Sources, Composition, and Export of Particulate Organic Matter Across British Estuaries

E. elena García‐martín; Richard Sanders; Chris d. Evans; Vassilis Kitidis; Dan j. Lapworth; Bryan m. Spears; Andy Tye; Jennifer l. Williamson; Chris Balfour; Mike Best; Michael Bowes; Sarah Breimann; Ian j. Brown; Annette Burden; Nathan Callaghan; Nancy b. Dise; Gareth Farr; Stacey l. Felgate; James Fishwick; Mike Fraser; Stuart Gibb; Pete j. Gilbert; Nina Godsell; Africa p. Gomez‐castillo; Geoff Hargreaves; Carolyn Harris; Oban Jones; Paul Kennedy; Anna Lichtschlag; Adrian p. Martin; Rebecca May; Edward Mawji; Ian Mounteney; Philip d. Nightingale; Justyna p. Olszewska; Stuart c. Painter; Christopher r. Pearce; M. glória Pereira; Kate Peel; Amy Pickard; John a. Stephens; Mark Stinchcombe; Barry Thornton; E. malcolm s. Woodward; Deborah Yarrow; Daniel j. Mayor

doi:10.1029/2023JG007420

Sources, Composition, and Export of Particulate Organic Matter Across British Estuaries

E. elena García‐martín
, Richard Sanders
, Chris d. Evans
, Vassilis Kitidis
, Dan j. Lapworth
, Bryan m. Spears
, Andy Tye
, Jennifer l. Williamson
, Chris Balfour
, Mike Best
, Michael Bowes
, Sarah Breimann
, Ian j. Brown
, Annette Burden
, Nathan Callaghan
, Nancy b. Dise
, Gareth Farr
, Stacey l. Felgate
, James Fishwick
, Mike Fraser

Stuart Gibb, Pete j. Gilbert, Nina Godsell, Africa p. Gomez‐castillo, Geoff Hargreaves, Carolyn Harris, Oban Jones, Paul Kennedy, Anna Lichtschlag, Adrian p. Martin, Rebecca May, Edward Mawji, Ian Mounteney, Philip d. Nightingale, Justyna p. Olszewska, Stuart c. Painter, Christopher r. Pearce, M. glória Pereira, Kate Peel, Amy Pickard, John a. Stephens, Mark Stinchcombe, Barry Thornton, E. malcolm s. Woodward, Deborah Yarrow, Daniel j. Mayor

Environmental Research Institute

Publikation › Begutachtung

2 Zitate (Scopus)

Abstract

Estuaries receive and process a large amount of particulate organic carbon (POC) prior to its export into coastal waters. Studying the origin of this POC is key to understanding the fate of POC and the role of estuaries in the global carbon cycle. Here, we evaluated the concentrations of POC, as well as particulate organic nitrogen (PON), and used stable carbon and nitrogen isotopes to assess their sources across 13 contrasting British estuaries during five different sampling campaigns over 1 year. We found a high variability in POC and PON concentrations across the salinity gradient, reflecting inputs, and losses of organic material within the estuaries. Catchment land cover appeared to influence the contribution of POC to the total organic carbon flux from the estuary to coastal waters, with POC contributions >36% in estuaries draining catchments with a high percentage of urban/suburban land, and <11% in estuaries draining catchments with a high peatland cover. There was no seasonal pattern in the isotopic composition of POC and PON, suggesting similar sources for each estuary over time. Carbon isotopic ratios were depleted (−26.7 ± 0.42‰, average ± sd) at the lowest salinity waters, indicating mainly terrigenous POC (TPOC). Applying a two-source mixing model, we observed high variability in the contribution of TPOC at the highest salinity waters between estuaries, with a median value of 57%. Our results indicate a large transport of terrigenous organic carbon into coastal waters, where it may be buried, remineralized, or transported offshore.

Originalsprache	English
Aufsatznummer	e2023JG007420
Fachzeitschrift	Journal of Geophysical Research: Biogeosciences
Jahrgang	128
Ausgabenummer	4
DOIs	https://doi.org/10.1029/2023JG007420
Publikationsstatus	Published - 6 Apr. 2023

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https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2023JG007420

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García‐martín, E. E., Sanders, R., Evans, C. D., Kitidis, V., Lapworth, D. J., Spears, B. M., Tye, A., Williamson, J. L., Balfour, C., Best, M., Bowes, M., Breimann, S., Brown, I. J., Burden, A., Callaghan, N., Dise, N. B., Farr, G., Felgate, S. L., Fishwick, J., ... Mayor, D. J. (2023). Sources, Composition, and Export of Particulate Organic Matter Across British Estuaries. Journal of Geophysical Research: Biogeosciences, 128(4), Artikel e2023JG007420. https://doi.org/10.1029/2023JG007420

