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    Dual isotope evidence for sedimentary integration of plant wax biomarkers across an Andes-Amazon elevation transect

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    Author's manuscript (49.79Mb)
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    Supplementary data (441.9Kb)
    Date
    2018-09
    Author
    Feakins, Sarah J.  Concept link
    Wu, Mong Sin  Concept link
    Ponton, Camilo  Concept link
    Galy, Valier  Concept link
    West, A. Joshua  Concept link
    Metadata
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    Citable URI
    https://hdl.handle.net/1912/10671
    As published
    https://doi.org/10.1016/j.gca.2018.09.007
    Keyword
     Plant wax; Leaf wax; Biomarker; Hydrogen isotope; Carbon isotope; Andes; Amazon; Paleoaltimetry; Source-to-sink 
    Abstract
    Tropical montane regions tend to have high rates of precipitation, biological production, erosion, and sediment export, which together move material off the landscape and toward sedimentary deposits downstream. Plant wax biomarkers can be used to investigate sourcing of organic matter and are often used as proxies to reconstruct past climate and environment in sedimentary deposits. To understand how plant waxes are sourced within a wet, tropical montane catchment, we measure the stable C and H isotope composition (δ13C and δD) of n-alkanes and n-alkanoic acids in soils along an elevation transect and from sediments within the Madre de Dios River network along the eastern flank of the Peruvian Andes, draining an area of 75,400 km2 and 6 km of elevation. Soils yield systematic trends in plant wax δ13C (+1.75 and +1.31‰ km−1, for the C29n-alkanes and C30n-alkanoic acids respectively in the mineral horizon) and δD values (−10 and −12‰ km−1, respectively) across a 3.5 km elevation transect, which approximates trends previously reported from canopy leaves, though we find offsets between δ13C values in plants and soils. River suspended sediments generally follow soil isotopic gradients defined by catchment elevations (δ13C: +1.03 and +0.99‰ km−1 and δD: −10 to −7‰ km−1, for the C29n-alkanes and C30n-alkanoic acids respectively) in the wet season, with a lowering in the dry season that is less well-constrained. In a few river suspended sediments, petrogenic contributions and depth-sorting influence the n-alkane δ13C signal. Our dual isotope, dual compound class and seasonal sampling approach reveals no Andean-dominance in plant wax export, and instead that the sourcing of plant waxes in this very wet, forested catchment approximates that expected for spatial integration of the upstream catchment, thus with a lowland dominance on areal basis, guiding paleoenvironmental reconstructions in tropical montane regions. The dual isotope approach provides a cross-check on the altitudinal signals and can resolve ambiguity such as might be associated with vegetation change or aridity in paleoclimate records. Further, the altitude effect encoded within plant waxes presents a novel dual-isotope biomarker approach to paleoaltimetry.
    Description
    Author Posting. © The Author(s), 2018. This is the author's version of the work. It is posted here under a nonexclusive, irrevocable, paid-up, worldwide license granted to WHOI. It is made available for personal use, not for redistribution. The definitive version was published in Geochimica et Cosmochimica Acta 242 (2018): 64-81, doi:10.1016/j.gca.2018.09.007.
    Collections
    • Marine Chemistry and Geochemistry (MC&G)
    Suggested Citation
    Preprint: Feakins, Sarah J., Wu, Mong Sin, Ponton, Camilo, Galy, Valier, West, A. Joshua, "Dual isotope evidence for sedimentary integration of plant wax biomarkers across an Andes-Amazon elevation transect", 2018-09, https://doi.org/10.1016/j.gca.2018.09.007, https://hdl.handle.net/1912/10671
     

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