Multiproxy analysis of permafrost preserved faeces provides an unprecedented insight into the diets and habitats of extinct and extant megafauna

Item does not contain fulltext The study of faecal samples to reconstruct the diets and habitats of extinct megafauna has traditionally relied on pollen and macrofossil analysis. DNA metabarcoding has emerged as a valuable tool to complement and refine these proxies. While published studies have com...

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Bibliographic Details
Main Authors: Polling, M., Schure, A.T.M., Geel, B., Bokhoven, T., Boessenkool, S., Mackay, G., Langveld, B.W., Ariza, M., Plicht, H. van der, Protopopov, A.V., Tikhonov, A., Boer, H. de, Gravendeel, B.
Format: Dataset
Language:unknown
Published: NCBI 2021
Subjects:
Multiproxy analysis
permafrost
preserved faeces
diet
megafauna
Plant Ecology
Ice
Online Access:https://repository.ubn.ru.nl/handle/2066/239481
Description
Summary:Item does not contain fulltext The study of faecal samples to reconstruct the diets and habitats of extinct megafauna has traditionally relied on pollen and macrofossil analysis. DNA metabarcoding has emerged as a valuable tool to complement and refine these proxies. While published studies have compared the results of these three proxies for sediments, this comparison is currently lacking for permafrost preserved mammal faeces. Moreover, most metabarcoding studies have focused on a single plant-specific DNA marker region. Since no universal plant marker currently exists, no complete picture of all plant taxa is obtained with only one marker. In this study, we target both the commonly used trnL P6 loop as well as nuclear ribosomal ITS (nrITS). The latter can increase taxonomic resolution of plant identifications but requires DNA to be relatively well preserved because of the target length (~300 - 500 bp). We compare DNA results to pollen and macrofossil analyses from permafrost and ice-preserved faeces of Pleistocene and Holocene megafauna including woolly mammoth, horse and bison as well as Holocene and extant caribou. Most plant taxa were uniquely found using DNA, with several taxa being abundant in DNA results while they were not recorded as macrofossils or pollen. Several taxa were, however, identified to lower taxonomic levels uniquely with macrofossil and pollen analysis. The nrITS marker provides species level taxonomic resolution for commonly encountered plant families that are hard to distinguish using the other proxies (e.g. Asteraceae, Cyperaceae and Poaceae). Integrating the results from all proxies, we are able to accurately reconstruct known diets and habitats of the extant caribou. Applying this approach to the extinct mammals, we find that the Holocene horse and bison were not strict grazers but mixed feeders living in a marshy wetland environment. The mammoths showed highly varying diets from different non-analogous habitats. This confirms the presence of a mosaic of habitats in the ...

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