@article{923237e91ee34bf4be7b0b882f70c3d6,

title = "Sources, Composition, and Export of Particulate Organic Matter Across British Estuaries",

abstract = "Estuaries receive and process a large amount of particulate organic carbon (POC) prior to its export into coastal waters. Studying the origin of this POC is key to understanding the fate of POC and the role of estuaries in the global carbon cycle. Here, we evaluated the concentrations of POC, as well as particulate organic nitrogen (PON), and used stable carbon and nitrogen isotopes to assess their sources across 13 contrasting British estuaries during five different sampling campaigns over 1 year. We found a high variability in POC and PON concentrations across the salinity gradient, reflecting inputs, and losses of organic material within the estuaries. Catchment land cover appeared to influence the contribution of POC to the total organic carbon flux from the estuary to coastal waters, with POC contributions >36\% in estuaries draining catchments with a high percentage of urban/suburban land, and <11\% in estuaries draining catchments with a high peatland cover. There was no seasonal pattern in the isotopic composition of POC and PON, suggesting similar sources for each estuary over time. Carbon isotopic ratios were depleted (−26.7 ± 0.42‰, average ± sd) at the lowest salinity waters, indicating mainly terrigenous POC (TPOC). Applying a two-source mixing model, we observed high variability in the contribution of TPOC at the highest salinity waters between estuaries, with a median value of 57\%. Our results indicate a large transport of terrigenous organic carbon into coastal waters, where it may be buried, remineralized, or transported offshore.",

author = "Garc{\'i}a‐mart{\'i}n, \{E. elena\} and Richard Sanders and Evans, \{Chris d.\} and Vassilis Kitidis and Lapworth, \{Dan j.\} and Spears, \{Bryan m.\} and Andy Tye and Williamson, \{Jennifer l.\} and Chris Balfour and Mike Best and Michael Bowes and Sarah Breimann and Brown, \{Ian j.\} and Annette Burden and Nathan Callaghan and Dise, \{Nancy b.\} and Gareth Farr and Felgate, \{Stacey l.\} and James Fishwick and Mike Fraser and Stuart Gibb and Gilbert, \{Pete j.\} and Nina Godsell and Gomez‐castillo, \{Africa p.\} and Geoff Hargreaves and Carolyn Harris and Oban Jones and Paul Kennedy and Anna Lichtschlag and Martin, \{Adrian p.\} and Rebecca May and Edward Mawji and Ian Mounteney and Nightingale, \{Philip d.\} and Olszewska, \{Justyna p.\} and Painter, \{Stuart c.\} and Pearce, \{Christopher r.\} and Pereira, \{M. gl{\'o}ria\} and Kate Peel and Amy Pickard and Stephens, \{John a.\} and Mark Stinchcombe and Barry Thornton and Woodward, \{E. malcolm s.\} and Deborah Yarrow and Mayor, \{Daniel j.\}",

year = "2023",

month = apr,

day = "6",

doi = "10.1029/2023JG007420",

language = "English",

volume = "128",

journal = "Journal of Geophysical Research: Biogeosciences",

issn = "2169-8953",

publisher = "John Wiley and Sons Inc.",

number = "4",

}

García‐martín, EE, Sanders, R, Evans, CD, Kitidis, V, Lapworth, DJ, Spears, BM, Tye, A, Williamson, JL, Balfour, C, Best, M, Bowes, M, Breimann, S, Brown, IJ, Burden, A, Callaghan, N, Dise, NB, Farr, G, Felgate, SL, Fishwick, J, Fraser, M, Gibb, S, Gilbert, PJ, Godsell, N, Gomez‐castillo, AP, Hargreaves, G, Harris, C, Jones, O, Kennedy, P, Lichtschlag, A, Martin, AP, May, R, Mawji, E, Mounteney, I, Nightingale, PD, Olszewska, JP, Painter, SC, Pearce, CR, Pereira, MG, Peel, K, Pickard, A, Stephens, JA, Stinchcombe, M, Thornton, B, Woodward, EMS, Yarrow, D & Mayor, DJ 2023, 'Sources, Composition, and Export of Particulate Organic Matter Across British Estuaries', Journal of Geophysical Research: Biogeosciences, Jg. 128, Nr. 4, e2023JG007420. https://doi.org/10.1029/2023JG007420

TY - JOUR

T1 - Sources, Composition, and Export of Particulate Organic Matter Across British Estuaries

AU - García‐martín, E. elena

AU - Sanders, Richard

AU - Evans, Chris d.

