Abstract
A promising method of reconstructing past vegetation from pollen records uses mathematical models of the relationship between pollen and vegetation. These can be calibrated using the extended R-value (ERV) approach on datasets of modern pollen assemblages and related vegetation surveys. This study presents the results of calibrating the pollen-vegetation models for non-arboreal pollen types in alpine meadow habitats on the Tibetan Plateau. Surface soil samples were analysed for pollen and the surrounding vegetation was recorded at 30 randomly located sites in the Zoige basin, northeastern Tibetan Plateau. ERV analysis found that the most reliable results were obtained when using ERV sub-models 1 and 2, and distance-weighting the vegetation data by applying the taxon-specific Prentice–Sutton method. The relevant source area of pollen for these soil samples was found to be ca. 200 m. Relative pollen productivities (RPP) of 15 non-arboreal taxa were estimated relative to Cyperaceae (RPPCyp). The taxa can be divided into three groups according to their RPPs, those with high RPPCyp values > 1.68 (Thalictrum, Artemisia, Caryophyllaceae, Chenopodiaceae and Plantago), those with moderate values (0.42–0.62) (Taraxacum-type, Apiaceae, Polygonum and Aster-type), and those with low values < 0.4 (Gentianaceae, Potentilla, Brassicaceae, Saussurea-type and Poaceae). The RPP values obtained from our study differ from those of previous studies in other parts of China, and form the basis for future reconstruction of palaeovegetation on the Tibetan Plateau through model-based methods, such as the Landscape Reconstruction Algorithm, or Multiple Scenario Approach.
Highlights
1.1 Pollen-vegetation modelPollen analysis is one of the key tools available for understanding past vegetation, climate and ecosystems (e.g. Birks et al 2016)
The taxa can be divided into 3 groups according to their Relative pollen productivities (RPPs), those with high RPPCyp (> 1.68: Thalictrum, Artemisia, Caryophyllaceae, Chenopodiaceae and Plantago), those with moderate RPPCyp (0.42 - 0.62: Taraxacum-type, Apiaceae, Polygonum and Aster-type), and those with low RPPCyp (≤ 0.4; Gentianaceae, Potentilla, Brassicaceae, Saussureatype and Poaceae)
This study presents estimates of relative pollen productivity for 15 non-arboreal pollen taxa characteristic of the alpine meadow region of the northeastern Tibetan
Summary
1.1 Pollen-vegetation modelPollen analysis is one of the key tools available for understanding past vegetation, climate and ecosystems (e.g. Birks et al 2016). Fluctuations in pollen percentages through time were first used to reconstruct the dynamics of vegetation over time by von. One approach to reconstructing vegetation cover from pollen percentages uses mathematical models of the relationship between pollen and vegetation. This approach began when Davis (1963) proposed the “R-value model”, which calculates a constant correction value for each taxon (the R value), applies it to past pollen values to reconstruct past vegetation. An R-value is calculated as the ratio between pollen percentage and vegetation percentage, and whilst the R-value for individual taxa can vary, the approach assumes that the ratio between the R-values of two taxa is a constant
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