Effects of sea-ice cover on marine benthic communities: a natural experiment in Commonwealth Bay, East Antarctica

Sea-ice is a key physical driver of Antarctic marine ecosystems. Understanding ecological effects of sea-ice is particularly important given current and future climate change, but a major obstacle is the impracticality of manipulating sea-ice at a relevant scale. However, large-scale anomalous event...

Full description

Bibliographic Details
Published in:Polar Biology
Main Authors: Clark, GF, Marzinelli, EM, Fogwill, CJ, Turney, CSM, Johnston, EL
Format: Article in Journal/Newspaper
Language:unknown
Published: Springer Verlag 2015
Subjects:
13 Climate Action
14 Life Below Water
anzsrc-for: 06 Biological Sciences
Antarctic
East Antarctica
Commonwealth Bay
Antarc*
Antarctica
Iceberg*
Polar Biology
Sea ice
Online Access:http://hdl.handle.net/1959.4/unsworks_35445
https://doi.org/10.1007/s00300-015-1688-x
Description
Summary:Sea-ice is a key physical driver of Antarctic marine ecosystems. Understanding ecological effects of sea-ice is particularly important given current and future climate change, but a major obstacle is the impracticality of manipulating sea-ice at a relevant scale. However, large-scale anomalous events, such as those occurring in Commonwealth Bay, East Antarctica, provide opportunities for natural experiments. Historically, katabatic winds have kept Commonwealth Bay ice-free for most of each year, but since 2010, a massive grounded iceberg has resulted in year-round sea-ice cover. We surveyed benthic communities in Commonwealth Bay approximately 3 years after continuous sea-ice cover began and found algal bed communities in severe decline. The majority (~75 %) of large macroalgae were decomposing, and the remainder were discoloured or bleached, while approximately 40 % of encrusting coralline algae were bleached. Accompanying this, the presence of invertebrates such as ophiuroids and polychaetes suggests that communities are in the early stages of transitioning to an invertebrate-dominated state. With a known start date, monitoring benthic communities in Commonwealth Bay will allow quantification of rates of benthic regime shifts in response to sea-ice cover, and improve understanding of the vulnerability of polar ecosystems to climate change.

Similar Items