A hierarchical classification of benthic biodiversity and assessment of protected areas in the Southern Ocean.

A hierarchical classification of benthic biodiversity and assessment of protected areas in the Southern Ocean.

An international effort is underway to establish a representative system of marine protected areas (MPAs) in the Southern Ocean to help provide for the long-term conservation of marine biodiversity in the region. Important to this undertaking is knowledge of the distribution of benthic assemblages....

Full description

Bibliographic Details
Main Authors: Lucinda L Douglass, Joel Turner, Hedley S Grantham, Stefanie Kaiser, Andrew Constable, Rob Nicoll, Ben Raymond, Alexandra Post, Angelika Brandt, Daniel Beaver
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2014-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4102490?pdf=render
id doaj-5f3e7240c2b04e04a93a0ae8e015d4e9
record_format Article
spelling doaj-5f3e7240c2b04e04a93a0ae8e015d4e92020-11-24T21:27:12ZengPublic Library of Science (PLoS)PLoS ONE1932-62032014-01-0197e10055110.1371/journal.pone.0100551A hierarchical classification of benthic biodiversity and assessment of protected areas in the Southern Ocean.Lucinda L DouglassJoel TurnerHedley S GranthamStefanie KaiserAndrew ConstableRob NicollBen RaymondAlexandra PostAngelika BrandtDaniel BeaverAn international effort is underway to establish a representative system of marine protected areas (MPAs) in the Southern Ocean to help provide for the long-term conservation of marine biodiversity in the region. Important to this undertaking is knowledge of the distribution of benthic assemblages. Here, our aim is to identify the areas where benthic marine assemblages are likely to differ from each other in the Southern Ocean including near-shore Antarctica. We achieve this by using a hierarchical spatial classification of ecoregions, bathomes and environmental types. Ecoregions are defined according to available data on biogeographic patterns and environmental drivers on dispersal. Bathomes are identified according to depth strata defined by species distributions. Environmental types are uniquely classified according to the geomorphic features found within the bathomes in each ecoregion. We identified 23 ecoregions and nine bathomes. From a set of 28 types of geomorphic features of the seabed, 562 unique environmental types were classified for the Southern Ocean. We applied the environmental types as surrogates of different assemblages of biodiversity to assess the representativeness of existing MPAs. We found that 12 ecoregions are not represented in MPAs and that no ecoregion has their full range of environmental types represented in MPAs. Current MPA planning processes, if implemented, will substantially increase the representation of environmental types particularly within 8 ecoregions. To meet internationally agreed conservation goals, additional MPAs will be needed. To assist with this process, we identified 107 spatially restricted environmental types, which should be considered for inclusion in future MPAs. Detailed supplementary data including a spatial dataset are provided.http://europepmc.org/articles/PMC4102490?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Lucinda L Douglass
Joel Turner
Hedley S Grantham
Stefanie Kaiser
Andrew Constable
Rob Nicoll
Ben Raymond
Alexandra Post
Angelika Brandt
Daniel Beaver
spellingShingle Lucinda L Douglass
Joel Turner
Hedley S Grantham
Stefanie Kaiser
Andrew Constable
Rob Nicoll
Ben Raymond
Alexandra Post
Angelika Brandt
Daniel Beaver
A hierarchical classification of benthic biodiversity and assessment of protected areas in the Southern Ocean.
PLoS ONE
author_facet Lucinda L Douglass
Joel Turner
Hedley S Grantham
Stefanie Kaiser
Andrew Constable
Rob Nicoll
Ben Raymond
Alexandra Post
Angelika Brandt
Daniel Beaver
author_sort Lucinda L Douglass
title A hierarchical classification of benthic biodiversity and assessment of protected areas in the Southern Ocean.
title_short A hierarchical classification of benthic biodiversity and assessment of protected areas in the Southern Ocean.
title_full A hierarchical classification of benthic biodiversity and assessment of protected areas in the Southern Ocean.
title_fullStr A hierarchical classification of benthic biodiversity and assessment of protected areas in the Southern Ocean.
title_full_unstemmed A hierarchical classification of benthic biodiversity and assessment of protected areas in the Southern Ocean.
title_sort hierarchical classification of benthic biodiversity and assessment of protected areas in the southern ocean.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2014-01-01
description An international effort is underway to establish a representative system of marine protected areas (MPAs) in the Southern Ocean to help provide for the long-term conservation of marine biodiversity in the region. Important to this undertaking is knowledge of the distribution of benthic assemblages. Here, our aim is to identify the areas where benthic marine assemblages are likely to differ from each other in the Southern Ocean including near-shore Antarctica. We achieve this by using a hierarchical spatial classification of ecoregions, bathomes and environmental types. Ecoregions are defined according to available data on biogeographic patterns and environmental drivers on dispersal. Bathomes are identified according to depth strata defined by species distributions. Environmental types are uniquely classified according to the geomorphic features found within the bathomes in each ecoregion. We identified 23 ecoregions and nine bathomes. From a set of 28 types of geomorphic features of the seabed, 562 unique environmental types were classified for the Southern Ocean. We applied the environmental types as surrogates of different assemblages of biodiversity to assess the representativeness of existing MPAs. We found that 12 ecoregions are not represented in MPAs and that no ecoregion has their full range of environmental types represented in MPAs. Current MPA planning processes, if implemented, will substantially increase the representation of environmental types particularly within 8 ecoregions. To meet internationally agreed conservation goals, additional MPAs will be needed. To assist with this process, we identified 107 spatially restricted environmental types, which should be considered for inclusion in future MPAs. Detailed supplementary data including a spatial dataset are provided.
url http://europepmc.org/articles/PMC4102490?pdf=render
work_keys_str_mv AT lucindaldouglass ahierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT joelturner ahierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT hedleysgrantham ahierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT stefaniekaiser ahierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT andrewconstable ahierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT robnicoll ahierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT benraymond ahierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT alexandrapost ahierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT angelikabrandt ahierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT danielbeaver ahierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT lucindaldouglass hierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT joelturner hierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT hedleysgrantham hierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT stefaniekaiser hierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT andrewconstable hierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT robnicoll hierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT benraymond hierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT alexandrapost hierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT angelikabrandt hierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
AT danielbeaver hierarchicalclassificationofbenthicbiodiversityandassessmentofprotectedareasinthesouthernocean
_version_ 1725976054307225600

Similar Items