Coexistence of mesopredators in an intact polar ocean ecosystem: The basis for defining a Ross Sea marine protected area

Coexistence of mesopredators in an intact polar ocean ecosystem: The basis for defining a Ross Sea marine protected area

► We document the environmental niches of 9 of 13 mesopredator species in the Ross Sea. ► Species had high environmental niche overlap, but low overlap in horizontal space. ► We ranked every 5km grid cell in the region in terms of conservation priority. ► Results are being used to evaluate the conse...

Full description

Saved in:
Bibliographic Details
Published in:Biological conservation 2012-11, Vol.156, p.72-82
Main Authors: Ballard, Grant, Jongsomjit, Dennis, Veloz, Samuel D., Ainley, David G.
Format: Article
Language:eng
Subjects:
Antarctica
biogeography
conservation areas
Conservation prioritization
diet
ecosystems
entropy
environmental factors
ice
marine mammals
Marine spatial planning
Niche occupation
niches
occupations
oceans
prioritization
Ross Sea
satellites
Species distribution model
telemetry
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:► We document the environmental niches of 9 of 13 mesopredator species in the Ross Sea. ► Species had high environmental niche overlap, but low overlap in horizontal space. ► We ranked every 5km grid cell in the region in terms of conservation priority. ► Results are being used to evaluate the conservation value of proposed MPAs. Designation of an effective marine protected area (MPA) requires substantial knowledge of the spatial use of the region by key species, particularly those of high mobility. Within the Ross Sea, Antarctica, the least altered marine ecosystem on Earth, unusually large and closely interacting populations of several marine bird and mammal species co-exist. Understanding how that is possible is important to maintaining the ecological integrity of the system, the major goal in designating the Ross Sea as an MPA. We report analyses of niche occupation, two-dimensional habitat use, and overlap for the majority (9) of mesopredator species in the Ross Sea considering three components: (1) diet, (2) vertical distribution and (3) horizontal distribution. For (1) and (2) we used information in the literature; for (3) we used maximum entropy modeling to project species’ distributions from occurrence data from several ocean cruises and satellite telemetry, correlated with six environmental variables. Results identified and ranked areas of importance in a conservation prioritization framework. While diet overlapped intensively, some spatial partitioning existed in the vertical dimension (diving depth). Horizontal partitioning, however, was the key structuring factor, defined by three general patterns of environmental suitability: (1) continental shelf break, (2) shelf and slope, and (3) marginal ice zone of the pack ice surrounding the Ross Sea post-polynya. In aggregate, the nine mesopredators used the entire continental shelf and slope, allowing the large populations of these species to co-exist. Conservation prioritization analyses identified the outer shelf and slope and the deeper troughs in the Ross Sea shelf to be most important. Our results substantially improve understanding of these species’ niche occupation and imply that a piecemeal approach to MPA designation in this system is not likely to be successful.
ISSN:0006-3207
1873-2917