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Chemical composition of short sediment cores from Thermaikos Gulf (Eastern Mediterranean): sediment accumulation rates, trawling and winnowing effects.

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Chemical composition of short sediment cores from Thermaikos Gulf (Eastern Mediterranean): sediment accumulation rates, trawling and winnowing effects. / Karageorgis, A. P.; Kaberi, H.; Price, N. B. et al.
In: Continental Shelf Research, Vol. 25, No. 19-20, 12.2005, p. 2456-2475.

Research output: Contribution to Journal/MagazineJournal article

Harvard

Karageorgis, AP, Kaberi, H, Price, NB, Muir, GKP, Pates, JM & Lykousis, V 2005, 'Chemical composition of short sediment cores from Thermaikos Gulf (Eastern Mediterranean): sediment accumulation rates, trawling and winnowing effects.', Continental Shelf Research, vol. 25, no. 19-20, pp. 2456-2475. https://doi.org/10.1016/j.csr.2005.08.006

APA

Karageorgis, A. P., Kaberi, H., Price, N. B., Muir, G. K. P., Pates, J. M., & Lykousis, V. (2005). Chemical composition of short sediment cores from Thermaikos Gulf (Eastern Mediterranean): sediment accumulation rates, trawling and winnowing effects. Continental Shelf Research, 25(19-20), 2456-2475. https://doi.org/10.1016/j.csr.2005.08.006

Vancouver

Karageorgis AP, Kaberi H, Price NB, Muir GKP, Pates JM, Lykousis V. Chemical composition of short sediment cores from Thermaikos Gulf (Eastern Mediterranean): sediment accumulation rates, trawling and winnowing effects. Continental Shelf Research. 2005 Dec;25(19-20):2456-2475. doi: 10.1016/j.csr.2005.08.006

Author

Karageorgis, A. P. ; Kaberi, H. ; Price, N. B. et al. / Chemical composition of short sediment cores from Thermaikos Gulf (Eastern Mediterranean): sediment accumulation rates, trawling and winnowing effects. In: Continental Shelf Research. 2005 ; Vol. 25, No. 19-20. pp. 2456-2475.

Bibtex

@article{84a5e6d91e6746c58cc8286c2b4ac25f,
title = "Chemical composition of short sediment cores from Thermaikos Gulf (Eastern Mediterranean): sediment accumulation rates, trawling and winnowing effects.",
abstract = "Four cores recovered within the framework of the INTERPOL Project have been analysed for their grain size and geochemistry; sediment accumulation rates (SARs) were also determined from 210Pb and 137Cs profiles. Two cores are representative of the Axios and Aliakmon Rivers depositional environment, whilst the third core represents the Pinios River province; the fourth core represents an environment of outer shelf relict sands. Apparent SARs ranged between 0.667 g cm−2 yr−1 (Axios and Aliakmon Rivers) and 0.414 g cm−2 yr−1 (Pinios River). Trawling activities and biomixing are critical processes that may be responsible for the mixing of the surface sediments, as observed from the excess 210Pb profiles. The thickness of the surface mixed layer was 4.5 cm in the vicinity of Axios and Aliakmon Rivers and in the area of Pinios River, 3.75 cm on the outer shelf and 1 cm in the area where no trawling was observed. Sediment accumulation appeared to be regulated by variations in the riverine discharge, shelf transport pathways and winnowing processes. Major element variations, such as Si, Al, Ti, V and Ni, were dominated by terrigenous supply as aluminosilicate minerals and quartz, whereas most Ca and Sr were biogenic. Si/Al and Ca/Al ratios have been used to express changes in sediment accumulation and winnowing. Redox processes were depicted by Mn, which showed an increase in the depth of its redoxcline, from 1 cm in inshore stations to 2 cm on the outer shelf. Si/Al ratios follow the Ca/Al ratios and can be used to assess percentage winnowing in the sediment. Increases in these ratios indicate a decrease in sediment input rates and are seen in the upper parts of most of the cores. Anthropogenic or {\textquoteleft}excess{\textquoteright} metal contents have been calculated from Zn/V and Pb/V ratios. Their distributions in the cores showed that by far the highest contamination is associated with the Axios River output, whilst sediments influenced by the Pinios River were relatively uncontaminated.",
keywords = "Sediment accumulation rates, Geochemistry, Winnowing, Trawling, Thermaikos Gulf, Aegean Sea",
author = "Karageorgis, {A. P.} and H. Kaberi and Price, {N. B.} and Muir, {G. K. P.} and Pates, {J. M.} and V. Lykousis",
year = "2005",
month = dec,
doi = "10.1016/j.csr.2005.08.006",
language = "English",
volume = "25",
pages = "2456--2475",
journal = "Continental Shelf Research",
issn = "0278-4343",
publisher = "Elsevier Limited",
number = "19-20",

}

RIS

TY - JOUR

T1 - Chemical composition of short sediment cores from Thermaikos Gulf (Eastern Mediterranean): sediment accumulation rates, trawling and winnowing effects.

