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1. The Western Channel Observatory: a century of oceanographic, chemical and biological data compiled from pelagic and benthic habitats in the Western English Channel

Author

McEvoy, Andrea J., primary, Atkinson, Angus, additional, Airs, Ruth L., additional, Brittain, Rachel, additional, Brown, Ian, additional, Fileman, Elaine S., additional, Findlay, Helen S., additional, McNeill, Caroline L., additional, Ostle, Clare, additional, Smyth, Tim J., additional, Somerfield, Paul J., additional, Tait, Karen, additional, Tarran, Glen A., additional, Thomas, Simon, additional, Widdicombe, Claire E., additional, Woodward, E. Malcolm S., additional, Beesley, Amanda, additional, Conway, Dave V. P., additional, Fishwick, James, additional, Haines, Hannah, additional, Harris, Carolyn, additional, Harris, Roger, additional, Hélaouët, Pierre, additional, Johns, David, additional, Lindeque, Penelope K., additional, Mesher, Thomas, additional, McQuatters-Gollop, Abigail, additional, Nunes, Joana, additional, Perry, Frances, additional, Queiros, Ana M., additional, Rees, Andrew, additional, Rühl, Saskia, additional, Sims, David, additional, Torres, Ricardo, additional, and Widdicombe, Stephen, additional

Published
2023
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2. Biological and photo-physiological interactions between phytoplankton functional types : a five year study in the western English Channel

Author

Fishwick, James Richard

Subjects
579.81776336
Abstract

Sampling at the western English Channel observatory dates back approximately 100 years, with a more complete sampling programme since 1988. The data set in this study was collected over a five year period between 2001 and 2005. The variables measured allow for a more complete understanding of the ecosystem, this is the only study to have reported the photo-physiology measurements over such time scales. The western English Channel is situated in a boundary zone between the oceanic waters of the Northern Atlantic and the coastal waters of the English Channel. This study has provided substantial evidence that the phytoplankton functional type (PFT) succession is governed by the environmental drivers (irradiance, surface water temperature and nutrient availability) and as the environmental conditions vary each year so does the phytoplankton seasonal succession. The relationships between the phytoplankton pigment assemblage, with particular interest to the ratios of chlorophyll a, photo-synthetic and photo-protective carotenoids to total pigment concentration, are investigated. The chlorophyll a to Total pigment ratio (Chla/TP) is reported to increase in conditions conducive for growth and decrease when conditions are less favourable, this is related to both PFTs synthesising Chla preferentially in periods of growth and a shift in the community structure. The photo-physiology of the PFT community indicated relatively high values of Fv/Fm throughout the whole time series, adding further evidence of community shifts where PFTs adapted to the particular conditions. The σpsII was shown to be one of the mechanisms by which PFTs adapt to the environmental conditions. σpsII is high in low light regimes and is reduced when irradiance levels are high. The optical absorption by phytoplankton is shown to correlate with the pigment ratio (Chla/TP) and to a lesser extent σpsII. No consistent correlations between the Fv/Fm and the optical absorption could be identified.

Published
2008

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

Author

García‐Martín, E. Elena, primary, Sanders, Richard, additional, Evans, Chris D., additional, Kitidis, Vassilis, additional, Lapworth, Dan J., additional, Spears, Bryan M., additional, Tye, Andy, additional, Williamson, Jennifer L., additional, Balfour, Chris, additional, Best, Mike, additional, Bowes, Michael, additional, Breimann, Sarah, additional, Brown, Ian J., additional, Burden, Annette, additional, Callaghan, Nathan, additional, Dise, Nancy B., additional, Farr, Gareth, additional, Felgate, Stacey L., additional, Fishwick, James, additional, Fraser, Mike, additional, Gibb, Stuart, additional, Gilbert, Pete J., additional, Godsell, Nina, additional, Gomez‐Castillo, Africa P., additional, Hargreaves, Geoff, additional, Harris, Carolyn, additional, Jones, Oban, additional, Kennedy, Paul, additional, Lichtschlag, Anna, additional, Martin, Adrian P., additional, May, Rebecca, additional, Mawji, Edward, additional, Mounteney, Ian, additional, Nightingale, Philip D., additional, Olszewska, Justyna P., additional, Painter, Stuart C., additional, Pearce, Christopher R., additional, Pereira, M. Glória, additional, Peel, Kate, additional, Pickard, Amy, additional, Stephens, John A., additional, Stinchcombe, Mark, additional, Thornton, Barry, additional, Woodward, E. Malcolm S., additional, Yarrow, Deborah, additional, and Mayor, Daniel J., additional

Published
2023
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5. Sources, Composition, and Export of Particulate Organic Matter Across British Estuaries

