Abstract
A well-known example of marine ecosystem engineering is the annelid genus Diopatra, which builds large tubes in coastal sediments worldwide. Early studies of Diopatra were among the first to recognize the importance of facilitation in ecology, and Diopatra has become a key marine soft-sediment application of the ecosystem engineering concept. Here, I review our current knowledge of Diopatra ecology, including its natural history, ecosystem engineering effects, and trophic relationships. I particularly explore how human activities are influencing Diopatra in terms of climate change, bait fishing, and species invasions. Most of what we know about Diopatra ecology comes from focal studies of a few species in a few well-known regions. Further evaluating how our current understanding applies to other species and/or other regions will help to refine and deepen our understanding of structure and function in marine systems.
Subject
General Agricultural and Biological Sciences,General Immunology and Microbiology,General Biochemistry, Genetics and Molecular Biology
Reference100 articles.
1. Report upon the Invertebrate Animals on Vineyard Sound and Adjacent Waters, with an Account of the Physical Features of the Region,1874
2. The Natural History of Some Tube-Forming Annelids. Mark Anniversary Volume;Linville,1903
3. de Les Annélides Polychètes des Côtes de France (Manche et Océan);Saint-Joseph;Ann. Des Sci. Nat. (Zo-Ologie Paléontol.),1898
4. Refuges, Disturbance, and Community Structure: A Marine Soft-Bottom Example
5. The Concept of Organisms as Ecosystem Engineers Ten Years On: Progress, Limitations, and Challenges
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