Project: The effects of ocean acidification and rising sea surface temperatures on shallow-water benthic organisms in Antarctica

Acronym/Short Name:OA_Antarctic_organisms
Project Duration:2011-06 - 2015-05
Geolocation:Palmer Station, Antarctica; 64.7667 S, 64.05 W

Description

Extracted from the NSF award abstract:

The research will investigate the individual and combined effects of rising ocean acidification and sea surface temperatures on shallow-water calcified benthic organisms in western Antarctic Peninsular (WAP) marine communities. The Southern Ocean is predicted to become undersaturated in terms of both aragonite and calcite within 50 and 100 years, respectively, challenging calcification processes. Adding to the problem, antarctic calcified benthic marine organisms are more vulnerable to ocean acidification than temperate and tropical species because they are generally weakly calcified. Many antarctic organisms are essentially stenothermal, and those in the West Antarctic Peninsula are being subjected to rising seawater temperatures. The project employs both single-species and multi-species level approaches to evaluating the impacts of rising ocean acidification and seawater temperature on representative calcified and non-calcified macroalgae, on calcified and non-calcified mesograzers, and on a calcified macro-grazer, all of which are important ecological players in the rich benthic communities. Multi-species analysis will focus on the diverse assemblage of amphipods and mesogastropods that are associated with dominant macroalgae that collectively play a key role in community dynamics along the WAP.
NOTE:  Charles Amsler is listed as a former Co-PI of this project.

Data Access:
Data from this project have been submitted to the Antarctic Master Directory Portal of NASA's Global Change Master Directory, and can be accessed through the publication reference:

Schram, J.B, K.M Schoenrock, J.B. McClintock, C.D. Amsler, R.A. Angus. 2014. Multiple stressor effects of near-future elevated seawater temperature and decreased pH on righting and escape behaviors of two common Antarctic gastropods. Journal of Experimental Marine Biology and Ecology 475:90-96. DOI link: http://dx.doi.org/10.1016/j.jembe.2014.04.005



People

Lead Principal Investigator: James B. McClintock
University of Alabama at Birmingham (UA/Birmingham)

Co-Principal Investigator: Charles Amsler
University of Alabama at Birmingham (UA/Birmingham)

Co-Principal Investigator: Robert Angus
University of Alabama at Birmingham (UA/Birmingham)

Contact: James B. McClintock
University of Alabama at Birmingham (UA/Birmingham)


Programs

Science, Engineering and Education for Sustainability NSF-Wide Investment (SEES): Ocean Acidification (formerly CRI-OA) [SEES-OA]