Author

Garcia-Martin, E. Elena, Sanders, Richard, Evans, Chris D., Kitidis, Vassilis, Lapworth, Dan J., Spears, Bryan M., Tye, Andy, Williamson, Jennifer L., Balfour, Chris, Best, Mike, Bowes, Michael, Breimann, Sarah, Brown, Ian J., Burden, Annette, Callaghan, Nathan, Dise, Nancy B., Farr, Gareth, Felgate, Stacey L., Fishwick, James, Fraser, Mike, Gibb, Stuart, Gilbert, Pete J., Godsell, Nina, Gomez-Castillo, Africa P., Hargreaves, Geoff, Harris, Carolyn, Jones, Oban, Kennedy, Paul, Lichtschlag, Anna, Martin, Adrian P., May, Rebecca, Mawji, Edward, Mounteney, Ian, Nightingale, Philip D., Olszewska, Justyna P., Painter, Stuart C., Pearce, Christopher R., Pereira, M. Gloria, Peel, Kate, Pickard, Amy, Stephens, John A., Stinchcombe, Mark, Thornton, Barry, Woodward, E. Malcolm S., Yarrow, Deborah, Mayor, Daniel J., Garcia-Martin, E. Elena, Sanders, Richard, Evans, Chris D., Kitidis, Vassilis, Lapworth, Dan J., Spears, Bryan M., Tye, Andy, Williamson, Jennifer L., Balfour, Chris, Best, Mike, Bowes, Michael, Breimann, Sarah, Brown, Ian J., Burden, Annette, Callaghan, Nathan, Dise, Nancy B., Farr, Gareth, Felgate, Stacey L., Fishwick, James, Fraser, Mike, Gibb, Stuart, Gilbert, Pete J., Godsell, Nina, Gomez-Castillo, Africa P., Hargreaves, Geoff, Harris, Carolyn, Jones, Oban, Kennedy, Paul, Lichtschlag, Anna, Martin, Adrian P., May, Rebecca, Mawji, Edward, Mounteney, Ian, Nightingale, Philip D., Olszewska, Justyna P., Painter, Stuart C., Pearce, Christopher R., Pereira, M. Gloria, Peel, Kate, Pickard, Amy, Stephens, John A., Stinchcombe, Mark, Thornton, Barry, Woodward, E. Malcolm S., Yarrow, Deborah, and Mayor, Daniel J.

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 parts per thousand, 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. Plain Language Summary Estuaries transport and process a large amount terrigenous particulate organic matter (i.e., carbon and nitrogen) prior to its export to coastal waters. In order to understand the fate of organic carbon and the role of estuaries in the global carbon cycle it is essential to improve our knowledge on its composition, origin, and amount of carbon transported. We quantified the

Published
2023
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6. Sources, composition, and export of particulate organic matter across British estuaries

Author

García‐Martín, E. Elena, Sanders, Richard, Evans, Chris D., Kitidis, Vassilis, Lapworth, Dan J., Spears, Bryan M., Tye, Andy, Williamson, Jennifer L., Balfour, Chris, Best, Mike, Bowes, Michael, Breimann, Sarah, Brown, Ian J., Burden, Annette, Callaghan, Nathan, Dise, Nancy B., Farr, Gareth, Felgate, Stacey L., Fishwick, James, Fraser, Mike, Gibb, Stuart, Gilbert, Pete J., Godsell, Nina, Gomez‐Castillo, Africa P., Hargreaves, Geoff, Harris, Carolyn, Jones, Oban, Kennedy, Paul, Lichtschlag, Anna, Martin, Adrian P., May, Rebecca, Mawji, Edward, Mounteney, Ian, Nightingale, Philip D., Olszewska, Justyna P., Painter, Stuart C., Pearce, Christopher R., Pereira, M. Glória, Peel, Kate, Pickard, Amy, Stephens, John A., Stinchcombe, Mark, Thornton, Barry, Woodward, E. Malcolm S., Yarrow, Deborah, Mayor, Daniel J., García‐Martín, E. Elena, Sanders, Richard, Evans, Chris D., Kitidis, Vassilis, Lapworth, Dan J., Spears, Bryan M., Tye, Andy, Williamson, Jennifer L., Balfour, Chris, Best, Mike, Bowes, Michael, Breimann, Sarah, Brown, Ian J., Burden, Annette, Callaghan, Nathan, Dise, Nancy B., Farr, Gareth, Felgate, Stacey L., Fishwick, James, Fraser, Mike, Gibb, Stuart, Gilbert, Pete J., Godsell, Nina, Gomez‐Castillo, Africa P., Hargreaves, Geoff, Harris, Carolyn, Jones, Oban, Kennedy, Paul, Lichtschlag, Anna, Martin, Adrian P., May, Rebecca, Mawji, Edward, Mounteney, Ian, Nightingale, Philip D., Olszewska, Justyna P., Painter, Stuart C., Pearce, Christopher R., Pereira, M. Glória, Peel, Kate, Pickard, Amy, Stephens, John A., Stinchcombe, Mark, Thornton, Barry, Woodward, E. Malcolm S., Yarrow, Deborah, and Mayor, Daniel J.

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.

Published
2023

8. The Western Channel Observatory: a century of physical, chemical and biological data compiled from pelagic and benthic habitats in the western English Channel.

Author

McEvoy, Andrea J., Atkinson, Angus, Airs, Ruth L., Brittain, Rachel, Brown, Ian, Fileman, Elaine S., Findlay, Helen S., McNeill, Caroline L., Ostle, Clare, Smyth, Tim J., Somerfield, Paul J., Tait, Karen, Tarran, Glen A., Thomas, Simon, Widdicombe, Claire E., Woodward, E. Malcolm S., Beesley, Amanda, Conway, David V. P., Fishwick, James, and Haines, Hannah

Subjects
DINOFLAGELLATES, PHYTOPLANKTON, OBSERVATORIES, HIGH performance liquid chromatography, FISH larvae, METADATA, DATA libraries, FISH surveys
Abstract

