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goncangan
global mengejutkan dari spesies yang ditemukan
Surprising global species shake-up discovered
Date:
May 13, 2014
Source:
University of Vermont
Summary:
Scientists re-examined 100 world-wide monitoring
studies and were surprised to discover that, over decades, the number of
species in many places has not changed much -- or has increased. But the
researchers did discover that almost 80% of the communities showed changes in
species composition. This shows that a rapid global turnover of species is
happening, resulting in novel biological communities. The scientists conclude
that biodiversity change may be as large a concern as biodiversity loss.
.......................
The diversity of the world's life forms -- from corals to
carnivores -- is under assault. Decades of scientific studies document the
fraying of ecosystems and a grim tally of species extinctions due to destroyed
habitat, pollution, climate change, invasives and overharvesting.
Which makes
a recent report in the journal Science rather surprising.
Nick
Gotelli, a professor at the University of Vermont, with colleagues from Saint
Andrews University, Scotland, and the University of Maine, re-examined data
from one hundred long-term monitoring studies done around the world -- polar
regions to the tropics, in the oceans and on land. They discovered that the
number of species in many of these places has not changed much -- or has
actually increased.
Now wait a
minute. A global extinction crisis should show up in declining levels of local
biodiversity, right? That's not what the scientists found. Instead they
discovered that, on average, the number of species recorded remained the same
over time. Fifty-nine of the one hundred biological communities showed an
increase in species richness and 41 a decrease. In all the studies, the rate of
change was modest.
But the
researchers did discover something changing rapidly: which species were living
in the places being studied. Almost 80 percent of the communities the team
examined showed substantial changes in species composition, averaging about 10
percent change per decade -- significantly higher than the rate of change
predicted by models.
In other
words, this new report shows that a huge turnover of species in habitats around
the globe is under way, resulting in the creation of novel biological
communities. "Right under our noses, in the same place that a team might
have looked a decade earlier, or even just a year earlier, a new assemblage of
plants and animals may be taking hold," Gotelli says.
Jellyfish
world
The causes
of this shift are not yet fully clear, but the implications for conservation
and policy could be significant. Historically, conservation science and
planning has focused on protecting endangered species more than on shifts in
which plants and animals are assembled together. "A main policy application
of this work is that we're going to need to focus as much on the identity of
species as on the number of species," Gotelli says. "The number of
species in a place may not be our best scorecard for environmental
change."
For example,
the scientists write that disturbed coral reefs can be replaced by a group of
species dominated by algae. This replacement might keep the species count the
same, but not necessarily provide the fisheries, tourism ("algae
diving" doesn't have quite the same appeal as "reef diving") or
coastal protections that the original coral reef did.
"In the
oceans we no longer have many anchovies, but we seem to have an awful lot of
jellyfish," says Gotelli. "Those kinds of changes are not going to be
seen by just counting the number of species that are present."
Almost
unrecognizable
The new
research, led by Maria Dornelas at Saint Andrews University in Scotland,
carefully looked for previous studies that had tracked and tallied species over
many years. The team selected 100 that contained six million observations of
more than 35,000 different species -- including datasets that go back to 1874
and many over the last 40 years. Given widespread observation of habitat change
and individual species declines -- and knowing that extinction rates are many
times higher than normal -- the scientists predicted a drop, over time, in the
number of species observed in most of these studies.
Why they
didn't find this drop could be driven by many forces. One is related to what
science writer David Quammen semi-famously termed our "planet of
weeds." In other words, invasive species or successful colonists or weedy
generalists -- think kudzu and rats -- may be spreading into new places,
keeping the local species tally up, even as the planet's overall biodiversity
is degraded.
"We
move species around," Gotelli says. "There is a huge ant diversity in
Florida, and about 30 percent of the ant species are non-natives. They have
been accidentally introduced, mostly from the Old World tropics, and they are
now a part of the local assemblage. So you can have increased diversity in
local communities because of global homogenization."
And sampling
issues may conceal important realities: some species may have become so rare --
think white rhinos -- that they're highly unlikely to be found in a general
species survey and so don't show in the initial results nor disappear in later
ones.
Range shifts
associated with climate change could be at work, too, quickly pushing species
into new terrain. On May 6, the White House released its National Climate
Assessment noting that, as a result of human-caused warming, "species,
including many iconic species, may disappear from regions where they have been
prevalent or become extinct, altering some regions so much that their mix of plant
and animal life will become almost unrecognizable."
This study
in Science, published on April 18, underlines this emerging reality,
giving it a new and worrisome precision and leading Nick Gotelli and his
co-authors to conclude that there "is need to expand the focus of research
and planning from biodiversity loss to biodiversity change."
Story
Source:
The above
story is based on materials provided by University of Vermont. Note: Materials may be
edited for content and length.
Journal
Reference:
- M. Dornelas, N. J. Gotelli, B. McGill, H. Shimadzu, F. Moyes, C. Sievers, A. E. Magurran. Assemblage Time Series Reveal Biodiversity Change but Not Systematic Loss. Science, 2014; 344 (6181): 296 DOI: 10.1126/science.1248484
Cite This
Page:
University of Vermont.
"Surprising global species shake-up discovered." ScienceDaily.
ScienceDaily, 13 May 2014.
<www.sciencedaily.com/releases/2014/05/140513161632.htm>.
