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Stephenson, Fabrice ; Rowden, Ashley A. ; Brough, Tom ; [et al.]

Frontiers Media SA ; 2022

In: Frontiers in Marine Science Vol. 8 ( 2022-1-14)

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In: Frontiers in Marine Science, Frontiers Media SA, Vol. 8 ( 2022-1-14)

Abstract: To support ongoing marine spatial planning in New Zealand, a numerical environmental classification using Gradient Forest models was developed using a broad suite of biotic and high-resolution environmental predictor variables. Gradient Forest modeling uses species distribution data to control the selection, weighting and transformation of environmental predictors to maximise their correlation with species compositional turnover. A total of 630,997 records (39,766 unique locations) of 1,716 taxa living on or near the seafloor were used to inform the transformation of 20 gridded environmental variables to represent spatial patterns of compositional turnover in four biotic groups and the overall seafloor community. Compositional turnover of the overall community was classified using a hierarchical procedure to define groups at different levels of classification detail. The 75-group level classification was assessed as representing the highest number of groups that captured the majority of the variation across the New Zealand marine environment. We refer to this classification as the New Zealand “Seafloor Community Classification” (SCC). Associated uncertainty estimates of compositional turnover for each of the biotic groups and overall community were also produced, and an added measure of uncertainty – coverage of the environmental space – was developed to further highlight geographic areas where predictions may be less certain owing to low sampling effort. Environmental differences among the deep-water New Zealand SCC groups were relatively muted, but greater environmental differences were evident among groups at intermediate depths in line with well-defined oceanographic patterns observed in New Zealand’s oceans. Environmental differences became even more pronounced at shallow depths, where variation in more localised environmental conditions such as productivity, seafloor topography, seabed disturbance and tidal currents were important differentiating factors. Environmental similarities in New Zealand SCC groups were mirrored by their biological compositions. The New Zealand SCC is a significant advance on previous numerical classifications and includes a substantially wider range of biological and environmental data than has been attempted previously. The classification is critically appraised and considerations for use in spatial management are discussed.

Type of Medium: Online Resource

ISSN: 2296-7745

URL: Article

DOI: 10.3389/fmars.2021.792712

DOI: 10.3389/fmars.2021.792712.s001

DOI: 10.3389/fmars.2021.792712.s002

Language: Unknown

Publisher: Frontiers Media SA

Publication Date: 2022

detail.hit.zdb_id: 2757748-X

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Using Gradient Forests to summarize patterns in species turnover across large spatial scales and inform conservation planning

Stephenson, Fabrice ; Leathwick, John R. ; Geange, Shane W. ; [et al.]

Wiley ; 2018

In: Diversity and Distributions Vol. 24, No. 11 ( 2018-11), p. 1641-1656

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In: Diversity and Distributions, Wiley, Vol. 24, No. 11 ( 2018-11), p. 1641-1656

Abstract: Producing quantitative descriptions of large‐scale biodiversity patterns is challenging, particularly where biological sampling is sparse or inadequate. This issue is particularly problematic in marine environments, where sampling is both difficult and expensive, often resulting in patchy and/or uneven coverage. Here, we evaluate the ability of Gradient Forest ( GF ) modelling to describe broad‐scale marine biodiversity patterns, using a large dataset that also provided opportunity to investigate the effects of sample size on model stability. Location New Zealand's Extended Continental Shelf to depths of 2,000 m. Methods GF models were used to analyse and predict spatial patterns of demersal fish species turnover (beta diversity) using an extensive demersal fish dataset ( 〉 27,000 research trawls) and high‐resolution environmental data layers (1 km 2 grid resolution). GF models were fitted using various sized, mutually exclusive subsets of the demersal fish data to explore the effect of variation in numbers of training observations on model performance and stability. A final GF model using 13,917 samples was used to transform the environmental layers, which were then classified to produce 30 spatial groups; the ability of these groups to identify fish samples with similar composition was evaluated using independent sample data. Results Model fitting using varying sized subsets of the data indicated only minimal changes in model outcomes when using 〉 7,000 observations. A multiscale spatial classification of marine environments created using results from a final GF model fitted using ~14,000 samples was highly effective at summarizing spatial variation in both fish assemblage composition and species turnover. Main conclusions The hierarchical nature of the classification supports its use at varying levels of classification detail, which is advantageous for conservation planning at differing spatial scales. This approach also facilitates the incorporation of information on intergroup similarities into conservation planning, allowing greater protection of distinctive groups likely to support unusual assemblages of species.

Type of Medium: Online Resource

ISSN: 1366-9516 , 1472-4642

URL: Issue

URL: Article

DOI: 10.1111/ddi.2018.24.issue-11

DOI: 10.1111/ddi.12787

Language: English

Publisher: Wiley

Publication Date: 2018

detail.hit.zdb_id: 2020139-4

detail.hit.zdb_id: 1443181-6

SSG: 12

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