| 作 者:Hu D, Yang J, Yao YF, Wang YF, Li JF* |
| 影响因子:2.9 |
| 刊物名称:Palaeogeography Palaeoclimatology Palaeoecology |
| 出版年份:2026 |
| 卷:691 期: 页码:113756 |
In arid central Asia (ACA), sparse vegetationlow taxonomic diversity pose challenges for traditional pollen analysis in reconstructing palaeovegetationpalaeoclimate. This study is based on a sampling transect that longitudinally traverses the uninhabited hinterland of the Taklamakan Desert, where 64 surface soil samples were systematically collected along a 500-km environmental gradient to establish a modern pollen dataset covering desert, transition zone,oasis environments. Our findings indicate that traditional clustering methods struggle to effectively differentiate vegetation types in arid regions mainly due to the over-representation of ChenopodiaceaeArtemisia pollen. Consequently, this study establishes a new quantitative indicator based on the sum of the relative abundance (RA) of Tamarix and Ephedra pollendefines clear thresholds for the reliable identification of oases from deserts (oasis >26.3%, desert <14.1%). By innovatively employing a pairwise comparison approach, a diagnostic flowchart was constructed to distinguish among seven arid vegetation subtypes. Comparative analysis clearly demonstrates that large-scale pollen databases exhibit significant reconstruction errors in the azonal regions of eastern ACA, underscoring the necessity of developing regional calibration datasets tailored specifically to arid environments. This work not only provides a rare surface pollen data across the desert but also offers new quantitative methodologies for investigating palaeoenvironmental changesthe evolution of ancient civilizations in the ACA. Furthermore, it provides critical methodological insights for palaeoecological research in other azonal arid regions worldwide.
