Natural and anthropogenic organic matter inputs to intertidal deposits of the urbanized Arctic region

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Natural and anthropogenic organic matter inputs to intertidal deposits of the urbanized Arctic region : A multi-proxy approach. / Morgunova, Inna P.; Kursheva, Anna V.; Petrova, Vera I.; Litvinenko, Ivan V.; Batova, Galina I.; Renaud, Paul E.; Maltseva, Arina L.; Granovitch, Andrei I.

In: Marine Chemistry, Vol. 234, 104001, 20.08.2021.

Research output: Contribution to journal › Article › peer-review

BibTeX

@article{c66f757a7a1641459002f7ae8e01a472,

title = "Natural and anthropogenic organic matter inputs to intertidal deposits of the urbanized Arctic region: A multi-proxy approach",

abstract = "Growing anthropogenic activity in the Arctic, especially near regional municipal and transportation hubs, threatens coastal environments with significant changes and contamination. A detailed study of a wide set of organic-geochemical proxies in surface and subsurface sediments and soils around the typical urbanized Arctic area (Troms{\o}, Norway) was performed to investigate natural and anthropogenic input of hydrocarbons. The sites were located close to main areas of human activity and differed in the level of anthropogenic pressure: oil terminal, boat harbor and recreation beach zone in the city center, and a remote, conditionally-clean area. The samples from each site were collected along four subtidal – intertidal – supratidal transects. GC–MS data on the distribution of more than 110 compounds were obtained including n-alkanes, isoprenoids, terpanes, parent polycyclic aromatic hydrocarbons (PAHs), and alkyl PAHs. Organic matter embedded in a mineral matrix was more thermally mature than its fresh non-bound fraction. Biomarker distribution and diagnostic ratios attested to the predominantly local origin of near-shore organic matter formation (phytoplankton, algae, high foliar plants, grass). PAH composition revealed a significant input of pyrogenic components from liquid and solid fuel combustion to the surface coarse-grained sediments. Background bacterial activity was evidenced by the high content of biohopanes and hopenes in less polluted sediments and soils. The presence of an unresolved complex mixture and even n-alkanes in sediment profiles from the most polluted sites attested to the active biodegradation that, together with the erosion of the upper layers by tidal currents, reduces the toxic compound penetration deeper into the sediments.",

keywords = "Arctic, Biomarkers, Intertidal zone, Sedimentary organic matter, CARBON, POLYCYCLIC AROMATIC-HYDROCARBONS, KARA SEA, CONTINENTAL-SHELF, N-ALKANES, QUATERNARY SEDIMENTS, BRITISH-COLUMBIA, PAH, PARTICULATE, COASTAL MARINE-SEDIMENTS",

author = "Morgunova, {Inna P.} and Kursheva, {Anna V.} and Petrova, {Vera I.} and Litvinenko, {Ivan V.} and Batova, {Galina I.} and Renaud, {Paul E.} and Maltseva, {Arina L.} and Granovitch, {Andrei I.}",

note = "Publisher Copyright: {\textcopyright} 2021 Elsevier B.V.",

year = "2021",

month = aug,

day = "20",

doi = "10.1016/j.marchem.2021.104001",

language = "English",

volume = "234",

journal = "Marine Chemistry",

issn = "0304-4203",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Natural and anthropogenic organic matter inputs to intertidal deposits of the urbanized Arctic region

T2 - A multi-proxy approach

AU - Morgunova, Inna P.

AU - Kursheva, Anna V.

AU - Petrova, Vera I.

AU - Litvinenko, Ivan V.

AU - Batova, Galina I.

AU - Renaud, Paul E.

AU - Maltseva, Arina L.

AU - Granovitch, Andrei I.

