If

If GDC-0199 molecular weight we had used different data to assess “vulnerability” (e.g., distribution of very low productivity species), and “naturalness” (e.g., distribution of longline fishing), then seamounts at depths >2 000 m and those without known fisheries other

than trawling could have been identified as candidate EBSAs. Note that Gascoyne Seamount, which was selected as a candidate EBSA, has been subject to extensive non-trawl fishing. In addition, by identifying only untrawled seamounts, we effectively excluded the criterion for important life history stages (C2) from the identification process, because that data set was limited to the spawning grounds of orange roughy. This is a commercial species, and the spawning sites are all fished. With more data on non-commercial species, this situation would not occur, although we did not feel that it was a major limitation because the absence of strong human impact (as indexed by the fishing data) is an important condition for a candidate EBSA. However, areas that have been lightly fished can still be identified as EBSAs (Weaver and Johnson, 2012). Nevertheless, this result

underlines the importance of having a transparent method, whereby the influence of all criteria on the identification of candidate EBSAs can be easily Inhibitor Library datasheet evaluated. Most criteria were evaluated using only one set of data, and the maximum we used was three. Well-sampled regions will have many more datasets that can be applied to each criterion. This is unlikely in the High Seas, but inside EEZs there may be many sources of information which might require some rationalisation. While the proposed method itself is independent of the number of datasets, emphasis should be placed on using robust, high quality, data sources. Decisions can be made in individual situations whether to include all or a subset of datasets, or to weight some sources over others. These decisions could be made with reference to the reliability associated

with each dataset. Uncertainty was not considered in the worked example, but the degree of certainty associated with Non-specific serine/threonine protein kinase the data used should be quantified. For example, a higher confidence would typically be attributed to information derived from direct measurements relative to modelled data. Conversely, modelled results may be more appropriate if applied over large areas. It would be relatively straight-forward to assign a subjective confidence score (such as low-medium-high) to each data set as an indication of their reliability. The certainty score could be used to weight criteria, or datasets within a criterion when multiple data are available. It would be useful to apply the proposed method at a range of spatial scales, and with various levels of data quality and quantity.

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