Towards a framework for the quantitative assessment of trawling impact on the seabed and benthic ecosystem

A. D. Rijnsdorp; F. Bastardie; S. G. Bolam; L. Buhl-Mortensen; O. R. Eigaard; K. G. Hamon; J. G. Hiddink; N. T. Hintzen; A. Ivanovic; A. Kenny; P. Laffargue; J. R. Nielsen; F. G. O'Neill; G. J. Piet; H. Polet; A. Sala; C. Smith; P. D. van Denderen; T. van Kooten; M. Zengin

doi:10.1093/icesjms/fsv207

Towards a framework for the quantitative assessment of trawling impact on the seabed and benthic ecosystem

A. D. Rijnsdorp^*, F. Bastardie, S. G. Bolam, L. Buhl-Mortensen, O. R. Eigaard, K. G. Hamon, J. G. Hiddink, N. T. Hintzen, A. Ivanovic, A. Kenny, P. Laffargue, J. R. Nielsen, F. G. O'Neill, G. J. Piet, H. Polet, A. Sala, C. Smith, P. D. van Denderen, T. van Kooten, M. Zengin

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

83 Citations (Scopus)

13 Downloads (Pure)

Abstract

A framework to assess the impact of mobile fishing gear on the seabed and benthic ecosystem is presented. The framework that can be used at regional and local scales provides indicators for both trawling pressure and ecological impact. It builds on high-resolution maps of trawling intensity and considers the physical effects of trawl gears on the seabed, on marine taxa, and on the functioning of the benthic ecosystem. Within the framework, a reductionist approach is applied that breaks down a fishing gear into its components, and a number of biological traits are chosen to determine either the vulnerability of the benthos to the impact of that gear component, or to provide a proxy for their ecological role. The approach considers gear elements, such as otter boards, twin trawl clump, and groundrope, and sweeps that herd the fish. The physical impact of these elements on the seabed, comprising scraping of the seabed, sediment mobilization, and penetration, is a function of the mass, size, and speed of the individual component. The impact of the elements on the benthic community is quantified using a biological-trait approach that considers the vulnerability of the benthic community to trawl impact (e.g. sediment position, morphology), the recovery rate (e.g. longevity, maturation age, reproductive characteristics, dispersal), and their ecological role. The framework is explored to compare the indicators for pressure and ecological impact of bottom trawling in three main seabed habitat types in the North Sea. Preliminary results show that the Sublittoral mud (EUNIS A5.3) is affected the most due to the combined effect of intensive fishing and large proportions of long-lived taxa.

Original language	English
Pages (from-to)	127-138
Number of pages	12
Journal	ICES Journal of Marine Science
Volume	73
Issue number	Suppl. 1
Early online date	15 Nov 2015
DOIs	https://doi.org/10.1093/icesjms/fsv207
Publication status	Published - 19 Jan 2016
Event	ICES Scientific Symposium on Effects of Fishing on Benthic Fauna, Habitat and Ecosystem Function - Tromso, Norway Duration: 16 Jun 2014 → 19 Jun 2014

Bibliographical note

Acknowledgements

This paper was prepared under the FP7 project BENTHIS (312088). The article does not necessarily reflect the views of the European Commission and does not anticipate the Commission's future policy in this area. We acknowledge gratefully the critical comments of three reviewers.

Keywords

benthos
biological traits
good environmental status
indicators
method
mobile gear
physical impacts

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1093/icesjms/fsv207Licence: Unspecified

Accepted Manuscript
This is a pre-copyedited, author-produced PDF of an article accepted for publication in ICES Journal of Marine Science following peer review. The version of record Rijnsdorp, AD, Bastardie, F, Bolam, SG, Buhl-Mortensen, L, Eigaard, OR, Hamon, KG, Hiddink, JG, Hintzen, NT, Ivanovic, A, Kenny, A, Laffargue, P, Nielsen, JR, O'Neill, FG, Piet, GJ, Polet, H, Sala, A, Smith, C, van denderen, PD, van Kooten, T & Zengin, M 2016, 'Towards a framework for the quantitative assessment of trawling impact on the seabed and benthic ecosystem' ICES Journal of Marine Science, vol 73, no. Suppl. 1, pp. 127-138., is available online at http://icesjms.oxfordjournals.org/content/73/suppl_1/i127
Accepted author manuscript, 256 KBLicence: Unspecified
Accepted Manuscript - Reply to Review comments of Review Editor Sept 2015Accepted author manuscript, 23.9 KBLicence: Unspecified

