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Extreme
weather caused by climate change decides distribution of insects, study shows
Extreme
weather caused by climate change decides distribution of insects, study shows
Date:
February 20,
2014
Source:
Aarhus University
Summary:
Extreme weather caused by climate change in the coming
decades is likely to have profound implications for distributions of insects
and other invertebrates. This is suggested by a new study of insects in
tropical and temperate regions of Australia. "Our predictions are that
some species would disappear entirely in the next few decades, even when they
have a fairly wide distribution that currently covers hundreds of kilometers”,
the researchers conclude.
..........................................
As climate
change is progressing, the temperature of our planet increases. This is
particularly important for the large group of animals that are cold-blooded
(ectothermic), including insects. Their body temperature is ultimately
determined by the ambient temperature, and the same therefore applies to the
speed and efficiency of their vital biological processes.
But is it changes
in average temperature or frequency of extreme temperature conditions that have
the greatest impact on species distribution? This was the questions that a
group of Danish and Australian researchers decided to examine in a number of
insect species.
Johannes
Overgaard, Department of Bioscience, Aarhus University, Denmark, Michael R.
Kearney and Ary A. Hoffmann, Melbourne University, Australia, recently
published the results of these studies in the journal Global Change Biology.
The results demonstrate that it is especially the extreme temperature events
that define the distribution of both tropical and temperate species. Thus
climate change affects ectotermic animals primarily because more periods of
extreme weather are expected in the future.
Fruit flies
were modeled
The
researchers examined 10 fruit fly species of the genus Drosophila adapted to
tropical and temperate regions of Australia. First they examined the
temperatures for which the species can sustain growth and reproduction, and
then they found the boundaries of tolerance for hot and cold temperatures.
"This
is the first time ever where we have been able to compare the effects of
extremes and changes in average conditions in a rigorous manner across a group
of species," mentions Ary Hoffmann.
Based on
this knowledge and knowledge of the present distribution of the 10 species they
then examined if distribution was correlated to the temperatures required for
growth and reproduction or rather limited by their tolerance to extreme
temperature conditions.
"The
answer was unambiguous: it is the species' tolerance to very cold or hot days
that define their present distribution," says Johannes Overgaard.
It is
therefore the extreme weather events, such as heat waves or extremely cold
conditions, which costs the insects their life, not an increase in average
temperature.
Drastic
changes in store
With this
information in hand, the researchers could then model how distributions are
expected to change if climate change continues for the next 100 years.
Most terrestrial
animals experience temperature variation on both daily and seasonal time scale,
and they are adapted to these conditions. Thus, for a species to maintain its
existence under varying temperature conditions there are two simple conditions
that must be met. Firstly, the temperature should occasionally be such that the
species can grow and reproduce, and secondly, the temperature must never be so
extreme that the population's survival is threatened.
In temperate
climate for example, there are many species which are adapted to endure low
temperatures in the winter, and then grow and reproduce in the summer. In
warmer climates, the challenge may be just the opposite. Here, the species
might endure high temperatures during the dry hot summer, while growth and
reproduction mainly occurs during the mild and wet winter period.
The result
was discouraging for all 10 species.
"Climate
change will result in fewer cold days and nights, and thus allow species to
move toward higher latitudes. However climate change also leads to a higher
incidence to extremely hot days and our model therefore predicts that the
distribution of these species will be reduced to less than half their present
distribution"says Johannes Overgaard.
"In
fact, our predictions are that some species would disappear entirely in the
next few decades, even when they have a fairly wide distribution that currently
covers hundreds of kilometers," adds Ary Hoffmann.
"Although
none of the 10 species studied are normally perceived as either harmful or beneficial
organisms for human society, the results indicate that distribution of many
insect species will be changed dramatically, and it will probably also apply to
many of the species that have particular social or commercial importance
," ends Johannes Overgaard.
Story
Source:
The above
story is based on materials provided by Aarhus
University. The original article was written by Christina
Troelsen and Johannes Overgaard. Note: Materials may be edited for content
and length.