The Western Channel Observatory (WCO) comprises a series of pelagic, benthic and atmospheric sampling sites within 40 km of Plymouth, UK, that have been sampled by the Plymouth institutes on a regular basis since 1903. This longevity of recording and the high frequency of observations provide a unique combination of data; for example temperature data were first collected in 1903, and the reference station L4, where nearly 400 planktonic taxa have been enumerated, has been sampled on a weekly basis since 1988. While the component datasets have been archived, here we provide the first summary database bringing together a wide suite of the observations. This provides monthly average values of some of the key pelagic and benthic measurements for the inshore site L4 (50 ∘ 15.00 ′ N, 4 ∘ 13.02 ′ W; approx. depth 55 m), the offshore site E1 (50 ∘ 02.00 ′ N, 4 ∘ 22.00 ′ W; approx. depth 75 m) and the intermediate L5 site (50 ∘ 10.80 ′ N, 4 ∘ 18.00 ′ W; approx. depth 58 m). In brief, these data include the following: water temperature (from 1903); macronutrients (from 1934); dissolved inorganic carbon and total alkalinity (from 2008); methane and nitrous oxide (from 2011); chlorophyll a (from 1992); high-performance liquid chromatography (HPLC)-derived pigments (from 1999); <20 µm plankton by flow cytometry, including bacteria (8 functional groups from 2007); phytoplankton by microscopy (6 functional groups from 1992); microplankton and mesozooplankton from FlowCam (6 groups from 2012); Noctiluca sp. dinoflagellate (from 1997); mesozooplankton by microscopy (8 groups from 1988); Calanus helgolandicus egg production rates (from 1992); fish larvae from the Young Fish Trawl survey (4 groups from 1924); benthic macrofauna (4 groups from 2008); demersal fish (19 families from 2008); blue shark, Prionace glauca (from 1958); and 16S alpha diversity for sediment and water column (from 2012). These data have varying coverage with respect to time and depth resolution. The metadata tables describe each dataset and provide pointers to the source data and other related Western Channel Observatory datasets and outputs not compiled here. We provide summaries of the main trends in seasonality and some major climate-related shifts that have been revealed over the last century. The data are available from the Data Archive for Seabed Species and Habitats (DASSH): 10.17031/645110fb81749 (McEvoy and Atkinson, 2023). Making these data fully accessible and including units of both abundance and biomass will stimulate a variety of uptakes. These may include uses as an educational resource for projects, for models and budgets, for the analysis of seasonality and long-term change in a coupled benthic–pelagic system, or for supporting UK and north-eastern Atlantic policy and management. [ABSTRACT FROM AUTHOR]

Published
2023
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10. The Western Channel Observatory: a century of oceanographic, chemical and biological data compiled from pelagic and benthic habitats in the Western English Channel.

Author

McEvoy, Andrea J., Atkinson, Angus, Airs, Ruth L., Brittain, Rachel, Brown, Ian, Fileman, Elaine S., Findlay, Helen S., McNeill, Caroline L., Ostle, Clare, Smyth, Tim J., Somerfield, Paul J., Tait, Karen, Tarran, Glen A., Thomas, Simon, Widdicombe, Claire E., Woodward, E. Malcolm S., Beesley, Amanda, Conway, David V. P., Fishwick, James, and Haines, Hannah

Subjects
OBSERVATORIES, FISH larvae, DATA libraries, FISH surveys, ZOOPLANKTON, DINOFLAGELLATES, WATER temperature, METADATA
Abstract

The Western Channel Observatory (WCO) comprises a series of pelagic, benthic and atmospheric sampling sites within 40 km of Plymouth UK, which have been sampled by the Plymouth Institutes on a regular basis since 1903. This longevity of recording and the high frequency of observations provide a unique combination of data; for example temperature data were first collected in 1903 and the reference station L4 has been sampled on a weekly basis since 1988 where nearly 400 planktonic taxa have been enumerated. While the component datasets have been archived, here we provide the first summary database bringing together a wide suite of the observations. This provides monthly average values of some of the key pelagic and benthic measurements for the inshore site L4 (50° 15.00' N, 4° 13.02' W approx depth 55 m), the offshore site E1 (50° 02.00' N, 4° 22.00' W approx depth 75 m) and the intermediate L5 site (50° 10.80' N 4° 18.00' W approx depth 58 m. In brief, the data include: water temperature (from 1903); macronutrients (from 1934); dissolved inorganic carbon and total alkalinity (from 2008); methane and nitrous oxide (from 2011); chlorophyll a (from 1992); HPLC-derived pigments (from 1999); <20 µm plankton by flow cytometry including bacteria (8 functional groups from 2007); phytoplankton by microscopy (6 functional groups from 1992); microplankton and mesozooplankton from FlowCam (6 groups from 2012), Noctiluca sp. dinoflagellate (from 1997); mesozooplankton by microscopy (8 groups from 1988); Calanus helgolandicus egg production rates (from 1992); fish larvae from Young Fish Trawl survey (4 groups from 1924); benthic macrofauna (4 groups from 2008); demersal fish (19 families from 2008); blue shark, Prionace glauca (from 1958); 16S alpha diversity for sediment and water column (from 2012). These data have varying coverage in time and depth resolution. The metadata tables describe each data set, provide pointers to the source data and other related Western Channel Observatory data sets and outputs not compiled here. We provide summaries of the main trends in seasonality and some major, climate related shifts that have been revealed over the last century. The data are available from Data Archive for Seabed Species and Habitats (DASSH) via the link http://doi.org/10.17031/645110fb81749 (McEvoy and Atkinson, 2023). Making the data fully accessible and including units of both abundance and biomass will stimulate a variety of uptakes. These may include uses as an educational resource for projects, for models and budgets or for analysis of seasonality and long-term change in a coupled benthic-pelagic system and for supporting UK and Northeast Atlantic policy and management. [ABSTRACT FROM AUTHOR]

Published
2023
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12. Tidal mixing of estuarine and coastal waters in the western English Channel is a control on spatial and temporal variability in seawater CO2

Author

Sims, Richard P., Bedington, Michael, Schuster, Ute, Watson, Andrew J., Kitidis, Vassilis, Torres, Ricardo, Findlay, Helen S., Fishwick, James R., Brown, Ian, and Bell, Thomas G.

