Posted on: 03 Mar 2012
Climate change warming the sea surface is separating breeding King Penguins from their main food sources, a new study shows.
King Penguins are the top avian fish consumers in
the southern oceans, and their feeding ranges, habits and behaviour have
been widely studied in this context for decades. However, overall
seabird populations in the Antarctic's catchment have been changing for
at least the last three decades and demographic modelling suggests that
there will be radical changes over the next 100 years. The polar regions
have been warming at a faster rate than more
temperate and tropical areas, and most scientific predictions are that
this will continue over the rest of the century.
The Crozet Islands' King Penguins number well over
one million individuals, far and away the largest population in the
world and not currently viewed as being under any conservation threat.
The population has been studied fairly comprehensively since the early
1960s and, though the population increased up to the 1990s, since 1994
there has been a notable decline. A particular long-term breeding
dataset from Possession Islands in the archipelago was used to
understand and model the habitat the penguins use during incubation and
brooding, and to predict how the warming of the southern oceans would
affect the distribution of this habitat, so important for the penguins
continued survival.
The study's data confirmed that sea surface
temperature controls the areas that are productive for King Penguin
foraging during incubation and brooding, and that the penguins mostly
use the colder pelagic waters of the polar air mass front, tracking
these as they fluctuate between 300-500 km south of their colony. Models
derived from the long-term data predict that the optimum feeding zones
will shift south by about 400 km by 2100, and that therefore feeding
during the early stages of the breeding cycle will become a significant
challenge in the near future.
Clearly, the penguins reliance on the fish species
that congregate around the polar front will mean that birds already
under pressure from breeding will have to expend more energy swimming
further to collect more food over a shorter time
period, a handicap compounded as the front moves gradually southwards
over the course of the summer, anyway.
Demographic studies already indicate that breeding
success declines during warmer summers in the Crozet Islands, but this
may not necessarily be the case at other on Kerguelen and Heard islands,
which are not as affected by the warming surface temperatures due to
the shallower seas around them reducing the amount of annual temperature
variation. Also, not enough is known about the responses of the major
fish prey species involved to the changing surface temperatures to fully
predict their movements, though fish have certainly changed their
distribution in other parts of the world because of this.
However, the 21st century is not looking good for
the Crozet Island populations unless they are able to evolve new
foraging strategies or move to alternative breeding sites over time.
Reference
Péron, C, Weimerskirch, H and Bost, C-A. 2012. Projected poleward shift of king penguins (Aptenodytes patagonicus) foraging range at the Crozet Islands, southern Indian Ocean. Proceedings of the Royal Society B: doi: 10.1098/rspb.2011.2705.
Péron, C, Weimerskirch, H and Bost, C-A. 2012. Projected poleward shift of king penguins (Aptenodytes patagonicus) foraging range at the Crozet Islands, southern Indian Ocean. Proceedings of the Royal Society B: doi: 10.1098/rspb.2011.2705.
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