Cite this

Rijnsdorp, A. D., Bastardie, F., Bolam, S. G., Buhl-Mortensen, L., Eigaard, O. R., Hamon, K. G., Hiddink, J. G., Hintzen, N. T., Ivanovic, A., Kenny, A., Laffargue, P., Nielsen, J. R., O'Neill, F. G., Piet, G. J., Polet, H., Sala, A., Smith, C., van Denderen, P. D., van Kooten, T., & Zengin, M. (2016). Towards a framework for the quantitative assessment of trawling impact on the seabed and benthic ecosystem. ICES Journal of Marine Science, 73(Suppl. 1), 127-138. https://doi.org/10.1093/icesjms/fsv207

Rijnsdorp, AD, Bastardie, F, Bolam, SG, Buhl-Mortensen, L, Eigaard, OR, Hamon, KG, Hiddink, JG, Hintzen, NT, Ivanovic, A, Kenny, A, Laffargue, P, Nielsen, JR, O'Neill, FG, Piet, GJ, Polet, H, Sala, A, Smith, C, van Denderen, PD, van Kooten, T & Zengin, M 2016, 'Towards a framework for the quantitative assessment of trawling impact on the seabed and benthic ecosystem', ICES Journal of Marine Science, vol. 73, no. Suppl. 1, pp. 127-138. https://doi.org/10.1093/icesjms/fsv207

@article{37737036b3cf45aaa3368e91fc5abd74,

title = "Towards a framework for the quantitative assessment of trawling impact on the seabed and benthic ecosystem",

abstract = "A framework to assess the impact of mobile fishing gear on the seabed and benthic ecosystem is presented. The framework that can be used at regional and local scales provides indicators for both trawling pressure and ecological impact. It builds on high-resolution maps of trawling intensity and considers the physical effects of trawl gears on the seabed, on marine taxa, and on the functioning of the benthic ecosystem. Within the framework, a reductionist approach is applied that breaks down a fishing gear into its components, and a number of biological traits are chosen to determine either the vulnerability of the benthos to the impact of that gear component, or to provide a proxy for their ecological role. The approach considers gear elements, such as otter boards, twin trawl clump, and groundrope, and sweeps that herd the fish. The physical impact of these elements on the seabed, comprising scraping of the seabed, sediment mobilization, and penetration, is a function of the mass, size, and speed of the individual component. The impact of the elements on the benthic community is quantified using a biological-trait approach that considers the vulnerability of the benthic community to trawl impact (e.g. sediment position, morphology), the recovery rate (e.g. longevity, maturation age, reproductive characteristics, dispersal), and their ecological role. The framework is explored to compare the indicators for pressure and ecological impact of bottom trawling in three main seabed habitat types in the North Sea. Preliminary results show that the Sublittoral mud (EUNIS A5.3) is affected the most due to the combined effect of intensive fishing and large proportions of long-lived taxa.",

keywords = "benthos, biological traits, good environmental status, indicators, method, mobile gear, physical impacts",

author = "Rijnsdorp, {A. D.} and F. Bastardie and Bolam, {S. G.} and L. Buhl-Mortensen and Eigaard, {O. R.} and Hamon, {K. G.} and Hiddink, {J. G.} and Hintzen, {N. T.} and A. Ivanovic and A. Kenny and P. Laffargue and Nielsen, {J. R.} and O'Neill, {F. G.} and Piet, {G. J.} and H. Polet and A. Sala and C. Smith and {van Denderen}, {P. D.} and {van Kooten}, T. and M. Zengin",

note = "Acknowledgements This paper was prepared under the FP7 project BENTHIS (312088). The article does not necessarily reflect the views of the European Commission and does not anticipate the Commission's future policy in this area. We acknowledge gratefully the critical comments of three reviewers.; ICES Scientific Symposium on Effects of Fishing on Benthic Fauna, Habitat and Ecosystem Function ; Conference date: 16-06-2014 Through 19-06-2014",

year = "2016",

month = jan,

day = "19",

doi = "10.1093/icesjms/fsv207",

language = "English",

volume = "73",

pages = "127--138",

journal = "ICES Journal of Marine Science",

issn = "1054-3139",

publisher = "Oxford University Press",

number = "Suppl. 1",

}

TY - JOUR

T1 - Towards a framework for the quantitative assessment of trawling impact on the seabed and benthic ecosystem

AU - Rijnsdorp, A. D.