Abstract

Surface ocean carbon dioxide (CO2) measurements are used to compute the oceanic air–sea CO2 flux. The CO2 flux component from rivers and estuaries is uncertain due to the high spatial and seasonal heterogeneity of CO2 in coastal waters. Existing high-quality CO2 instrumentation predominantly utilises showerhead and percolating style equilibrators optimised for open-ocean observations. The intervals between measurements made with such instrumentation make it difficult to resolve the fine-scale spatial variability of surface water CO2 at timescales relevant to the high frequency variability in estuarine and coastal environments. Here we present a novel dataset with unprecedented frequency and spatial resolution transects made at the Western Channel Observatory in the south-west of the UK from June to September 2016, using a fast-response seawater CO2 system. Novel observations were made along the estuarine–coastal continuum at different stages of the tide and reveal distinct spatial patterns in the surface water CO2 fugacity (fCO2) at different stages of the tidal cycle. Changes in salinity and fCO2 were closely correlated at all stages of the tidal cycle and suggest that the mixing of oceanic and riverine endmembers partially determines the variations in fCO2. The correlation between salinity and fCO2 was different in Cawsand Bay, which could be due to enhanced gas exchange or to enhanced biological activity in the region. The observations demonstrate the complex dynamics determining spatial and temporal patterns of salinity and fCO2 in the region. Spatial variations in observed surface salinity were used to validate the output of a regional high-resolution hydrodynamic model. The model enables a novel estimate of the air–sea CO2 flux in the estuarine–coastal zone. Air–sea CO2 flux variability in the estuarine–coastal boundary region is influenced by the state of the tide because of strong CO2 outgassing from the river plume. The observations and model output demonstrate that undersampling the complex tidal and mixing processes characteristic of estuarine and coastal environment biases quantification of air–sea CO2 fluxes in coastal waters. The results provide a mechanism to support critical national and regional policy implementation by reducing uncertainty in carbon budgets.

Published
2022

13. Tidal mixing of estuarine and coastal waters in the western English Channel is a control on spatial and temporal variability in seawater CO&lt;sub&gt;2&lt;/sub&gt;

Author

Sims, Richard P., primary, Bedington, Michael, additional, Schuster, Ute, additional, Watson, Andrew J., additional, Kitidis, Vassilis, additional, Torres, Ricardo, additional, Findlay, Helen S., additional, Fishwick, James R., additional, Brown, Ian, additional, and Bell, Thomas G., additional

Published
2022
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15. Tidal mixing of estuarine and coastal waters in the Western English Channel controls spatial and temporal variability in seawater CO2

Author

Sims, Richard Peter, Bedington, Michael, Schuster, Ute, Watson, Andrew, Kitidis, Vassilis, Torres, Ricardo, Findlay, Helen, Fishwick, James, Brown, Ian, and Bell, Thomas

Abstract

Surface ocean CO2 measurements are used to compute the oceanic air–sea CO2 flux. The CO2 flux component from rivers and estuaries is uncertain. Estuarine and coastal water carbon dioxide (CO2) observations are relatively few compared to observations in the open ocean. The contribution of these regions to the global air–sea CO2 flux remains uncertain due to systematic under-sampling. Existing high-quality CO2 instrumentation predominantly utilise showerhead and percolating style equilibrators optimised for open ocean observations. The intervals between measurements made with such instrumentation make it difficult to resolve the fine-scale spatial variability of surface water CO2 at timescales relevant to the high frequency variability in estuarine and coastal environments. Here we present a novel dataset with unprecedented frequency and spatial resolution transects made at the Western Channel Observatory in the south west of the UK from June to September 2016, using a fast response seawater CO2 system. Novel observations were made along the estuarine–coastal continuum at different stages of the tide and reveal distinct spatial patterns in the surface water CO2 fugacity (fCO2) at different stages of the tidal cycle. Changes in salinity and fCO2 were closely correlated at all stages of the tidal cycle and suggest that the mixing of oceanic and riverine end members determines the variations in fCO2. The observations demonstrate the complex dynamics determining spatial and temporal patterns of salinity and fCO2 in the region. Spatial variations in observed surface salinity were used to validate the output of a regional high resolution hydrodynamic model. The model enables a novel estimate of the air–sea CO2 flux in the estuarine–coastal zone. Air–sea CO2 flux variability in the estuarine–coastal boundary region is dominated by the state of the tide because of strong CO2 outgassing from the river plume. The observations and model output demonstrate that undersampling the complex tidal and mixing processes characteristic of estuarine and coastal environment bias quantification of air-sea CO2 fluxes in coastal waters. The results provide a mechanism to support critical national and regional policy implementation by reducing uncertainty in carbon budgets.

Published
2021

16. Contrasting Estuarine Processing of Dissolved Organic Matter Derived From Natural and Human‐Impacted Landscapes

Author

García‐Martín, E. Elena, primary, Sanders, Richard, additional, Evans, Chris D., additional, Kitidis, Vassilis, additional, Lapworth, Dan J., additional, Rees, Andrew P., additional, Spears, Bryan M., additional, Tye, Andy, additional, Williamson, Jennifer L., additional, Balfour, Chris, additional, Best, Mike, additional, Bowes, Michael, additional, Breimann, Sarah, additional, Brown, Ian J., additional, Burden, Annette, additional, Callaghan, Nathan, additional, Felgate, Stacey L., additional, Fishwick, James, additional, Fraser, Mike, additional, Gibb, Stuart W., additional, Gilbert, Pete J., additional, Godsell, Nina, additional, Gomez‐Castillo, Africa P., additional, Hargreaves, Geoff, additional, Jones, Oban, additional, Kennedy, Paul, additional, Lichtschlag, Anna, additional, Martin, Adrian, additional, May, Rebecca, additional, Mawji, Edward, additional, Mounteney, Ian, additional, Nightingale, Philip D., additional, Olszewska, Justyna P., additional, Painter, Stuart C., additional, Pearce, Christopher R., additional, Pereira, M. Glória, additional, Peel, Kate, additional, Pickard, Amy, additional, Stephens, John A., additional, Stinchcombe, Mark, additional, Williams, Peter, additional, Woodward, E. Malcolm S., additional, Yarrow, Deborah, additional, and Mayor, Daniel J., additional

