Landscape controls on riverine export of dissolved organic carbon from Great Britain

The dissolved organic carbon (DOC) export from land to ocean via rivers is a significant term in the global C cycle, and has been modified in many areas by human activity. DOC exports from large global rivers are fairly well quantified, but those from smaller river systems, including those draining...

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Published in:Biogeochemistry
Main Authors: Williamson, Jennifer, Tye, Andrew, Lapworth, Dan J., Monteith, Don, Sanders, Richard, Mayor, Daniel J., Barry, Chris, Bowes, Mike, Bowes, Michael, Burden, Annette, Callaghan, Nathan, Farr, Gareth, Felgate, Stacey L., Gilbert, Peter J., Hargreaves, Geoff, Keenan, Patrick, Kitidis, Vassilis, Jurgens, Monica, Martin, Adrian P., Mounteney, Ian, Nightingale, Philip D., Pereira, M Glória, Olszewska, Justyna, Pickard, Amy, Rees, Andrew, Spears, Bryan, Stinchcombe, Mark, White, Debbie, Williams, Peter, Worrall, Fred, Gibb, Stuart, Evans, Chris
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Climate change
Online Access:https://pure.uhi.ac.uk/en/publications/07dc4b3e-0489-4381-ad29-30a6358fb661
https://doi.org/10.1007/s10533-021-00762-2
https://pureadmin.uhi.ac.uk/ws/files/15959755/Williamson._2021._LandscapeControlsOnRiverineExp.pdf
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spelling ftuhipublicatio:oai:pure.atira.dk:publications/07dc4b3e-0489-4381-ad29-30a6358fb661 2024-09-15T18:02:37+00:00 Landscape controls on riverine export of dissolved organic carbon from Great Britain Williamson, Jennifer Tye, Andrew Lapworth, Dan J. Monteith, Don Sanders, Richard Mayor, Daniel J. Barry, Chris Bowes, Mike Bowes, Michael Burden, Annette Callaghan, Nathan Farr, Gareth Felgate, Stacey L. Gilbert, Peter J. Hargreaves, Geoff Keenan, Patrick Kitidis, Vassilis Jurgens, Monica Martin, Adrian P. Mounteney, Ian Nightingale, Philip D. Pereira, M Glória Olszewska, Justyna Pickard, Amy Rees, Andrew Spears, Bryan Stinchcombe, Mark White, Debbie Williams, Peter Worrall, Fred Gibb, Stuart Evans, Chris 2021-02-16 application/pdf https://pure.uhi.ac.uk/en/publications/07dc4b3e-0489-4381-ad29-30a6358fb661 https://doi.org/10.1007/s10533-021-00762-2 https://pureadmin.uhi.ac.uk/ws/files/15959755/Williamson._2021._LandscapeControlsOnRiverineExp.pdf eng eng https://pure.uhi.ac.uk/en/publications/07dc4b3e-0489-4381-ad29-30a6358fb661 info:eu-repo/semantics/openAccess Williamson , J , Tye , A , Lapworth , D J , Monteith , D , Sanders , R , Mayor , D J , Barry , C , Bowes , M , Bowes , M , Burden , A , Callaghan , N , Farr , G , Felgate , S L , Gilbert , P J , Hargreaves , G , Keenan , P , Kitidis , V , Jurgens , M , Martin , A P , Mounteney , I , Nightingale , P D , Pereira , M G , Olszewska , J , Pickard , A , Rees , A , Spears , B , Stinchcombe , M , White , D , Williams , P , Worrall , F , Gibb , S & Evans , C 2021 , ' Landscape controls on riverine export of dissolved organic carbon from Great Britain ' , Biogeochemistry . https://doi.org/10.1007/s10533-021-00762-2 article 2021 ftuhipublicatio https://doi.org/10.1007/s10533-021-00762-2 2024-08-05T23:36:06Z The dissolved organic carbon (DOC) export from land to ocean via rivers is a significant term in the global C cycle, and has been modified in many areas by human activity. DOC exports from large global rivers are fairly well quantified, but those from smaller river systems, including those draining oceanic regions, are generally under-represented in global syntheses. Given that these regions typically have high runoff and high peat cover, they may exert a disproportionate influence on the global land–ocean DOC export. Here we describe a comprehensive new assessment of the annual riverine DOC export to estuaries across the island of Great Britain (GB), which spans the latitude range 50–60° N with strong spatial gradients of topography, soils, rainfall, land use and population