Habitat heterogeneity and its influence on benthic biodiversity in oxygen minimum zones
Habitat heterogeneity and its influence on benthic biodiversity in oxygen minimum zones
Oxygen minimum zones (OMZs; midwater regions with O2 concentrations <0.5 ml l?1) are mid-water features that intercept continental margins at bathyal depths (100–1000 m). They are particularly well developed in the Eastern Pacific Ocean, the Arabian Sea and the Bay of Bengal. Based on analyses of data from these regions, we consider (i) how benthic habitat heterogeneity is manifested within OMZs, (ii) which aspects of this heterogeneity exert the greatest influence on alpha and beta diversity within particular OMZs and (iii) how heterogeneity associated with OMZs influences regional (gamma) diversity on continental margins. Sources of sea-floor habitat heterogeneity within OMZs include bottom-water oxygen and sulphide gradients, substratum characteristics, bacterial mats, and variations in the organic matter content of the sediment and pH. On some margins, hard grounds, formed of phosphorites, carbonates or biotic substrata, represent distinct subhabitats colonized by encrusting faunas. Most of the heterogeneity associated with OMZs, however, is created by strong sea-floor oxygen gradients, reinforced by changes in sediment characteristics and organic matter content. For the Pakistan margin, combining these parameters revealed clear environmental and faunal differences between the OMZ core and the upper and lower boundary regions. In all Pacific and Arabian Sea OMZs examined, oxygen appears to be the master driver of alpha and beta diversity in all benthic faunal groups for which data exist, as well as macrofaunal assemblage composition, particularly in the OMZ core. However, other factors, notably organic matter quantity and quality and sediment characteristics, come into play as oxygen concentrations begin to rise. The influence of OMZs on meiofaunal, macrofaunal and megafaunal regional (gamma) diversity is difficult to assess. Hypoxia is associated with a reduction in species richness in all benthic faunal groups, but there is also evidence for endemism in OMZ settings. We conclude that, on balance, OMZs probably enhance regional diversity, particularly in taxa such as Foraminifera, which are more tolerant of hypoxia than others. Over evolutionary timescales, they may promote speciation by creating strong gradients in selective pressures and barriers to gene flow.
125-147
Gooday, Andrew J.
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Bett, Brian J.
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Escobar, Elva
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Ingole, Baban
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Levin, Lisa A.
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Neira, Carlos
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Raman, Akkur V.
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Sellanes, Javier
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March 2010
Gooday, Andrew J.
d9331d67-d518-4cfb-baed-9df3333b05b9
Bett, Brian J.
61342990-13be-45ae-9f5c-9540114335d9
Escobar, Elva
c5e04dc5-246a-44c9-beb0-6d1ac0af6996
Ingole, Baban
3ef8d55f-4c7e-4ef4-9878-3c171077883a
Levin, Lisa A.
44c9684c-86c9-4d3e-9b37-27df96d55f72
Neira, Carlos
63ca3a5b-ce73-4db0-9cf5-4f5c424ace51
Raman, Akkur V.
794a8ca8-3536-4a51-aa5d-782ad5110677
Sellanes, Javier
c552417a-ae9a-4532-b9ba-5f1f7cf583b4
Gooday, Andrew J., Bett, Brian J., Escobar, Elva, Ingole, Baban, Levin, Lisa A., Neira, Carlos, Raman, Akkur V. and Sellanes, Javier
(2010)
Habitat heterogeneity and its influence on benthic biodiversity in oxygen minimum zones.
Marine Ecology, 31 (1), .
(doi:10.1111/j.1439-0485.2009.00348.x).
Abstract
Oxygen minimum zones (OMZs; midwater regions with O2 concentrations <0.5 ml l?1) are mid-water features that intercept continental margins at bathyal depths (100–1000 m). They are particularly well developed in the Eastern Pacific Ocean, the Arabian Sea and the Bay of Bengal. Based on analyses of data from these regions, we consider (i) how benthic habitat heterogeneity is manifested within OMZs, (ii) which aspects of this heterogeneity exert the greatest influence on alpha and beta diversity within particular OMZs and (iii) how heterogeneity associated with OMZs influences regional (gamma) diversity on continental margins. Sources of sea-floor habitat heterogeneity within OMZs include bottom-water oxygen and sulphide gradients, substratum characteristics, bacterial mats, and variations in the organic matter content of the sediment and pH. On some margins, hard grounds, formed of phosphorites, carbonates or biotic substrata, represent distinct subhabitats colonized by encrusting faunas. Most of the heterogeneity associated with OMZs, however, is created by strong sea-floor oxygen gradients, reinforced by changes in sediment characteristics and organic matter content. For the Pakistan margin, combining these parameters revealed clear environmental and faunal differences between the OMZ core and the upper and lower boundary regions. In all Pacific and Arabian Sea OMZs examined, oxygen appears to be the master driver of alpha and beta diversity in all benthic faunal groups for which data exist, as well as macrofaunal assemblage composition, particularly in the OMZ core. However, other factors, notably organic matter quantity and quality and sediment characteristics, come into play as oxygen concentrations begin to rise. The influence of OMZs on meiofaunal, macrofaunal and megafaunal regional (gamma) diversity is difficult to assess. Hypoxia is associated with a reduction in species richness in all benthic faunal groups, but there is also evidence for endemism in OMZ settings. We conclude that, on balance, OMZs probably enhance regional diversity, particularly in taxa such as Foraminifera, which are more tolerant of hypoxia than others. Over evolutionary timescales, they may promote speciation by creating strong gradients in selective pressures and barriers to gene flow.
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Published date: March 2010
Organisations:
Marine Biogeochemistry
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Local EPrints ID: 79453
URI: http://eprints.soton.ac.uk/id/eprint/79453
ISSN: 0173-9565
PURE UUID: afea8089-fb63-4bc8-8b37-d4a0b05803a1
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Date deposited: 15 Mar 2010
Last modified: 14 Mar 2024 00:29
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Author:
Andrew J. Gooday
Author:
Brian J. Bett
Author:
Elva Escobar
Author:
Baban Ingole
Author:
Lisa A. Levin
Author:
Carlos Neira
Author:
Akkur V. Raman
Author:
Javier Sellanes
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