Published
2021
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18. Supplementary material to &quot;Tidal mixing of estuarine and coastal waters in the Western English Channel controls spatial and temporal variability in seawater CO&lt;sub&gt;2&lt;/sub&gt;&quot;

Author

Sims, Richard Peter, primary, Bedington, Michael, additional, Schuster, Ute, additional, Watson, Andrew, additional, Kitidis, Vassilis, additional, Torres, Ricardo, additional, Findlay, Helen, additional, Fishwick, James, additional, Brown, Ian, additional, and Bell, Thomas, additional

Published
2021
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19. Contrasting estuarine processing of dissolved organic matter derived from natural and human‐impacted landscapes

Author

Garcia-Martin, E. Elena, Sanders, Richard, Evans, Chris D., Kitidis, Vassilis, Lapworth, Dan J., Rees, Andrew P., Spears, Bryan M., Tye, Andy, Williamson, Jennifer L., Balfour, Chris, Best, Mike, Bowes, Michael, Breimann, Sarah, Brown, Ian J., Burden, Annette, Callaghan, Nathan, Felgate, Stacey L., Fishwick, James, Fraser, Mike, Gibb, Stuart W., Gilbert, Pete J., Godsell, Nina, Gomez‐Castillo, Africa P., Hargreaves, Geoff, Jones, Oban, Kennedy, Paul, Lichtschlag, Anna, Martin, Adrian, May, Rebecca, Mawji, Edward, Mounteney, Ian, Nightingale, Philip D., Olszewska, Justyna P., Painter, Stuart C., Pearce, Christopher R., Pereira, M. Gloria, Peel, Kate, Pickard, Amy, Stephens, John A., Stinchcombe, Mark, Williams, Peter, Woodward, E. Malcolm S., Yarrow, Deborah, Mayor, Daniel J., Garcia-Martin, E. Elena, Sanders, Richard, Evans, Chris D., Kitidis, Vassilis, Lapworth, Dan J., Rees, Andrew P., Spears, Bryan M., Tye, Andy, Williamson, Jennifer L., Balfour, Chris, Best, Mike, Bowes, Michael, Breimann, Sarah, Brown, Ian J., Burden, Annette, Callaghan, Nathan, Felgate, Stacey L., Fishwick, James, Fraser, Mike, Gibb, Stuart W., Gilbert, Pete J., Godsell, Nina, Gomez‐Castillo, Africa P., Hargreaves, Geoff, Jones, Oban, Kennedy, Paul, Lichtschlag, Anna, Martin, Adrian, May, Rebecca, Mawji, Edward, Mounteney, Ian, Nightingale, Philip D., Olszewska, Justyna P., Painter, Stuart C., Pearce, Christopher R., Pereira, M. Gloria, Peel, Kate, Pickard, Amy, Stephens, John A., Stinchcombe, Mark, Williams, Peter, Woodward, E. Malcolm S., Yarrow, Deborah, and Mayor, Daniel J.

Abstract

The flux of terrigenous organic carbon through estuaries is an important and changing, yet poorly understood, component of the global carbon cycle. Using dissolved organic carbon (DOC) and fluorescence data from thirteen British estuaries draining catchments with highly variable land uses, we show that land use strongly influences the fate of DOC across the land-ocean transition via its influence on the composition and lability of the constituent dissolved organic matter (DOM). In estuaries draining peatland-dominated catchments, DOC was highly correlated with biologically refractory “humic-like” terrigenous material which tended to be conservatively transported along the salinity gradient. In contrast, there was a weaker correlation between DOC and DOM components within estuaries draining catchments with a high degree of human impact, i.e. relatively larger percentage of arable and (sub-)urban land uses. These arable and (sub-)urban estuaries contain a high fraction of bioavailable “protein-like” material that behaved non-conservatively, with both DOC removals and additions occurring. In general, estuaries draining catchments with a high percentage of peatland (≥18 %) have higher area-specific estuarine exports of DOC (>13 g C m-2 yr-1) compared to those estuaries draining catchments with a high percentage (≥46 %) of arable and (sub-)urban land uses (<2.1 g C m-2 yr-1). Our data indicate that these arable and (sub-)urban estuaries tend to export, on average, ∼50 % more DOC to coastal areas than they receive from rivers, due to net anthropogenic derived organic matter inputs within the estuary.

Published
2021

20. Contrasting Estuarine Processing of Dissolved Organic Matter Derived From Natural and Human‐Impacted Landscapes

Author

García‐Martín, E. Elena, Sanders, Richard, Evans, Chris D., Kitidis, Vassilis, Lapworth, Dan J., Rees, Andrew P., Spears, Bryan M., Tye, Andy, Williamson, Jennifer L., Balfour, Chris, Best, Mike, Bowes, Michael, Breimann, Sarah, Brown, Ian J., Burden, Annette, Callaghan, Nathan, Felgate, Stacey L., Fishwick, James, Fraser, Mike, Gibb, Stuart W., Gilbert, Pete J., Godsell, Nina, Gomez‐Castillo, Africa P., Hargreaves, Geoff, Jones, Oban, Kennedy, Paul, Lichtschlag, Anna, Martin, Adrian, May, Rebecca, Mawji, Edward, Mounteney, Ian, Nightingale, Philip D., Olszewska, Justyna P., Painter, Stuart C., Pearce, Christopher R., Pereira, M. Glória, Peel, Kate, Pickard, Amy, Stephens, John A., Stinchcombe, Mark, Williams, Peter, Woodward, E. Malcolm S., Yarrow, Deborah, Mayor, Daniel J., García‐Martín, E. Elena, Sanders, Richard, Evans, Chris D., Kitidis, Vassilis, Lapworth, Dan J., Rees, Andrew P., Spears, Bryan M., Tye, Andy, Williamson, Jennifer L., Balfour, Chris, Best, Mike, Bowes, Michael, Breimann, Sarah, Brown, Ian J., Burden, Annette, Callaghan, Nathan, Felgate, Stacey L., Fishwick, James, Fraser, Mike, Gibb, Stuart W., Gilbert, Pete J., Godsell, Nina, Gomez‐Castillo, Africa P., Hargreaves, Geoff, Jones, Oban, Kennedy, Paul, Lichtschlag, Anna, Martin, Adrian, May, Rebecca, Mawji, Edward, Mounteney, Ian, Nightingale, Philip D., Olszewska, Justyna P., Painter, Stuart C., Pearce, Christopher R., Pereira, M. Glória, Peel, Kate, Pickard, Amy, Stephens, John A., Stinchcombe, Mark, Williams, Peter, Woodward, E. Malcolm S., Yarrow, Deborah, and Mayor, Daniel J.

