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Carbon isotopic ratios of modern C3 and C4 vegetation on the Indian peninsula and changes along the plant–soil–river continuum – implications for vegetation reconstructions
Kirkels, F.M.S.A.; de Boer, H.J.; Concha Hernández, P.; Martes, C.R.T.; van der Meer, M.T.J.; Basu, S.; Usman, M.O.; Peterse, F. (2022). Carbon isotopic ratios of modern C3 and C4 vegetation on the Indian peninsula and changes along the plant–soil–river continuum – implications for vegetation reconstructions. Biogeosciences 19(17): 4107-4127. https://dx.doi.org/10.5194/bg-19-4107-2022

Bijhorende data:
In: Gattuso, J.P.; Kesselmeier, J. (Ed.) Biogeosciences. Copernicus Publications: Göttingen. ISSN 1726-4170; e-ISSN 1726-4189, meer
Peer reviewed article  

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Auteurs  Top 
  • Kirkels, F.M.S.A.
  • de Boer, H.J.
  • Concha Hernández, P.
  • Martes, C.R.T.
  • van der Meer, M.T.J., meer
  • Basu, S.
  • Usman, M.O.
  • Peterse, F.

Abstract

    The large difference in the fractionation of stable carbon isotopes between C3 and C4 plants is widely used in vegetation reconstructions, where the predominance of C3 plants suggests wetter and that of C4 plants drier conditions. The stable carbon isotopic composition of organic carbon (OC) preserved in soils or sediments may be a valuable (paleo-)environmental indicator, based on the assumption that plant-derived material retains the stable carbon isotopic value of its photosynthetic pathway during transfer from plant to sediment. In this study, we investigated the bulk carbon isotopic values of C3 andC4 plants (δ13C) and of organic carbon ( δ13Corg) in soils, river suspended particulate matter (SPM) and riverbed sediments to gain insight into thecontrol of precipitation on C3 and C4 plantδ13C values and to assess changes in δ 13Corg values along the plant–soil–river continuum.This information allows us to elucidate the implications of different δ13C end-members on C3 / C4 vegetation reconstructions. Our analysis was performed in the Godavari River basin, located in the core monsoon zone in peninsular India, a region that integrates the hydroclimatic and vegetation changes caused by variation in monsoonal strength. The basin has distinct wet and dry seasons and is characterised by natural gradients in soil type (from clay-rich to sandy), precipitation (∼ 500 to 1500 mm yr−1) and vegetation type (from mixed C3 / C4 to primarily C3) from the upper to the lower basin. The δ13C values of Godavari C3 plants were strongly controlled by mean annual precipitation (MAP), showing an isotopic enrichment of ∼ 2.2 ‰ from ∼ 1500 to 500 mm yr−1. Tracing δ13Corg values from plant to soils and rivers revealed that soils and riverbedsediments reflected the transition from mixed C3 and C 4 vegetation in the dry upper basin to more C3 vegetation in the humid lower basin. Soil degradation and stabilisation processes and hydrodynamic sorting within the river altered theplant-derived δ13C signal. Phytoplankton dominated the δ13Corg signal carried by SPM in the dry season and year-round in the upper basin. Application of a linear mixing model showed that the %C4 plants in the different subbasins was ∼ 7 %–15 % higher using plant end-members based on measurement of the Godavari vegetation and tailored to local moisture availability than using those derived from data compilations of global vegetation. Including a correction for the 13C enrichment in Godavari C3plants due to drought resulted in maximally 6 % lower estimated C 4 plant cover. Our results from the Godavari basin underline theimportance of making informed choices about the plant δ 13C end-members for vegetation reconstructions, considering characteristics of the regional vegetation and environmental factors such as MAP in monsoonal regions.


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