Abstract
The use of species occurrence as a proxy for habitat type is widespread, probably because it allows the use of species distribution modeling (SDM) to cost-effectively map the distribution of e.g., vulnerable marine ecosystems. We have modeled the distribution of epibenthic megafaunal taxa typical of soft-bottom, Deep-Sea Sponge Aggregations (DSSAs), i.e., “indicators,” to discover where in the Barents Sea region this habitat is likely to occur. The following taxa were collectively modeled: Hexadella cf. dedritifera, Geodia spp., Steletta sp., Stryphnus sp. The data were extracted from MarVid, the video database for the Marine AREAl database for NOrwegian waters (MAREANO). We ask whether modeling density data may be more beneficial than presence/absence data, and whether using this list of indicator species is enough to locate the target habitat. We use conditional inference forests to make predictions of probability of presence of any of the target sponges, and total density of all target sponges, for an area covering a large portion of the Norwegian Barents Sea and well beyond the data’s spatial range. The density models explain <31% of the variance, and the probability models have high classificatory power (AUC > 0.88), depending on the variables/samples used to train the model. The predicted surfaces were then classified on the basis of a probability threshold (0.75) and a density threshold (13 n/100 m2) to obtain polygons of “core area” and “hotspots” respectively (zones). The DSSA core area comprises two main regions: the Egga shelf break/Tromsøflaket area, and the shelf break southwest of Røst bank in the Træna trench. Four hotspots are detected within this core area. Zones are evaluated in the light of whole-community data which have been summarized as taxon richness and density of all megafauna. Total megafaunal density was significantly higher inside the hotspots relative to the background. Richness was not different between zones. Hotspots appeared different to one another in their richness and species composition although no tests were possible. We make the case that the effectiveness of the indicator species approach for conservation planning rests on the availability of density data on the target species, and data on co-occurring species.
Highlights
Classifying the variability of nature into habitat types and projecting those habitats onto geographic space, represents a leap toward ecosystem-based management, which is widely recognized as the best way to manage natural resources and ensure economic prosperity (Murawski, 2007)
We model the distribution of soft-bottom, deep-sea, habitatforming species of sponges using environmental variables ranging in resolution from 800 m to 4 km
We provide additional context using the greater MAREANO video database (MarVid) dataset to differentiate between predicted Deep-Sea Sponge Aggregations (DSSAs) hotspots and their relative conservation value
Summary
Classifying the variability of nature into habitat types and projecting those habitats onto geographic space, represents a leap toward ecosystem-based management, which is widely recognized as the best way to manage natural resources and ensure economic prosperity (Murawski, 2007). Benthic realm, one approach toward habitat mapping is to use species occurrence as a proxy for the realization of a habitat type (Howell et al, 2016; Buhl-Mortensen et al, 2019). Under this approach, a central requirement is a checklist of one or more (typically species-level) taxa. A central requirement is a checklist of one or more (typically species-level) taxa These are often referred to as “indicators,” albeit not in the sense of ecological indicators but rather, defined as the species/taxa of epibenthic megafauna which are typical for an ecosystem or habitat. Distribution maps of vulnerable marine ecosystems (VMEs), red-listed habitats etc., are cost-effectively produced, even for areas that have never been sampled or observed
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