AU - Karageorgis, A. P.

AU - Kaberi, H.

AU - Price, N. B.

AU - Muir, G. K. P.

AU - Pates, J. M.

AU - Lykousis, V.

PY - 2005/12

Y1 - 2005/12

N2 - Four cores recovered within the framework of the INTERPOL Project have been analysed for their grain size and geochemistry; sediment accumulation rates (SARs) were also determined from 210Pb and 137Cs profiles. Two cores are representative of the Axios and Aliakmon Rivers depositional environment, whilst the third core represents the Pinios River province; the fourth core represents an environment of outer shelf relict sands. Apparent SARs ranged between 0.667 g cm−2 yr−1 (Axios and Aliakmon Rivers) and 0.414 g cm−2 yr−1 (Pinios River). Trawling activities and biomixing are critical processes that may be responsible for the mixing of the surface sediments, as observed from the excess 210Pb profiles. The thickness of the surface mixed layer was 4.5 cm in the vicinity of Axios and Aliakmon Rivers and in the area of Pinios River, 3.75 cm on the outer shelf and 1 cm in the area where no trawling was observed. Sediment accumulation appeared to be regulated by variations in the riverine discharge, shelf transport pathways and winnowing processes. Major element variations, such as Si, Al, Ti, V and Ni, were dominated by terrigenous supply as aluminosilicate minerals and quartz, whereas most Ca and Sr were biogenic. Si/Al and Ca/Al ratios have been used to express changes in sediment accumulation and winnowing. Redox processes were depicted by Mn, which showed an increase in the depth of its redoxcline, from 1 cm in inshore stations to 2 cm on the outer shelf. Si/Al ratios follow the Ca/Al ratios and can be used to assess percentage winnowing in the sediment. Increases in these ratios indicate a decrease in sediment input rates and are seen in the upper parts of most of the cores. Anthropogenic or ‘excess’ metal contents have been calculated from Zn/V and Pb/V ratios. Their distributions in the cores showed that by far the highest contamination is associated with the Axios River output, whilst sediments influenced by the Pinios River were relatively uncontaminated.

AB - Four cores recovered within the framework of the INTERPOL Project have been analysed for their grain size and geochemistry; sediment accumulation rates (SARs) were also determined from 210Pb and 137Cs profiles. Two cores are representative of the Axios and Aliakmon Rivers depositional environment, whilst the third core represents the Pinios River province; the fourth core represents an environment of outer shelf relict sands. Apparent SARs ranged between 0.667 g cm−2 yr−1 (Axios and Aliakmon Rivers) and 0.414 g cm−2 yr−1 (Pinios River). Trawling activities and biomixing are critical processes that may be responsible for the mixing of the surface sediments, as observed from the excess 210Pb profiles. The thickness of the surface mixed layer was 4.5 cm in the vicinity of Axios and Aliakmon Rivers and in the area of Pinios River, 3.75 cm on the outer shelf and 1 cm in the area where no trawling was observed. Sediment accumulation appeared to be regulated by variations in the riverine discharge, shelf transport pathways and winnowing processes. Major element variations, such as Si, Al, Ti, V and Ni, were dominated by terrigenous supply as aluminosilicate minerals and quartz, whereas most Ca and Sr were biogenic. Si/Al and Ca/Al ratios have been used to express changes in sediment accumulation and winnowing. Redox processes were depicted by Mn, which showed an increase in the depth of its redoxcline, from 1 cm in inshore stations to 2 cm on the outer shelf. Si/Al ratios follow the Ca/Al ratios and can be used to assess percentage winnowing in the sediment. Increases in these ratios indicate a decrease in sediment input rates and are seen in the upper parts of most of the cores. Anthropogenic or ‘excess’ metal contents have been calculated from Zn/V and Pb/V ratios. Their distributions in the cores showed that by far the highest contamination is associated with the Axios River output, whilst sediments influenced by the Pinios River were relatively uncontaminated.

KW - Sediment accumulation rates

KW - Geochemistry

KW - Winnowing

KW - Trawling

KW - Thermaikos Gulf

KW - Aegean Sea

U2 - 10.1016/j.csr.2005.08.006

DO - 10.1016/j.csr.2005.08.006

M3 - Journal article

VL - 25

SP - 2456

EP - 2475

JO - Continental Shelf Research

JF - Continental Shelf Research

SN - 0278-4343

IS - 19-20

ER -