hunting reduced bison to just a few hundred individuals in western states at the end of the 19th century, but conservation initiatives have restored them to public, private and Native American lands across the West.
Today bison do not appear to be at risk of extinction. However, they occupy less than 1% of their historical range, and most of the roughly 500,000 animals that exist today are raised for commercial purposes. Fewer than 20,000 bison live in conservation herds – a small fraction of their pre-Columbian population, which totaled millions or tens of millions.IUCN, CC BY-ND
Before they were reduced to near-extinction, bison shaped prairie habitats and landscapes through wallowing, pounding and grazing. They influenced ecosystems by converting vegetation into protein biomass for predators, including people, and by redistributing nutrients in these ecosystems.
Even though bison are not at risk of extinction, for the purposes of their contributions to the ecosystems and landscapes they once inhabited, I believe the species should be considered to be functionally extinct and not a fully recovered species.
This does not mean its conservation is a failure. To the contrary, according to new conservation metrics that I and other scientists have proposed for the Green List, the bison would receive high scores on several counts, including Conservation Legacy – meaning it has benefited significantly from past protective efforts – and Conservation Gain, or potential to respond positively to further initiatives.Tracie Hall, CC BY-SA
A full recovery
For contrast, consider another species widely viewed as a conservation success story: The osprey. Populations of this fish-eating bird of prey crashed across North America in the 1950s to 1970s, primarily due to poisoning from the insecticide DDT and its derivatives.
Conservation efforts since then, including a federal ban on DDT and provision of nesting structures, have resulted in a dramatic recovery, back to population levels before the declines. Actually, many U.S. and Canadian populations of Osprey now exceed historical numbers. Under the Green List criteria we are proposing, this species would now be considered ecologically functional in most if not all parts of its range.
Conservation scientists have long considered a species’ influence on others and on the ecosystems it inhabits to be a fundamental aspect of its essence and its intrinsic value. The Green List of Species initiative seeks to go beyond simply preventing extinctions to defining recovered species as those that are ecologically functional across their natural ranges. This new focus aims to encourage conservation optimism by highlighting success stories and showing that with help, species once at risk can reclaim their places in the web of life.
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H. Resit Akcakaya does not work for, consult, own shares in or receive funding from any company or organisation that would benefit from this article, and has disclosed no relevant affiliations beyond their academic appointment.
Authors: H. Resit Akcakaya, Professor of Ecology and Evolution, Stony Brook University (The State University of New York)