AU - Bastardie, F.

AU - Bolam, S. G.

AU - Buhl-Mortensen, L.

AU - Eigaard, O. R.

AU - Hamon, K. G.

AU - Hiddink, J. G.

AU - Hintzen, N. T.

AU - Ivanovic, A.

AU - Kenny, A.

AU - Laffargue, P.

AU - Nielsen, J. R.

AU - O'Neill, F. G.

AU - Piet, G. J.

AU - Polet, H.

AU - Sala, A.

AU - Smith, C.

AU - van Denderen, P. D.

AU - van Kooten, T.

AU - Zengin, M.

N1 - Acknowledgements This paper was prepared under the FP7 project BENTHIS (312088). The article does not necessarily reflect the views of the European Commission and does not anticipate the Commission's future policy in this area. We acknowledge gratefully the critical comments of three reviewers.

PY - 2016/1/19

Y1 - 2016/1/19

N2 - A framework to assess the impact of mobile fishing gear on the seabed and benthic ecosystem is presented. The framework that can be used at regional and local scales provides indicators for both trawling pressure and ecological impact. It builds on high-resolution maps of trawling intensity and considers the physical effects of trawl gears on the seabed, on marine taxa, and on the functioning of the benthic ecosystem. Within the framework, a reductionist approach is applied that breaks down a fishing gear into its components, and a number of biological traits are chosen to determine either the vulnerability of the benthos to the impact of that gear component, or to provide a proxy for their ecological role. The approach considers gear elements, such as otter boards, twin trawl clump, and groundrope, and sweeps that herd the fish. The physical impact of these elements on the seabed, comprising scraping of the seabed, sediment mobilization, and penetration, is a function of the mass, size, and speed of the individual component. The impact of the elements on the benthic community is quantified using a biological-trait approach that considers the vulnerability of the benthic community to trawl impact (e.g. sediment position, morphology), the recovery rate (e.g. longevity, maturation age, reproductive characteristics, dispersal), and their ecological role. The framework is explored to compare the indicators for pressure and ecological impact of bottom trawling in three main seabed habitat types in the North Sea. Preliminary results show that the Sublittoral mud (EUNIS A5.3) is affected the most due to the combined effect of intensive fishing and large proportions of long-lived taxa.

AB - A framework to assess the impact of mobile fishing gear on the seabed and benthic ecosystem is presented. The framework that can be used at regional and local scales provides indicators for both trawling pressure and ecological impact. It builds on high-resolution maps of trawling intensity and considers the physical effects of trawl gears on the seabed, on marine taxa, and on the functioning of the benthic ecosystem. Within the framework, a reductionist approach is applied that breaks down a fishing gear into its components, and a number of biological traits are chosen to determine either the vulnerability of the benthos to the impact of that gear component, or to provide a proxy for their ecological role. The approach considers gear elements, such as otter boards, twin trawl clump, and groundrope, and sweeps that herd the fish. The physical impact of these elements on the seabed, comprising scraping of the seabed, sediment mobilization, and penetration, is a function of the mass, size, and speed of the individual component. The impact of the elements on the benthic community is quantified using a biological-trait approach that considers the vulnerability of the benthic community to trawl impact (e.g. sediment position, morphology), the recovery rate (e.g. longevity, maturation age, reproductive characteristics, dispersal), and their ecological role. The framework is explored to compare the indicators for pressure and ecological impact of bottom trawling in three main seabed habitat types in the North Sea. Preliminary results show that the Sublittoral mud (EUNIS A5.3) is affected the most due to the combined effect of intensive fishing and large proportions of long-lived taxa.

KW - benthos

KW - biological traits

KW - good environmental status

KW - indicators

KW - method

KW - mobile gear

KW - physical impacts

U2 - 10.1093/icesjms/fsv207

DO - 10.1093/icesjms/fsv207

M3 - Article

SN - 1054-3139

VL - 73

SP - 127

EP - 138

JO - ICES Journal of Marine Science

JF - ICES Journal of Marine Science

IS - Suppl. 1

T2 - ICES Scientific Symposium on Effects of Fishing on Benthic Fauna, Habitat and Ecosystem Function

Y2 - 16 June 2014 through 19 June 2014

ER -

Towards a framework for the quantitative assessment of trawling impact on the seabed and benthic ecosystem

Abstract

Bibliographical note

Keywords

UN SDGs

Access to Document

Fingerprint

Cite this