Analysis and interpretation of Holocene sedimentary sequences in the Humber estuary

Lancaster Environment Centre

Text available via DOI:

https://doi.org/10.1144/GSL.SP.2000.166.01.02
Final published version

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Published

Standard

Analysis and interpretation of Holocene sedimentary sequences in the Humber estuary. / Ridgway, J.; Andrews, J. E.; Ellis, S. et al.
In: Geological Society Special Publication, Vol. 166, 20.06.2000, p. 9-39.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Harvard

Ridgway, J, Andrews, JE, Ellis, S, Horton, BP, Innes, JB, Knox, RWOB, McArthur, JJ, Maher, BA, Metcalfe, SE, Mitlehner, A, Parkes, A, Rees, JG, Samways, GM & Shennan, I 2000, 'Analysis and interpretation of Holocene sedimentary sequences in the Humber estuary', Geological Society Special Publication, vol. 166, pp. 9-39. https://doi.org/10.1144/GSL.SP.2000.166.01.02

APA

Ridgway, J., Andrews, J. E., Ellis, S., Horton, B. P., Innes, J. B., Knox, R. W. O. B., McArthur, J. J., Maher, B. A., Metcalfe, S. E., Mitlehner, A., Parkes, A., Rees, J. G., Samways, G. M., & Shennan, I. (2000). Analysis and interpretation of Holocene sedimentary sequences in the Humber estuary. Geological Society Special Publication, 166, 9-39. https://doi.org/10.1144/GSL.SP.2000.166.01.02

Vancouver

Ridgway J, Andrews JE, Ellis S, Horton BP, Innes JB, Knox RWOB et al. Analysis and interpretation of Holocene sedimentary sequences in the Humber estuary. Geological Society Special Publication. 2000 Jun 20;166:9-39. doi: 10.1144/GSL.SP.2000.166.01.02

Author

Ridgway, J. ; Andrews, J. E. ; Ellis, S. et al. / Analysis and interpretation of Holocene sedimentary sequences in the Humber estuary. In: Geological Society Special Publication. 2000 ; Vol. 166. pp. 9-39.

Bibtex

@article{defdd5b0da584c8791a0853da2fcb883,

title = "Analysis and interpretation of Holocene sedimentary sequences in the Humber estuary",

abstract = "The interpretation of the Holocene evolution of the Humber Estuary has been made possible only through integrated multidisciplinary studies involving inter alia: drilling, to obtain sedimentary records of the Holocene Estuary fill; multi-element, carbon-nitrogen-sulphur and stable carbon isotope geochemistry; heavy and clay mineralogy; palaeomagnetism; radio-carbon dating; and pollen, diatom and foraminiferal studies. Eight chemostratigraphic suites and 14 palaeo-environments have been recognized. Sediment types, environments of deposition and provenance change in response to rising sea-level, showing a range from freshwater fluvial deposition of locally derived terrestrial sediment to intertidal and subtidal deposition of sediments from marine sources. The methods used are illustrated with reference to sediment cores from inner and outer estuary locations. The results show that Holocene environmental characterization is most secure when a number of different, but complementary, techniques are used. The integration of radiocarbon dates with palaeomagnetic and geochemical data improves the understanding of the presence and significance of time breaks, which is crucial to constraining sedimentation rates and material budgets.",

author = "J. Ridgway and Andrews, {J. E.} and S. Ellis and Horton, {B. P.} and Innes, {J. B.} and Knox, {R. W.O.B.} and McArthur, {J. J.} and Maher, {B. A.} and Metcalfe, {S. E.} and A. Mitlehner and A. Parkes and Rees, {J. G.} and Samways, {G. M.} and I. Shennan",

year = "2000",

month = jun,

day = "20",

doi = "10.1144/GSL.SP.2000.166.01.02",

language = "English",

volume = "166",

pages = "9--39",

journal = "Geological Society Special Publication",

issn = "0305-8719",

publisher = "Geological Society of London",

}

RIS

TY - JOUR

T1 - Analysis and interpretation of Holocene sedimentary sequences in the Humber estuary

AU - Ridgway, J.

AU - Andrews, J. E.

AU - Ellis, S.

AU - Horton, B. P.

AU - Innes, J. B.

AU - Knox, R. W.O.B.

AU - McArthur, J. J.

AU - Maher, B. A.

AU - Metcalfe, S. E.

AU - Mitlehner, A.

AU - Parkes, A.

AU - Rees, J. G.

AU - Samways, G. M.

AU - Shennan, I.

PY - 2000/6/20

Y1 - 2000/6/20

N2 - The interpretation of the Holocene evolution of the Humber Estuary has been made possible only through integrated multidisciplinary studies involving inter alia: drilling, to obtain sedimentary records of the Holocene Estuary fill; multi-element, carbon-nitrogen-sulphur and stable carbon isotope geochemistry; heavy and clay mineralogy; palaeomagnetism; radio-carbon dating; and pollen, diatom and foraminiferal studies. Eight chemostratigraphic suites and 14 palaeo-environments have been recognized. Sediment types, environments of deposition and provenance change in response to rising sea-level, showing a range from freshwater fluvial deposition of locally derived terrestrial sediment to intertidal and subtidal deposition of sediments from marine sources. The methods used are illustrated with reference to sediment cores from inner and outer estuary locations. The results show that Holocene environmental characterization is most secure when a number of different, but complementary, techniques are used. The integration of radiocarbon dates with palaeomagnetic and geochemical data improves the understanding of the presence and significance of time breaks, which is crucial to constraining sedimentation rates and material budgets.

AB - The interpretation of the Holocene evolution of the Humber Estuary has been made possible only through integrated multidisciplinary studies involving inter alia: drilling, to obtain sedimentary records of the Holocene Estuary fill; multi-element, carbon-nitrogen-sulphur and stable carbon isotope geochemistry; heavy and clay mineralogy; palaeomagnetism; radio-carbon dating; and pollen, diatom and foraminiferal studies. Eight chemostratigraphic suites and 14 palaeo-environments have been recognized. Sediment types, environments of deposition and provenance change in response to rising sea-level, showing a range from freshwater fluvial deposition of locally derived terrestrial sediment to intertidal and subtidal deposition of sediments from marine sources. The methods used are illustrated with reference to sediment cores from inner and outer estuary locations. The results show that Holocene environmental characterization is most secure when a number of different, but complementary, techniques are used. The integration of radiocarbon dates with palaeomagnetic and geochemical data improves the understanding of the presence and significance of time breaks, which is crucial to constraining sedimentation rates and material budgets.

U2 - 10.1144/GSL.SP.2000.166.01.02

DO - 10.1144/GSL.SP.2000.166.01.02

M3 - Journal article

AN - SCOPUS:6744231323

VL - 166

SP - 9

EP - 39

JO - Geological Society Special Publication

JF - Geological Society Special Publication

SN - 0305-8719

ER -

Research

Links

Text available via DOI: