Such data were used because the emphasis of the study was to develop an overall method, not to generate specific results. In a number of instances, other data could have been used (such as longline fishing, other data on spawning or nursery grounds). If the method is to be used for a formal assessment in the future, then improved
information on the composition of biological communities (especially endemic or highly vulnerable species) and the extent of threats from fishing or mining is necessary to make the application of the criteria more robust. However, the worked example demonstrates the applicability of the method across datasets that are variable in their quantity and quality Trametinib – a common
situation in conservation selleck chemicals llc planning. In developing the method, we made use of large global as well as regional biological datasets and substituted physical environmental proxies for some of the biological criteria. This meant that we were able to evaluate all of the CBD criteria. In some situations, however, it may not be possible to find adequate data for each criterion. Options then are to exclude the particular criterion, use available data (even if incomplete), or use an environmental proxy for the biological attribute. We considered excluding a criterion to be undesirable, as all the criteria are regarded by the CBD as important components of defining an EBSA. In a review of the Canadian experience with EBSAs, Tangeritin (Department of Fisheries and Oceans, 2011) it was noted that incomplete scientific data should only be rejected if they were collected using poor methods, or their use could be misleading. When data are very
patchy or of highly variable quality, outputs could be misleading by only selecting those areas/sites for which data exist, or sites that are poorly sampled will have ‘estimates’ that are downwardly biased. Thus, unless these issues are carefully evaluated, it may be better to use proxies. In our worked example, one of the measures of unique/rare was described by seamount depth, where the extreme depth ranges (very shallow or very deep) were used to represent rare habitat. In our view there would be very few instances where an environmental proxy could not be used to evaluate the EBSA criteria. For example, factors such as depth, substrate, water mass, and dissolved oxygen are known to be major drivers of faunal community composition in the sea (e.g., Rex and Etter, 2010), and local circulation patterns can enhance recruitment (e.g., Mullineaux and Mills, 1997). The results of the worked example for the southern Pacific Ocean were, invariably, driven by the selection of datasets and the way criteria were combined in the selection process (Table 3).