density. DOC yields (export per unit area) were positively related to and best predicted by rainfall, peat extent and forest cover, but relatively insensitive to population density or agricultural development. Based on an empirical relationship with land use and rainfall we estimate that the DOC export from the GB land area to the freshwater-seawater interface was 1.15 Tg C year−1 in 2017. The average yield for GB rivers is 5.04 g C m−2 year−1, higher than most of the world’s major rivers, including those of the humid tropics and Arctic, supporting the conclusion that under-representation of smaller river systems draining peat-rich areas could lead to under-estimation of the global land–ocean DOC export. The main anthropogenic factor influencing the spatial distribution of GB DOC exports appears to be upland conifer plantation forestry, which is estimated to have raised the overall DOC export by 0.168 Tg C year−1. This is equivalent to 15% of the estimated current rate of net CO2 uptake by British forests. With the UK and many other countries seeking to expand plantation forest cover for climate change mitigation, this ‘leak in the ecosystem’ should be incorporated in future assessments of the CO2 sequestration potential of forest planting ... Article in Journal/Newspaper Climate change University of the Highlands and Islands: Research Database of UHI Biogeochemistry
institution Open Polar
collection University of the Highlands and Islands: Research Database of UHI
op_collection_id ftuhipublicatio
language English
description The dissolved organic carbon (DOC) export from land to ocean via rivers is a significant term in the global C cycle, and has been modified in many areas by human activity. DOC exports from large global rivers are fairly well quantified, but those from smaller river systems, including those draining oceanic regions, are generally under-represented in global syntheses. Given that these regions typically have high runoff and high peat cover, they may exert a disproportionate influence on the global land–ocean DOC export. Here we describe a comprehensive new assessment of the annual riverine DOC export to estuaries across the island of Great Britain (GB), which spans the latitude range 50–60° N with strong spatial gradients of topography, soils, rainfall, land use and population density. DOC yields (export per unit area) were positively related to and best predicted by rainfall, peat extent and forest cover, but relatively insensitive to population density or agricultural development. Based on an empirical relationship with land use and rainfall we estimate that the DOC export from the GB land area to the freshwater-seawater interface was 1.15 Tg C year−1 in 2017. The average yield for GB rivers is 5.04 g C m−2 year−1, higher than most of the world’s major rivers, including those of the humid tropics and Arctic, supporting the conclusion that under-representation of smaller river systems draining peat-rich areas could lead to under-estimation of the global land–ocean DOC export. The main anthropogenic factor influencing the spatial distribution of GB DOC exports appears to be upland conifer plantation forestry, which is estimated to have raised the overall DOC export by 0.168 Tg C year−1. This is equivalent to 15% of the estimated current rate of net CO2 uptake by British forests. With the UK and many other countries seeking to expand plantation forest cover for climate change mitigation, this ‘leak in the ecosystem’ should be incorporated in future assessments of the CO2 sequestration potential of forest planting ...
format Article in Journal/Newspaper
author Williamson, Jennifer
Tye, Andrew
Lapworth, Dan J.
Monteith, Don
Sanders, Richard
Mayor, Daniel J.
Barry, Chris
Bowes, Mike
Bowes, Michael
Burden, Annette
Callaghan, Nathan
Farr, Gareth
Felgate, Stacey L.
Gilbert, Peter J.
Hargreaves, Geoff
Keenan, Patrick
Kitidis, Vassilis
Jurgens, Monica
Martin, Adrian P.
