Abstract
AbstractSubmarine canyons are complex geomorphological features that have been suggested as potential hotspots for biodiversity. However, few canyons have been mapped and studied at high resolution (tens of m). In this study, the four main branches of Whittard Canyon, Northeast Atlantic, were mapped using multibeam and sidescan sonars to examine which environmental variables were most useful in predicting regions of higher biodiversity. The acoustic maps obtained were ground truthed by 13 remotely operated vehicle (ROV) video transects at depths ranging from 650 to 4000 m. Over 100 h of video were collected, and used to identify and georeference megabenthic invertebrate species present within specific areas of the canyon. Both general additive models (GAMs) and random forest (RF) were used to build predictive maps for megafaunal abundance, species richness and biodiversity. Vertical walls had the highest diversity of organisms, particularly when colonized by cold‐water corals such as Lophelia pertusa and Solenosmilia variabilis. GAMs and RF gave different predictive maps and external assessment of predictions indicated that the most adequate technique varied based on the response variable considered. By using ensemble mapping approaches, results from more than one model were combined to identify vertical walls most likely to harbour a high biodiversity of organisms or cold‐water corals. Such vertical structures were estimated to represent less than 0.1% of the canyon's surface. The approach developed provides a cost‐effective strategy to facilitate the location of rare biological communities of conservation importance and guide further sampling efforts to help ensure that appropriate monitoring can be implemented.
Highlights
By comparison with other regions of the continental slope, submarine canyons have been proposed as hotspots for biodiversity
A total of 42,934 individuals and 202 morphospecies were observed in the initial JC survey, with the most commonly observed taxa being xenophyophores, Pentametrocrinus sp., Acanella sp., Lophelia pertusa, cerianthids and Anthomastus sp
When finer-scale environmental information was incorporated into the model, performance was increased by an additional 16.9% and 13.5% for general additive models (GAMs) and random forest (RF), respectively, in the case of abundance, and 3.4% and 8.7% in the case of species richness (Table 2)
Summary
By comparison with other regions of the continental slope, submarine canyons have been proposed as hotspots for biodiversity. They are typically characterized by high spatial heterogeneity and complex hydrographic patterns, and can act as conduits for larvae and organic matter from the shelf to the deep sea (Vetter & Dayton 1999; Tyler et al 2009; Vetter et al.2010). In addition to increasing habitat heterogeneity at the regional scale (De Leo et al 2010), submarine canyons exhibit high habitat heterogeneity at the local scale (Huvenne et al 2011), which can result in further finer scale variations in biodiversity.
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