AU - Kitidis, Vassilis

AU - Lapworth, Dan j.

AU - Spears, Bryan m.

AU - Tye, Andy

AU - Williamson, Jennifer l.

AU - Balfour, Chris

AU - Best, Mike

AU - Bowes, Michael

AU - Breimann, Sarah

AU - Brown, Ian j.

AU - Burden, Annette

AU - Callaghan, Nathan

AU - Dise, Nancy b.

AU - Farr, Gareth

AU - Felgate, Stacey l.

AU - Fishwick, James

AU - Fraser, Mike

AU - Gibb, Stuart

AU - Gilbert, Pete j.

AU - Godsell, Nina

AU - Gomez‐castillo, Africa p.

AU - Hargreaves, Geoff

AU - Harris, Carolyn

AU - Jones, Oban

AU - Kennedy, Paul

AU - Lichtschlag, Anna

AU - Martin, Adrian p.

AU - May, Rebecca

AU - Mawji, Edward

AU - Mounteney, Ian

AU - Nightingale, Philip d.

AU - Olszewska, Justyna p.

AU - Painter, Stuart c.

AU - Pearce, Christopher r.

AU - Pereira, M. glória

AU - Peel, Kate

AU - Pickard, Amy

AU - Stephens, John a.

AU - Stinchcombe, Mark

AU - Thornton, Barry

AU - Woodward, E. malcolm s.

AU - Yarrow, Deborah

AU - Mayor, Daniel j.

PY - 2023/4/6

Y1 - 2023/4/6

N2 - Estuaries receive and process a large amount of particulate organic carbon (POC) prior to its export into coastal waters. Studying the origin of this POC is key to understanding the fate of POC and the role of estuaries in the global carbon cycle. Here, we evaluated the concentrations of POC, as well as particulate organic nitrogen (PON), and used stable carbon and nitrogen isotopes to assess their sources across 13 contrasting British estuaries during five different sampling campaigns over 1 year. We found a high variability in POC and PON concentrations across the salinity gradient, reflecting inputs, and losses of organic material within the estuaries. Catchment land cover appeared to influence the contribution of POC to the total organic carbon flux from the estuary to coastal waters, with POC contributions >36% in estuaries draining catchments with a high percentage of urban/suburban land, and <11% in estuaries draining catchments with a high peatland cover. There was no seasonal pattern in the isotopic composition of POC and PON, suggesting similar sources for each estuary over time. Carbon isotopic ratios were depleted (−26.7 ± 0.42‰, average ± sd) at the lowest salinity waters, indicating mainly terrigenous POC (TPOC). Applying a two-source mixing model, we observed high variability in the contribution of TPOC at the highest salinity waters between estuaries, with a median value of 57%. Our results indicate a large transport of terrigenous organic carbon into coastal waters, where it may be buried, remineralized, or transported offshore.

AB - Estuaries receive and process a large amount of particulate organic carbon (POC) prior to its export into coastal waters. Studying the origin of this POC is key to understanding the fate of POC and the role of estuaries in the global carbon cycle. Here, we evaluated the concentrations of POC, as well as particulate organic nitrogen (PON), and used stable carbon and nitrogen isotopes to assess their sources across 13 contrasting British estuaries during five different sampling campaigns over 1 year. We found a high variability in POC and PON concentrations across the salinity gradient, reflecting inputs, and losses of organic material within the estuaries. Catchment land cover appeared to influence the contribution of POC to the total organic carbon flux from the estuary to coastal waters, with POC contributions >36% in estuaries draining catchments with a high percentage of urban/suburban land, and <11% in estuaries draining catchments with a high peatland cover. There was no seasonal pattern in the isotopic composition of POC and PON, suggesting similar sources for each estuary over time. Carbon isotopic ratios were depleted (−26.7 ± 0.42‰, average ± sd) at the lowest salinity waters, indicating mainly terrigenous POC (TPOC). Applying a two-source mixing model, we observed high variability in the contribution of TPOC at the highest salinity waters between estuaries, with a median value of 57%. Our results indicate a large transport of terrigenous organic carbon into coastal waters, where it may be buried, remineralized, or transported offshore.

U2 - 10.1029/2023JG007420

DO - 10.1029/2023JG007420

M3 - Article

SN - 2169-8953

VL - 128

JO - Journal of Geophysical Research: Biogeosciences

JF - Journal of Geophysical Research: Biogeosciences

IS - 4

M1 - e2023JG007420

ER -

Sources, Composition, and Export of Particulate Organic Matter Across British Estuaries

Abstract

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