Published
2021
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22. Relationship between the distribution function of ocean nadir radiance and inherent optical properties for oceanic waters

Author

Hirata, Takafumi, Hardman-Mountford, Nicholas, Aiken, James, and Fishwick, James

Subjects
Ocean -- Optical properties, Radiance -- Observations, Astronomy, Physics
Abstract

The distribution function of the ocean nadir radiance, defined by the upward radiance-to-irradiance ratio, is investigated as functions of the absorption coefficient and the volume scattering function to understand their relationship rather than to develop a numerical algorithm. It is shown for oceanic waters that the distribution function is directly proportional to the volume scattering function normalized by the backscattering coefficient. The relatively small spectral variation of the distribution function is explained by the small spectral variation of the normalized volume scattering function, as well as by a function that describes the contribution of the backscattering-to-absorption ratio to the distribution function. The interpretation described was verified against in situ data, highlighting factors controlling the distribution function of oceanic waters. OCIS codes: 010.4450, 010.5630, 010.5620, 010.4458, 010.1350, 010.0280.

Published
2009

23. Sensitivity of Modeled CO2 Air–Sea Flux in a Coastal Environment to Surface Temperature Gradients, Surfactants, and Satellite Data Assimilation

Author

Torres, Ricardo, primary, Artioli, Yuri, additional, Kitidis, Vassilis, additional, Ciavatta, Stefano, additional, Ruiz-Villarreal, Manuel, additional, Shutler, Jamie, additional, Polimene, Luca, additional, Martinez, Victor, additional, Widdicombe, Claire, additional, Woodward, E. Malcolm S., additional, Smyth, Timothy, additional, Fishwick, James, additional, and Tilstone, Gavin H., additional

Published
2020
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27. Insights from year-long measurements of air–water CH4 and CO2 exchange in a coastal environment

Author

Yang, Mingxi, Bell, Thomas G., Brown, Ian J., Fishwick, James R., Kitidis, Vassilis, Nightingale, Philip D., Rees, Andrew P., and Smyth, Timothy J.

Abstract

Air–water CH4 and CO2 fluxes were directly measured using the eddy covariance technique at the Penlee Point Atmospheric Observatory on the southwest coast of the United Kingdom from September 2015 to August 2016. The high-frequency, year-long measurements provide unprecedented detail on the variability of these greenhouse gas fluxes from seasonal to diurnal and to semi-diurnal (tidal) timescales. Depending on the wind sector, fluxes measured at this site are indicative of air–water exchange in coastal seas as well as in an outer estuary. For the open-water sector when winds were off the Atlantic Ocean, CH4 flux was almost always positive (annual mean of ∼0.05 mmol m−2 d−1) except in December and January, when CH4 flux was near zero. At times of high rainfall and river flow rate, CH4 emission from the estuarine-influenced Plymouth Sound sector was several times higher than emission from the open-water sector. The implied CH4 saturation (derived from the measured fluxes and a wind-speed-dependent gas transfer velocity parameterization) of over 1000 % in the Plymouth Sound is within range of in situ dissolved CH4 measurements near the mouth of the river Tamar. CO2 flux from the open-water sector was generally from sea to air in autumn and winter and from air to sea in late spring and summer, with an annual mean flux of near zero. A diurnal signal in CO2 flux and implied partial pressure of CO2 in water (pCO2) are clearly observed for the Plymouth Sound sector and also evident for the open-water sector during biologically productive periods. These observations suggest that coastal CO2 efflux may be underestimated if sampling strategies are limited to daytime only. Combining the flux data with seawater pCO2 measurements made in situ within the flux footprint allows us to estimate the CO2 transfer velocity. The gas transfer velocity and wind speed relationship at this coastal location agrees reasonably well with previous open-water parameterizations in the mean but demonstrates considerable variability. We discuss the influences of biological productivity, bottom-driven turbulence and rainfall on coastal air–water gas exchange.

Published
2019

29. Tidal mixing of estuarine and coastal waters in the Western English Channel controls spatial and temporal variability in seawater CO2.

Author

Sims, Richard Peter, Bedington, Michael, Schuster, Ute, Watson, Andrew, Kitidis, Vassilis, Torres, Ricardo, Findlay, Helen, Fishwick, James, Brown, Ian, and Bell, Thomas

Subjects
TERRITORIAL waters, CARBON dioxide in water, OCEANIC mixing, REGIONS of freshwater influence, SEAWATER, SALTWATER encroachment
Abstract

