Predicting suitable habitat for the cold-water coral <i>Lophelia pertusa</i> (Scleractinia)

TitlePredicting suitable habitat for the cold-water coral Lophelia pertusa (Scleractinia)
Publication TypeJournal Article
Year of Publication2008
AuthorsDavies, AJ, Wisshak, M, Orr, JC, J. Roberts, M
JournalDeep Sea Research Part I: Oceanographic Research Papers
Volume55
Issue8
Pagination1048 - 1062
Date Published08/2008
ISBN Number0967-0637
Keywordsdeep sea, Ecological engineer, Ecological tolerance, ENFA, Global, Habitat suitability, North-east Atlantic, Predictive modelling, Reef framework-forming
Abstract

Ecological-niche factor analysis (ENFA) was applied to the reef framework-forming cold-water coral Lophelia pertusa. The environmental tolerances of this species were assessed using readily available oceanographic data, including physical, chemical, and biological variables. L. pertusa was found at mean depths of 468 and 480m on the regional and global scales and occupied a niche that included higher than average current speed and productivity, supporting the theory that their limited food supply is locally enhanced by currents. Most records occurred in areas with a salinity of 35, mean temperatures of 6.2–6.7°C and dissolved oxygen levels of 6.0–6.2mll−1. The majority of records were found in areas that were saturated with aragonite but had low concentration of nutrients (silicate, phosphate, and nitrate). Suitable habitat for L. pertusa was predicted using ENFA on a global and a regional scale that incorporated the north-east Atlantic Ocean. Regional prediction was reliable due to numerous presence points throughout the area, whereas global prediction was less reliable due to the paucity of presence data outside of the north-east Atlantic. However, the species niche was supported at each spatial scale. Predicted maps at the global scale reinforced the general consensus that the North Atlantic Ocean is a key region in the worldwide distribution of L. pertusa. Predictive modelling is an approach that can be applied to cold-water coral species to locate areas of suitable habitat for further study. It may also prove a useful tool to assist spatial planning of offshore marine protected areas. However, issues with eco-geographical datasets, including their coarse resolution and limited geographical coverage, currently restrict the scope of this approach.

URLhttp://www.sciencedirect.com/science/article/pii/S0967063708000836
DOI10.1016/j.dsr.2008.04.010