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W2013313120 abstract "The distribution of biomarker compounds and magnetic susceptibility observed in the sediment from a 20 m core drilled in the marshlands of the estuarine region of the Guadalquivir River (southwest coast of Spain) has allowed us to reconstruct the palaeoenvironmental evolution of this area during the Holocene. Several organic compounds (n-alkanes, n-ketones, n-alkanols, n-alkanoic acids and organic sulphur), as well as different biomarker ratios, have been used to show changing environmental conditions through time. These geochemical proxies suggest good preservation of the organic matter, although some diagenesis has occurred to particular organic compounds, especially the n-alkanoic acids. Our data indicate a major allochthonous supply of terrestrial plants, with less influence from aquatic plants or algae through the core. There are markedly different palaeoenvironmental conditions between the uppermost 5 m (last 6 ka cal. B.P.) and the rest of the core. From 5 m (ca 6 ka cal. B.P.) to 19 m (ca 8 ka cal. B.P.) depth the palaeoenvironmental conditions were almost constant. Based on organic sulphur content and n-alkane content logs, anoxic conditions prevailed from 8 to 6 ka cal. B.P., while oxic conditions with enhanced convection of water (prevalence of fluvial input), and consequently a greater organic matter supply, predominated in the upper 5 m of the core. Similarly, little variation in the magnetic susceptibility profile below 5 m indicates stable environmental conditions, while in the upper 5 m conditions shifted to one with elevated water input and clastic sediment supply. This is linked to palaeofloral alterations in the Guadiamar/Guadalquivir drainage basins and/or anthropogenic effects. We propose that from ca 8 to 6 ka cal. B.P. a stable landscape physiognomy in the surroundings of the estuarine area of the Guadalquivir River, with a predominance of pines and grassland. However, over the last 6 ka cal. B.P. a variation in the terrestrial plant biomarker compounds suggests an alternation of relatively dry and humid phases and/or the impact of human populations on altering the vegetation community have occurred. Copyright © 2007 John Wiley & Sons, Ltd." @default.
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W2013313120 date "2007-01-01" @default.
W2013313120 modified "2023-10-18" @default.
W2013313120 title "Organic matter accumulation during the Holocene in the Guadalquivir marshlands (SW Spain)" @default.
W2013313120 cites W111281484 @default.
W2013313120 cites W122165263 @default.
W2013313120 cites W124086992 @default.
W2013313120 cites W1533707525 @default.
W2013313120 cites W1927648166 @default.
W2013313120 cites W1964501953 @default.
W2013313120 cites W1966384168 @default.
W2013313120 cites W1971179457 @default.
W2013313120 cites W1976236382 @default.
W2013313120 cites W1981703024 @default.
W2013313120 cites W1983232816 @default.
W2013313120 cites W1985225058 @default.
W2013313120 cites W1988667952 @default.
W2013313120 cites W1990162765 @default.
W2013313120 cites W1990241692 @default.
W2013313120 cites W1991070194 @default.
W2013313120 cites W1993336706 @default.
W2013313120 cites W1994270148 @default.
W2013313120 cites W1995336154 @default.
W2013313120 cites W1995575035 @default.
W2013313120 cites W1997473401 @default.
W2013313120 cites W1997667724 @default.
W2013313120 cites W1999551985 @default.
W2013313120 cites W2003523173 @default.
W2013313120 cites W2007384202 @default.
W2013313120 cites W2011019633 @default.
W2013313120 cites W2013125004 @default.
W2013313120 cites W2013145302 @default.
W2013313120 cites W2015302890 @default.
W2013313120 cites W2015846315 @default.
W2013313120 cites W2016422476 @default.
W2013313120 cites W2016645135 @default.
W2013313120 cites W2019971851 @default.
W2013313120 cites W2020388968 @default.
W2013313120 cites W2024752826 @default.
W2013313120 cites W2025037466 @default.
W2013313120 cites W2027224245 @default.
W2013313120 cites W2030713760 @default.
W2013313120 cites W2033981575 @default.
W2013313120 cites W2034657785 @default.
W2013313120 cites W2034804026 @default.
W2013313120 cites W2035979774 @default.
W2013313120 cites W2036306157 @default.
W2013313120 cites W2036969215 @default.
W2013313120 cites W2037369672 @default.
W2013313120 cites W2039164671 @default.
W2013313120 cites W2039477602 @default.
W2013313120 cites W2056988639 @default.
W2013313120 cites W2062346672 @default.
W2013313120 cites W2062566111 @default.
W2013313120 cites W2064132156 @default.
W2013313120 cites W2065080684 @default.
W2013313120 cites W2068194202 @default.
W2013313120 cites W2069850882 @default.
W2013313120 cites W2081322789 @default.
W2013313120 cites W2082769854 @default.
W2013313120 cites W2086727618 @default.
W2013313120 cites W2090913051 @default.
W2013313120 cites W2094886008 @default.
W2013313120 cites W2097705442 @default.
W2013313120 cites W2116555354 @default.
W2013313120 cites W2117236907 @default.
W2013313120 cites W2124211437 @default.
W2013313120 cites W2128719854 @default.
W2013313120 cites W2132983332 @default.
W2013313120 cites W2135311458 @default.
W2013313120 cites W2138536838 @default.
W2013313120 cites W2147415818 @default.
W2013313120 cites W2892850364 @default.
W2013313120 cites W4236768654 @default.
W2013313120 cites W4240514904 @default.
W2013313120 doi "https://doi.org/10.1002/gj.1091" @default.
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