Surface ocean CO2 measurements are used to compute the oceanic air-sea CO2 flux. The CO2 flux component from rivers and estuaries is uncertain. Estuarine and coastal water carbon dioxide (CO2) observations are relatively few compared to observations in the open ocean. The contribution of these regions to the global air-sea CO2 flux remains uncertain due to systematic under-sampling. Existing high-quality CO2 instrumentation predominantly utilise showerhead and percolating style equilibrators optimised for open ocean observations. The intervals between measurements made with such instrumentation make it difficult to resolve the fine-scale spatial variability of surface water CO2 at timescales relevant to the high frequency variability in estuarine and coastal environments. Here we present a novel dataset with unprecedented frequency and spatial resolution transects made at the Western Channel Observatory in the south west of the UK from June to September 2016, using a fast response seawater CO2 system. Novel observations were made along the estuarine-coastal continuum at different stages of the tide and reveal distinct spatial patterns in the surface water CO2 fugacity (fCO2) at different stages of the tidal cycle. Changes in salinity and fCO2 were closely correlated at all stages of the tidal cycle and suggest that the mixing of oceanic and riverine end members determines the variations in fCO2. The observations demonstrate the complex dynamics determining spatial and temporal patterns of salinity and fCO2 in the region. Spatial variations in observed surface salinity were used to validate the output of a regional high resolution hydrodynamic model. The model enables a novel estimate of the air-sea CO2 flux in the estuarine-coastal zone. Air-sea CO2 flux variability in the estuarine-coastal boundary region is dominated by the state of the tide because of strong CO2 outgassing from the river plume. The observations and model output demonstrate that undersampling the complex tidal and mixing processes characteristic of estuarine and coastal environment bias quantification of air-sea CO2 fluxes in coastal waters. The results provide a mechanism to support critical national and regional policy implementation by reducing uncertainty in carbon budgets. [ABSTRACT FROM AUTHOR]

Published
2021
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30. BENCAL Cruise Report

Author

Hooker, Stanford B, Firestone, Elaine R, Barlow, Ray, Sessions, Heather, Silulwane, Nonkqubela, Engel, Hermann, Aiken, James, Fishwick, James, Martinez-Vicente, Victor, and Morel, Andre

Subjects
Oceanography
Abstract

This report documents the scientific activities on board the South African Fisheries Research Ship (FRS) Africana during an ocean color calibration and validation cruise in the Benguela upwelling ecosystem (BEN-CAL), 4-17 October 2002. The cruise, denoted Afncana voyage 170, was staged in the southern Benguela between Cape Town and the Orange River within the region 14-18.5 deg E,29-34 deg S, with 15 scientists participat- ing from seven different international organizations. Uniquely in October 2002, four high-precision ocean color sensors were operational, and these included the Moderate Resolution Imaging Spectroradiometer (MODIS) instruments on the Aqua and Terra spacecraft, the Medium Resolution Imaging Spectrometer (MERIS), and the Sea-viewing Wide Field-of-view Sensor (SeaWiFS). SeaWiFS imagery was transmitted daily to the ship to assist in choosing the vessel's course and selecting stations for bio-optical deployments. There were four primary objectives of the cruise. The first was to conduct bio-optical measurements with above- and in-water optical instruments to vicariously calibrate the satellite sensors. The second was to interrelate diverse measurements of the apparent optical properties (AOPs) at satellite sensor wavelengths with inherent optical properties (IOPs) and bio-optically active constituents of seawater such as particles, pigments, and dissolved compounds. The third was to determine the interrelationships between optical properties, phytoplankton pigment composition, photosynthetic rates, and primary production, while the fourth objective was to collect samples for a second pigment round-robin intercalibration experiment. Weather conditions were generally very favorable, and a range of hyperspectral and fixed wavelength AOP instruments were deployed during daylight hours. Various IOP instruments were used to determine the absorption, attenuation, scattering, and backscattering properties of particulate matter and dissolved substances, while a Fast Repetition Rate Fluorometer (FRRF) was deployed to acquire data on phytoplankton photosynthetic activity. Hydrographic profiling was conducted routinely during the cruise, and seawater samples were collected for measurements of salinity, oxygen, inorganic nutrients, pigments, particulate organic carbon, suspended particulate material, and primary production. Location of stations and times of optical deployments were selected to coincide with satellite overpasses whenever possible, and to cover a large range in trophic conditions.

Published
2003

37. Insights from year-long measurements of air-water CH4 and CO2 exchange in a coastal environment.

Author

Mingxi Yang, Bell, Thomas G., Brown, Ian J., Fishwick, James R., Kitidis, Vassilis, Nightingale, Philip D., Rees, Andrew P., and Smyth, Timothy J.

Subjects
AIR-water interfaces, COASTAL ecosystem health, CARBON dioxide mitigation, GREENHOUSE gas mitigation, BIOLOGICAL productivity, METHANE derivatives
Abstract

Air-water CH4 and CO2 fluxes were directly measured using the eddy covariance technique at the Penlee Point Atmospheric Observatory on the southwest coast of the United Kingdom from September 2015 to August 2016. The high frequency, year-long measurements provide unprecedented detail into the variability of these Greenhouse Gas fluxes from seasonal to diurnal and to semi-diurnal timescales. Depending on the wind sector, fluxes measured at this site are indicative of air-water exchange in coastal seas as well as in an outer estuary. For the open water sector when winds were off the Atlantic Ocean, annual CH4 emission averaged ~ 0.05 mmol m-2 d-1. Open water CH4 flux was near zero in December and January, probably due to reduced biological production of CH4. At times of high rainfall and river flow rate, CH4 emission from the estuarine-influenced Plymouth Sound sector was several times higher than emission from the open water sector. The implied CH4 saturation, derived from the measured fluxes and a wind speed dependent gas transfer velocity parameterization, of over 1000% in the Plymouth Sound is within range of in situ dissolved CH4 measurements near the mouth of the river Tamar. CO2 flux from the open water sector was generally from sea-to-air in autumn and winter and from air-to-sea in late spring and summer, with an annual mean flux of near zero. CO2 flux from the Plymouth Sound sector was more positive, consistent with a higher dissolved CO2 concentration in the estuarine waters. A diurnal signal in CO2 flux and implied dissolved pCO2 are clearly observed for the Plymouth Sound sector and also evident for the open water sector during biologically productive periods. These observations suggest that coastal CO2 efflux may be underestimated if the sampling strategy is limited to daytime only. Combining the fluxes with in situ dissolved pCO2 measurements within the flux footprints allows us to estimate the CO2 transfer velocity. The gas transfer velocity vs. wind speed relationship at this coastal location agrees reasonably well with previous open water parameterizations in the mean, but demonstrates considerable variability. We discuss the influences of biological productivity and bottom-driven turbulence on coastal air-water gas exchange. [ABSTRACT FROM AUTHOR]

