posted on 2021-09-16, 09:28authored byVE McCoy, HJ Barthel, A Boom, E Peñalver, X Delclòs, MM Solórzano-Kraemer
Chemical analysis of amber, copal, and resin is a valuable tool for interpreting the botanic origin of amber and the ecological role of resin in ancient forests. Here we investigated for the first time the volatile and semi-volatile composition of Cretaceous amber, as well as copal and Defaunation resin produced by trees of the family Araucariaceae (Gymnospermae: Pinidae), via solid-phase microextraction gas chromatography-mass spectrometry. Principal component analysis (PCA) revealed a clear distinction between the Pleistocene copal/Defaunation resin and the much older Cretaceous amber samples. However, even among the younger resin samples whose plant producers were identified to the species level, the PCA did not clearly distinguish the groups, either at the species level or at the genus level. Therefore, even with ideal preservation of original chemistry, PCA of SPME GC/MS data will not differentiate varying botanic origins in the Cretaceous amber samples. There was extensive variation observed in the composition of the amber samples, but no separate groups in the PCA. This amber chemistry was most likely influenced by multiple factors, such as variable original resin chemistry and variable maturation as the most relevant. The Cretaceous amber deposits are proposed to represent forests with multiple taxa (even multiple families) of resin-producing trees, which varied over space and time, rather than representing a widespread and homogenous forest. As resin composition is strongly affected by both taxonomy of the resin-producing tree and ecological factors such as herbivory and pathogens, we propose that these forests were exposed to varying combinations of ecological factors.
Funding
This work was funded by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation), Project numbers 396704064 to Jes Rust for HJB, and project number 396637283 to Jes Rust for VEM. This is contribution number 33 of the DFG Research Unit 2685, “The Limits of the Fossil Record: Analytical and Experimental Approaches to Fossilization”. This study is a contribution to the Spanish Ministry of Science, Innovation and Universities (Spain, AEI/FEDER, UE) Project CRE: CGL2017-84419.
History
Citation
Cretaceous Research, Volume 127, November 2021, 104958
Author affiliation
School of Geography, Geology and Environment, University of Leicester