Informace o publikaci

Lipid biomarkers and stable isotopes uncover paleovegetation changes in extremely species-rich forest-steppe ecosystems, Central Europe

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KARIMI NEZHAD Mohammad Tahsin ŠAMONIL Pavel DANĚK Pavel JAROŠ Jakub HÁJEK Michal HÁJKOVÁ Petra JABINSKI Stanislav MEADOR Travis B ROLEČEK Jan

Rok publikování 2024
Druh Článek v odborném periodiku
Časopis / Zdroj Environmental Research
Fakulta / Pracoviště MU

Přírodovědecká fakulta

Citace
www https://www.sciencedirect.com/science/article/pii/S0013935124014695
Doi http://dx.doi.org/10.1016/j.envres.2024.119564
Klíčová slova Lipid biomarkers; Holocene; Paleovegetation reconstruction; Compound-specific stable isotopes
Popis The historical development of the vegetation of semi-dry grasslands in Central Europe is not satisfactorily understood. Long-term continuity of open vegetation or, conversely, deep-past forest phases are considered possible sources of the current extreme species diversity of these ecosystems. We aimed to reveal the trajectory of paleovegetation development in these ecosystems through detailed analysis of terrestrial in-situ soil geoarchives. We measured the bulk soil carbon and nitrogen contents, lipid molecular distribution, and compound-specific stable carbon and hydrogen isotopic signatures of mid- and long-chain n-alkanes extracted from soil and modern plant material tissues (i.e., deciduous and Pinus leaves and grass/herbaceous species). The C23-C33 n-alkane homologues were identified in soils with different abundances. Normally, C27 and C29 n-alkanes were the most abundant homologues in tree-leaf samples, while grass-derived n-alkanes were mostly C31 and C33 homologues. Soils were largely dominated by C29 and C31 n-alkanes. Odd-numbered C27-C33 soil n-alkane S13C values ranged from -36.2%o to -23.2%o, whereas their S2H values showed a wider range of variability that fluctuated from -224%o to -172%o. Molecular distribution in combination with radiocarbon analysis of soil organic matter (SOM) and S13C and S2H values of n-alkanes revealed a large contribution of C3 trees (both deciduous and coniferous trees/pine trees) as the main source of n-alkanes between the late Pleistocene and early Holocene (ca 15,000-8200 calibrated year before present/cal year BP). A clear shift toward more grassy/herbaceous vegetation was observed from the early Holocene (ca 11,700-8200 cal year BP) onwards. Distribution patterns of lipids and soil geochemical parameters showed that plants are the main source of SOM and that biodegradation and kinetic isotope fractionation are not the main reasons for 13C enrichment in soil profiles. Past C3 vegetation shifts as well as paleoclimate changes (i.e., aridity) can have played a role in the observed 13C depth profiles.
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