Is average chain length of plant lipids a potential proxy for vegetation, environment and climate changes?

Abstract

Average chain length (ACL) of leaf wax components preserved in lacustrine sediments and soil profiles has been widely adopted as a proxy indicator for past changes in vege-tation, environment and climate during the late Quaternary. The fundamental assump-tion is that woody plants produce leaf waxes with shorter ACL values than non-woody 5 plants. However, there is a lack of systematic survey of modern plants to justify the as-sumption. Here, we investigated various types of plants at two lakes, Blood Pond in the northeastern USA and Lake Ranwu on the southeastern Tibetan Plateau, and found that the ACL values were not significantly different between woody and non-woody plants. We also compiled the ACL values of modern plants in the literatures and per-10 formed a meta-analysis to determine whether a significant difference exists between woody and non-woody plants at single sites. The results showed that the ACL values of plants at 19 out of 26 sites did not show a significant difference between the two major types of plants. This suggests that extreme caution should be taken in using ACL as proxy for past changes in vegetation, environment and climate.