Abstract
The concept of “vulnerable marine ecosystem” (VME) was included in United Nations (UN) General Assembly Resolution 61/105 as part of an international effort to minimize the effects of seafloor fisheries on the high seas. However, defining a VME was left to be developed by technical guidance to the UN Food and Agricultural Organization. In that venue certain categories of organisms were deemed to be indicator species, suggesting that areas with those species would be considered VMEs with subsequent management measures implemented to conserve those ecosystem attributes. We note that on seamounts VME indicator species can be distributed widely, in dense clusters or sparsely. A dense cluster, for example, of scleractinian corals or sponges, is most often referred to as a VME, but we argue that any such dense cluster is not an ecosystem, rather it is a community, likely one of many that make up the ecosystem. Other communities on the seamount that are not part of that dense cluster could include many small species (some yet to be discovered) who are also part of the ecosystem because they are part of the web of interactions and flow of materials/energy on the seamount. We also suggest that a seamount ecosystem might extend over several or many seamounts in a biogeographic area. We conclude that the term “ecosystem” in the VME concept outlined by the United Nations needs to be re-evaluated from a classical ecological perspective leading to spatial management approaches that better address ecologically relevant space and time scales.
Highlights
Seamount habitats harbor diverse assemblages of suspension-feeding organisms, usually attached to the hard substrate, and often extending a meter or more into the overlying water
Noteworthy is that the original UNGA resolution 61/105 included the phrase “vulnerable marine ecosystem” as critical terminology so the Expert Consultation tasked to develop the initial draft of the guidelines needed to start with this as the foundation [Food and Agriculture Organization of the United Nations (FAO), 2009]
The guidelines that describe and define VMEcosystems acknowledge that Regional Fisheries Management Organizations (RFMOs) and their member states would want some flexibility in implementation
Summary
Seamount habitats harbor diverse assemblages of suspension-feeding organisms, usually attached to the hard substrate, and often extending a meter or more into the overlying water. Clark et al (2011) developed a classification system using several physical and biological features including summit depth, organic matter flux, distance to nearest seamount, and dissolved oxygen in the surrounding water This method divided the estimated global 10,604 large seamounts (estimate from Kitchingman and Lai, 2004) with summit depths in the bathyal (
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