Published
2018
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38. The Western Channel Observatory

Author

Smyth, Tim, primary, Atkinson, Angus, additional, Widdicombe, Stephen, additional, Frost, Matthew, additional, Allen, Icarus, additional, Fishwick, James, additional, Queiros, Ana, additional, Sims, David, additional, and Barange, Manuel, additional

Published
2015
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39. Seasonal dynamics of the carbonate system in the Western English Channel

Author

Kitidis, Vassilis, Hardman-Mountford, Nicholas J., Litt, Emmer, Brown, Ian, Cummings, Denise, Hartman, Sue, Hydes, David, Fishwick, James R., Harris, Carolyn, Martinez-Vicente, Victor, Woodward, E. Malcolm S., Smyth, Timothy J., Kitidis, Vassilis, Hardman-Mountford, Nicholas J., Litt, Emmer, Brown, Ian, Cummings, Denise, Hartman, Sue, Hydes, David, Fishwick, James R., Harris, Carolyn, Martinez-Vicente, Victor, Woodward, E. Malcolm S., and Smyth, Timothy J.

Abstract

We present over 900 carbonate system observations collected over four years (2007–2010) in the Western English Channel (WEC). We determined CO2 partial pressure (pCO2), Total Alkalinity (TA) and Dissolved Inorganic Carbon (DIC) along a series of 40 km transects, including two oceanographic stations (L4 and E1) within a sustained coastal observatory. Our data follow a seasonal pattern of CO2 undersaturation from January to August, followed by supersaturation in September–October and a return to near-equilibrium thereafter. This pattern is explained by the interplay of thermal and biological sinks in winter and spring–summer, respectively, followed by the breakdown of stratification and mixing with deeper, high-CO2 water in autumn. The drawdown of DIC and inorganic N between March and June with a C:N ratio of 8.7–9.5 was consistent with carbon over-consumption during phytoplankton growth. Monthly mean surface pCO2 was strongly correlated with depth integrated chlorophyll a highlighting the importance of subsurface chlorophyll a maxima in controlling C-fluxes in shelf seas. Mixing of seawater with riverine freshwater in near-shore samples caused a reduction in TA and the saturation state of calcite minerals, particularly in winter. Our data show that the L4 and E1 oceanographic stations were small, net sinks for atmospheric CO2 over an annual cycle (−0.52±0.66 mol C m−2 y−1 and −0.62±0.49 mol C m−2 y−1, respectively).

Published
2012

40. Sea Truth Validation of Bio-Optical Models for A and Bb; Application to Heat Budget Models and the Effects of Biology on Ocean Thermal Structure

Author

MARINE BIOLOGICAL ASSOCIATION OF THE UNITED KINGDOM PLYMOUTH PLYMOUTH LAB, Aiken, Jim, Moore, Gerald, Fishwick, James, MARINE BIOLOGICAL ASSOCIATION OF THE UNITED KINGDOM PLYMOUTH PLYMOUTH LAB, Aiken, Jim, Moore, Gerald, and Fishwick, James

Abstract

The long-term goal is to obtain better measurements of the inherent optical properties of seawater (IOPs, absorption a and back-scattering bb) to provide better parameterizations of the absorption of light by seawater, to improve heat budget models of surface ocean stratification. The proposed work will extend on-going research at PML on furthering the understanding, accurate interpretation and exploitation of remotely sensed data of ocean color, from sensors: SeaWiFS, MODIS (NASA), MERIS (ESA). Assimilation of data from these sensors into 1-D and 3-D ocean circulation models is a long-term goal., The original document contains color images.

Published
2005

41. Seasonal dynamics of the carbonate system in the Western English Channel

Author

Kitidis, Vassilis, primary, Hardman-Mountford, Nicholas J., additional, Litt, Emmer, additional, Brown, Ian, additional, Cummings, Denise, additional, Hartman, Sue, additional, Hydes, David, additional, Fishwick, James R., additional, Harris, Carolyn, additional, Martinez-Vicente, Victor, additional, Woodward, E. Malcolm S., additional, and Smyth, Timothy J., additional

Published
2012
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44. THE LIBRARY AT ICKWORTH.

Author

Purcell, Mark and Fishwick, James

Subjects
LIBRARIES, CATALOGING, BOOKS, RENAISSANCE
Abstract

The article talks about the library at Ickworth in Suffolk, England previously owned by a succession of Herveys from the 15th century to 1999. It tells that Theodora, the Marchioness of Bristol, has commissioned the repair, rebinding, and cataloguing of its books. It states that the collection in the library can be segregated into two parts: collections brought over from the original home including Renassance and 17th-century European books, and 19th- to 20th century volumes.

Published
2012

45. Long-Term Autonomous Data Buoys For Monitoring the English Channel.

Author

Fishwick, James and Gallienne, Chris

Subjects
BUOYS, MARINE laboratories, BIOGEOCHEMICAL prospecting, HYBRID power systems, WIND turbines
Abstract

The article focuses on the autonomous data buoys deployed at the sampling stations of Plymouth Marine Laboratory (PML) in the English Channel. It says that the buoys, deployed at L4 and E1 stations, were used to monitor biogeochemical parameters of the channel. Moreover, they have power systems that generate source from wind turbines and solar panels. The article also mentions their in-water sensors and redeployment in March 2011.

Published
2011

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