TY - JOUR
T1 - An Antarctic ecosystem value index to quantify ecological value across trophic levels and over time
AU - DuVivier, Alice K.
AU - Krumhardt, Kristen M.
AU - Landrum, Laura L.
AU - Sylvester, Zephyr
AU - Şen, Bilgecan
AU - Labrousse, Sara
AU - Che-Castaldo, Christian
AU - Eparvier, Alice
AU - Holland, Marika M.
AU - LaRue, Michelle A.
AU - Nissen, Cara
AU - Levy, Michael N.
AU - Jenouvrier, Stephanie
AU - Brooks, Cassandra
N1 - Publisher Copyright:
© The Authors. Parts of this work were authored by US Federal Government authors and are not under copyright protection in the US; foreign copyright protection may apply. 2026.
PY - 2026/12
Y1 - 2026/12
N2 - The Southern Ocean around Antarctica is one of the fastest changing regions on the planet and an emerging resource frontier for fisheries. Here, we present the Antarctic Ecosystem Value Index created by merging ecosystem information across food web trophic levels, from phytoplankton to fish and penguins, to quantify the ecological value of marine areas around the Antarctic continent. We find that coastal polynyas - areas of reduced sea-ice - have Index values 31–72% higher than surrounding areas, suggesting that these areas are biologically valuable hot spots for a number of ice-dependent Antarctic Species. Using output from an Earth system model to generate future projections of the Index, we find that high-value locations, often within polynyas, are likely to continue to be valuable throughout the 21st century despite environmental changes. The Antarctic Ecosystem Value Index indicates that penguins lose importance as their habitat becomes increasingly unsuitable, so protecting high-value habitat areas may be critical for these species. This study also shows that while many high-value Index areas are within existing or proposed Marine Protected Areas, there are several opportunities for adopting additional protection, particularly in East Antarctica and the Amundsen Sea.
AB - The Southern Ocean around Antarctica is one of the fastest changing regions on the planet and an emerging resource frontier for fisheries. Here, we present the Antarctic Ecosystem Value Index created by merging ecosystem information across food web trophic levels, from phytoplankton to fish and penguins, to quantify the ecological value of marine areas around the Antarctic continent. We find that coastal polynyas - areas of reduced sea-ice - have Index values 31–72% higher than surrounding areas, suggesting that these areas are biologically valuable hot spots for a number of ice-dependent Antarctic Species. Using output from an Earth system model to generate future projections of the Index, we find that high-value locations, often within polynyas, are likely to continue to be valuable throughout the 21st century despite environmental changes. The Antarctic Ecosystem Value Index indicates that penguins lose importance as their habitat becomes increasingly unsuitable, so protecting high-value habitat areas may be critical for these species. This study also shows that while many high-value Index areas are within existing or proposed Marine Protected Areas, there are several opportunities for adopting additional protection, particularly in East Antarctica and the Amundsen Sea.
UR - https://www.scopus.com/pages/publications/105035286664
U2 - 10.1038/s41467-026-69011-0
DO - 10.1038/s41467-026-69011-0
M3 - Article
C2 - 41673013
AN - SCOPUS:105035286664
SN - 2041-1723
VL - 17
JO - Nature Communications
JF - Nature Communications
IS - 1
M1 - 3203
ER -