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100			_aAzuara, Julien _951956
245			_aExtending the applicability of the REVEALS model for pollen-based vegetation reconstructions to coastal lagoons/
260			_bSage, _c2019.
300			_aVol 29, issue 7, 2019 : (1109-1112 p.).
520			_aQuantitative reconstruction of past plant abundance from fossil pollen data is still a challenging task for palynologists. During the last decades, mechanistic methods have been developed to convert pollen assemblages from peat and lake deposits into vegetation abundance at regional and local scale. Coastal areas are particularly sensitive to climate and environmental hazards. Thus, quantitative estimates of past vegetation are important to better understand their history and address potential effects of future environmental changes. However, assumptions of the mechanistic models of pollen dispersal and deposition originally designed for near-circular lakes and bogs located inland are violated when applied to coastal sites because of different basin shape and wind direction distribution. This study investigates how to adapt a model of pollen dispersal and deposition developed for lakes to coastal lagoons. A new geometry is defined, and it is demonstrated how some of the major formulas from previous models can be used without any modification in this singular context.
650			_acoastal sites, _951957
650			_a demonstration, _951958
650			_apalynology, _951593
650			_a pollen data, _951959
650			_aREVEALS model, _951960
650			_avegetation quantitative reconstruction _951961
700			_aMazier, Florence _951962
700			_aLebreton, Vincent _951963
700			_aSugita, Shinya _951964
700			_aViovy, Nicolas _951965
700			_aCombourieu-Nebout, Nathalie _951966
773	0		_012756 _916504 _dLondon: Sage Publication Ltd, 2019. _tHolocene/ _x09596836
856			_uhttps://doi.org/10.1177/0959683619838024
942			_2ddc _cART
999			_c12833 _d12833