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Evaluating impacts of bottom trawling and hypoxia on benthic communities at the local, habitat, and regional scale using a modelling approach. / van Denderen, P.D.; Bolam, S.G.; Friedland, R. et al.
In: ICES Journal of Marine Science, Vol. 77, No. 1, 02.2020, p. 278-289.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

van Denderen, PD, Bolam, SG, Friedland, R, Hiddink, JG, Noren, K, Rijnsdrop, AD, Skold, M, Tornroos, A, Virtanen, EA & Valanko, S 2020, 'Evaluating impacts of bottom trawling and hypoxia on benthic communities at the local, habitat, and regional scale using a modelling approach', ICES Journal of Marine Science, vol. 77, no. 1, pp. 278-289. https://doi.org/10.1093/icesjms/fsz219

APA

van Denderen, P. D., Bolam, S. G., Friedland, R., Hiddink, J. G., Noren, K., Rijnsdrop, A. D., Skold, M., Tornroos, A., Virtanen, E. A., & Valanko, S. (2020). Evaluating impacts of bottom trawling and hypoxia on benthic communities at the local, habitat, and regional scale using a modelling approach. ICES Journal of Marine Science, 77(1), 278-289. https://doi.org/10.1093/icesjms/fsz219

CBE

van Denderen PD, Bolam SG, Friedland R, Hiddink JG, Noren K, Rijnsdrop AD, Skold M, Tornroos A, Virtanen EA, Valanko S. 2020. Evaluating impacts of bottom trawling and hypoxia on benthic communities at the local, habitat, and regional scale using a modelling approach. ICES Journal of Marine Science. 77(1):278-289. https://doi.org/10.1093/icesjms/fsz219

MLA

VancouverVancouver

van Denderen PD, Bolam SG, Friedland R, Hiddink JG, Noren K, Rijnsdrop AD et al. Evaluating impacts of bottom trawling and hypoxia on benthic communities at the local, habitat, and regional scale using a modelling approach. ICES Journal of Marine Science. 2020 Feb;77(1):278-289. Epub 2019 Nov 20. doi: 10.1093/icesjms/fsz219

Author

van Denderen, P.D. ; Bolam, S.G. ; Friedland, R. et al. / Evaluating impacts of bottom trawling and hypoxia on benthic communities at the local, habitat, and regional scale using a modelling approach. In: ICES Journal of Marine Science. 2020 ; Vol. 77, No. 1. pp. 278-289.

RIS

TY - JOUR

T1 - Evaluating impacts of bottom trawling and hypoxia on benthic communities at the local, habitat, and regional scale using a modelling approach

AU - van Denderen, P.D.

AU - Bolam, S.G.

AU - Friedland, R.

AU - Hiddink, Jan Geert

AU - Noren, K.

AU - Rijnsdrop, A.D.

AU - Skold, M.

AU - Tornroos, A.

AU - Virtanen, E.A.

AU - Valanko, S.

PY - 2020/2

Y1 - 2020/2

N2 - Bottom trawling disturbance and hypoxia are affecting marine benthic habitats worldwide. We present 22 an approach to predict their effects on benthic communities, and use the approach to estimate the state, 23 the biomass relative to carrying capacity, of the Baltic Sea at the local, habitat and regional scale. 24 Responses to both pressures are expected to depend on the longevity of fauna, which is predicted from 25 benthic data from 1558 locations. We find that communities in low-salinity regions mostly consist of 26 short-lived species, which are, in our model, more resilient than those of the saline areas. The model 27 predicts that in 14% of the Baltic Sea region benthic biomass is reduced by at least 50%, whereas an 28 additional 8% of the region has reductions of 10-50%. The effects of hypoxia occur over larger spatial 29 scales and lead to a low state of especially deep habitats. The approach is based on a simple 30 characterization of the benthic community, which comes with high uncertainty, but allows for the 31 identification of benthic habitats that are at greatest risk and prioritization of management actions at the 32 regional scale. This information supports the development of sustainable approaches to manage impact 33 of human activities on benthic ecosystems.

AB - Bottom trawling disturbance and hypoxia are affecting marine benthic habitats worldwide. We present 22 an approach to predict their effects on benthic communities, and use the approach to estimate the state, 23 the biomass relative to carrying capacity, of the Baltic Sea at the local, habitat and regional scale. 24 Responses to both pressures are expected to depend on the longevity of fauna, which is predicted from 25 benthic data from 1558 locations. We find that communities in low-salinity regions mostly consist of 26 short-lived species, which are, in our model, more resilient than those of the saline areas. The model 27 predicts that in 14% of the Baltic Sea region benthic biomass is reduced by at least 50%, whereas an 28 additional 8% of the region has reductions of 10-50%. The effects of hypoxia occur over larger spatial 29 scales and lead to a low state of especially deep habitats. The approach is based on a simple 30 characterization of the benthic community, which comes with high uncertainty, but allows for the 31 identification of benthic habitats that are at greatest risk and prioritization of management actions at the 32 regional scale. This information supports the development of sustainable approaches to manage impact 33 of human activities on benthic ecosystems.

KW - benthic fauna

KW - bottom fishing

KW - ecosystem-based management

KW - human pressures

KW - impact assessment

KW - oxygen deficiency

KW - seabed disturbance

U2 - 10.1093/icesjms/fsz219

DO - 10.1093/icesjms/fsz219

M3 - Article

VL - 77

SP - 278

EP - 289

JO - ICES Journal of Marine Science

JF - ICES Journal of Marine Science

SN - 1054-3139

IS - 1

ER -