PY - 2021/8/20

Y1 - 2021/8/20

N2 - Growing anthropogenic activity in the Arctic, especially near regional municipal and transportation hubs, threatens coastal environments with significant changes and contamination. A detailed study of a wide set of organic-geochemical proxies in surface and subsurface sediments and soils around the typical urbanized Arctic area (Tromsø, Norway) was performed to investigate natural and anthropogenic input of hydrocarbons. The sites were located close to main areas of human activity and differed in the level of anthropogenic pressure: oil terminal, boat harbor and recreation beach zone in the city center, and a remote, conditionally-clean area. The samples from each site were collected along four subtidal – intertidal – supratidal transects. GC–MS data on the distribution of more than 110 compounds were obtained including n-alkanes, isoprenoids, terpanes, parent polycyclic aromatic hydrocarbons (PAHs), and alkyl PAHs. Organic matter embedded in a mineral matrix was more thermally mature than its fresh non-bound fraction. Biomarker distribution and diagnostic ratios attested to the predominantly local origin of near-shore organic matter formation (phytoplankton, algae, high foliar plants, grass). PAH composition revealed a significant input of pyrogenic components from liquid and solid fuel combustion to the surface coarse-grained sediments. Background bacterial activity was evidenced by the high content of biohopanes and hopenes in less polluted sediments and soils. The presence of an unresolved complex mixture and even n-alkanes in sediment profiles from the most polluted sites attested to the active biodegradation that, together with the erosion of the upper layers by tidal currents, reduces the toxic compound penetration deeper into the sediments.

AB - Growing anthropogenic activity in the Arctic, especially near regional municipal and transportation hubs, threatens coastal environments with significant changes and contamination. A detailed study of a wide set of organic-geochemical proxies in surface and subsurface sediments and soils around the typical urbanized Arctic area (Tromsø, Norway) was performed to investigate natural and anthropogenic input of hydrocarbons. The sites were located close to main areas of human activity and differed in the level of anthropogenic pressure: oil terminal, boat harbor and recreation beach zone in the city center, and a remote, conditionally-clean area. The samples from each site were collected along four subtidal – intertidal – supratidal transects. GC–MS data on the distribution of more than 110 compounds were obtained including n-alkanes, isoprenoids, terpanes, parent polycyclic aromatic hydrocarbons (PAHs), and alkyl PAHs. Organic matter embedded in a mineral matrix was more thermally mature than its fresh non-bound fraction. Biomarker distribution and diagnostic ratios attested to the predominantly local origin of near-shore organic matter formation (phytoplankton, algae, high foliar plants, grass). PAH composition revealed a significant input of pyrogenic components from liquid and solid fuel combustion to the surface coarse-grained sediments. Background bacterial activity was evidenced by the high content of biohopanes and hopenes in less polluted sediments and soils. The presence of an unresolved complex mixture and even n-alkanes in sediment profiles from the most polluted sites attested to the active biodegradation that, together with the erosion of the upper layers by tidal currents, reduces the toxic compound penetration deeper into the sediments.

KW - Arctic

KW - Biomarkers

KW - Intertidal zone

KW - Sedimentary organic matter

KW - CARBON

KW - POLYCYCLIC AROMATIC-HYDROCARBONS

KW - KARA SEA

KW - CONTINENTAL-SHELF

KW - N-ALKANES

KW - QUATERNARY SEDIMENTS

KW - BRITISH-COLUMBIA

KW - PAH

KW - PARTICULATE

KW - COASTAL MARINE-SEDIMENTS

UR - http://www.scopus.com/inward/record.url?scp=85108596596&partnerID=8YFLogxK

U2 - 10.1016/j.marchem.2021.104001

DO - 10.1016/j.marchem.2021.104001

M3 - Article

AN - SCOPUS:85108596596

VL - 234

JO - Marine Chemistry

JF - Marine Chemistry

SN - 0304-4203

M1 - 104001

ER -

ID: 83949592

Natural and anthropogenic organic matter inputs to intertidal deposits of the urbanized Arctic region: A multi-proxy approach

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