Mounteney, Ian
Nightingale, Philip D.
Pereira, M Glória
Olszewska, Justyna
Pickard, Amy
Rees, Andrew
Spears, Bryan
Stinchcombe, Mark
White, Debbie
Williams, Peter
Worrall, Fred
Gibb, Stuart
Evans, Chris
spellingShingle Williamson, Jennifer
Tye, Andrew
Lapworth, Dan J.
Monteith, Don
Sanders, Richard
Mayor, Daniel J.
Barry, Chris
Bowes, Mike
Bowes, Michael
Burden, Annette
Callaghan, Nathan
Farr, Gareth
Felgate, Stacey L.
Gilbert, Peter J.
Hargreaves, Geoff
Keenan, Patrick
Kitidis, Vassilis
Jurgens, Monica
Martin, Adrian P.
Mounteney, Ian
Nightingale, Philip D.
Pereira, M Glória
Olszewska, Justyna
Pickard, Amy
Rees, Andrew
Spears, Bryan
Stinchcombe, Mark
White, Debbie
Williams, Peter
Worrall, Fred
Gibb, Stuart
Evans, Chris
Landscape controls on riverine export of dissolved organic carbon from Great Britain
author_facet Williamson, Jennifer
Tye, Andrew
Lapworth, Dan J.
Monteith, Don
Sanders, Richard
Mayor, Daniel J.
Barry, Chris
Bowes, Mike
Bowes, Michael
Burden, Annette
Callaghan, Nathan
Farr, Gareth
Felgate, Stacey L.
Gilbert, Peter J.
Hargreaves, Geoff
Keenan, Patrick
Kitidis, Vassilis
Jurgens, Monica
Martin, Adrian P.
Mounteney, Ian
Nightingale, Philip D.
Pereira, M Glória
Olszewska, Justyna
Pickard, Amy
Rees, Andrew
Spears, Bryan
Stinchcombe, Mark
White, Debbie
Williams, Peter
Worrall, Fred
Gibb, Stuart
Evans, Chris
author_sort Williamson, Jennifer
title Landscape controls on riverine export of dissolved organic carbon from Great Britain
title_short Landscape controls on riverine export of dissolved organic carbon from Great Britain
title_full Landscape controls on riverine export of dissolved organic carbon from Great Britain
title_fullStr Landscape controls on riverine export of dissolved organic carbon from Great Britain
title_full_unstemmed Landscape controls on riverine export of dissolved organic carbon from Great Britain
title_sort landscape controls on riverine export of dissolved organic carbon from great britain
publishDate 2021
url https://pure.uhi.ac.uk/en/publications/07dc4b3e-0489-4381-ad29-30a6358fb661
https://doi.org/10.1007/s10533-021-00762-2
https://pureadmin.uhi.ac.uk/ws/files/15959755/Williamson._2021._LandscapeControlsOnRiverineExp.pdf
genre Climate change
genre_facet Climate change
op_source Williamson , J , Tye , A , Lapworth , D J , Monteith , D , Sanders , R , Mayor , D J , Barry , C , Bowes , M , Bowes , M , Burden , A , Callaghan , N , Farr , G , Felgate , S L , Gilbert , P J , Hargreaves , G , Keenan , P , Kitidis , V , Jurgens , M , Martin , A P , Mounteney , I , Nightingale , P D , Pereira , M G , Olszewska , J , Pickard , A , Rees , A , Spears , B , Stinchcombe , M , White , D , Williams , P , Worrall , F , Gibb , S & Evans , C 2021 , ' Landscape controls on riverine export of dissolved organic carbon from Great Britain ' , Biogeochemistry . https://doi.org/10.1007/s10533-021-00762-2
op_relation https://pure.uhi.ac.uk/en/publications/07dc4b3e-0489-4381-ad29-30a6358fb661
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1007/s10533-021-00762-2
container_title Biogeochemistry
_version_ 1810440060230696960

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