Comparison of n-alkane concentrations and δD values between leaves and roots in modern plants on the Chinese Loess Plateau
2019
Liu, Jinzhao | An, Zhisheng | Wu, Huawu | Yu, Yunlong
Sedimentary δDn-alkane values have been widely used as a valuable proxy for paleoenvironmental reconstruction. A number of studies have focused on δDn-alkane values that derived exclusively from leaves, while less attention has been paid to the root-derived n-alkanes and their impact on sedimentary δDn-alkane values. In this study, we sampled modern plant leaf and root materials from different growth contexts (slopes and seasons) on the Chinese Loess Plateau to compare leaf-derived n-alkanes with root-derived n-alkanes. Our results demonstrated that total n-alkane (C27-C33) concentrations varied substantially between leaf and root materials, with average values of 209 μg/g and 29.5 μg/g observed in leaves and roots respectively. The results suggest that ca. 12% of the n-alkane concentration in sediments derived from plant roots. Furthermore, leaf-derived δDn-alkane values for Stipa bungeana (grass), Artemisisa vestita (shrub) and Bothriochloa ischaemum (grass) averaged -184‰, -152‰ and -198‰, compared with their root-derived δDn-alkane values of -199‰, -179‰ and -163‰, respectively. These statistically significant differences in concentrations and δD values between leaf-derived and root-derived n-alkanes suggest that the contribution of n-alkanes derived from plant roots is important to evaluate the resultant n-alkane composition of sediments for paleoenvironmental reconstruction. Our finding indicates that the effects of root-derived n-alkanes on total sedimentary δDn-alkane values should be carefully considered in future paleoenvironmental reconstruction efforts.
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