1 results
5 - Large-scale patterns of species diversity in the deep-sea benthos
-
- By Michael A. Rex, Department of Biology, University of Massachusetts, Boston, MA 02125, USA, Ron J. Etter, Department of Biology, University of Massachusetts, Boston, MA 02125, USA, Carol T. Stuart, Department of Biology, University of Massachusetts, Boston, MA 02125, USA
- Edited by Rupert F. G. Ormond, University of York, John D. Gage, Scottish Association for Marine Science, Martin V. Angel
- Foreword by Crispin Tickell
-
- Book:
- Marine Biodiversity
- Published online:
- 04 August 2010
- Print publication:
- 11 December 1997, pp 94-121
-
- Chapter
- Export citation
-
Summary
Abstract
As in other environments, species diversity in the deep sea reflects an integration of ecological and evolutionary processes operating at different spatial and temporal scales. Contemporary deep-sea research has focused primarily on the importance of small-scale phenomena that permit species coexistence. While this work has provided important insights into the mechanisms that regulate local diversity, it is unclear how small-scale events can account for geographic patterns of diversity. A complete understanding of diversity must incorporate the influence of historical, biogeographic and oceanographic processes that are imposed at much larger scales. In this chapter, we review large-scale bathymetric and geographic patterns of species diversity in the deep-sea benthos and discuss how ecological and evolutionary factors might shape these patterns.
In the western North Atlantic, the most thoroughly sampled region of the World Ocean, species diversity is low on the shelf, increases to a maximum at intermediate depths and then decreases in the abyssal plain. Analyses of diversity in other deep basins of the Atlantic indicate that this parabolic trend may not be universal, but good comparative data are extremely limited. The marked variation in diversity at any particular depth indicates that extensive sampling is necessary to accurately assess bathymetric patterns. The causes of these patterns are not well understood, but appear to involve environmental gradients in nutrient flux, biotic interactions and environmental heterogeneity.
![](/core/cambridge-core/public/images/lazy-loader.gif)