1. Large-scale assessment of benthic communities across multiple marine protected areas using an autonomous underwater vehicle
- Author
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Stefan B. Williams, Alan Jordan, Hamish A. Malcolm, Maria Byrne, Peter D. Steinberg, Renata Ferrari, Ezequiel M. Marzinelli, Camila Rezende Ayroza, Will F. Figueira, Kalia, Vipin Chandra, and Singapore Centre for Environmental Life Sciences Engineering
- Subjects
0106 biological sciences ,Topography ,lcsh:Medicine ,Marine and Aquatic Sciences ,01 natural sciences ,Immersion ,Sampling design ,Marine Fish ,Taxonomic rank ,lcsh:Science ,Temporal scales ,Data Management ,Islands ,Multidisciplinary ,Ecology ,Coral Reefs ,Community structure ,Eukaryota ,Biota ,Robotics ,Biodiversity ,Plants ,Motor Vehicles ,Geography ,Community Ecology ,Benthic zone ,Vertebrates ,Research Article ,Environmental Monitoring ,Computer and Information Sciences ,Conservation of Natural Resources ,Algae ,Oceans and Seas ,Marine Biology ,010603 evolutionary biology ,Animals ,Benthic Communities ,Community Structure ,Taxonomy ,Marine biology ,Landforms ,010604 marine biology & hydrobiology ,lcsh:R ,Ecology and Environmental Sciences ,Organisms ,Biology and Life Sciences ,Geomorphology ,Fishery ,Fish ,Earth Sciences ,Reefs ,lcsh:Q ,Marine protected area - Abstract
Marine protected areas (MPAs) are designed to reduce threats to biodiversity and ecosystem functioning from anthropogenic activities. Assessment of MPAs effectiveness requires synchronous sampling of protected and non-protected areas at multiple spatial and temporal scales. We used an autonomous underwater vehicle to map benthic communities in replicate ‘no-take’ and ‘general-use’ (fishing allowed) zones within three MPAs along 7o of latitude. We recorded 92 taxa and 38 morpho-groups across three large MPAs. We found that important habitat-forming biota (e.g. massive sponges) were more prevalent and abundant in no-take zones, while short ephemeral algae were more abundant in general-use zones, suggesting potential short-term effects of zoning (5–10 years). Yet, short-term effects of zoning were not detected at the community level (community structure or composition), while community structure varied significantly among MPAs. We conclude that by allowing rapid, simultaneous assessments at multiple spatial scales, autonomous underwater vehicles are useful to document changes in marine communities and identify adequate scales to manage them. This study advanced knowledge of marine benthic communities and their conservation in three ways. First, we quantified benthic biodiversity and abundance, generating the first baseline of these benthic communities against which the effectiveness of three large MPAs can be assessed. Second, we identified the taxonomic resolution necessary to assess both short and long-term effects of MPAs, concluding that coarse taxonomic resolution is sufficient given that analyses of community structure at different taxonomic levels were generally consistent. Yet, observed differences were taxa-specific and may have not been evident using our broader taxonomic classifications, a classification of mid to high taxonomic resolution may be necessary to determine zoning effects on key taxa. Third, we provide an example of statistical analyses and sampling design that once temporal sampling is incorporated will be useful to detect changes of marine benthic communities across multiple spatial and temporal scales. Published version
- Published
- 2018
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