Xiner Wu, Mathieu Lemay-Tougas, A. de Vernal, M. Garneau, B. Fréchette, T. Audet, C. Hillaire‐Marcel
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引用次数: 0
Abstract
The micropaleontological and palynological content, and geochemical and isotopic composition of a marine sediment core collected off Pointe-des-Monts in eastern Québec, Canada, reveal regional palaeoclimatic and paleoceanographic conditions in the Lower St. Lawrence Estuary over the last ~8200 years. The pollen and spore content allows comparison with the terrestrial palynostratigraphy, whereas dinoflagellate cysts and benthic foraminifera are used to reconstruct sea-surface conditions and bottom water properties, respectively. The dinocyst-based reconstructions indicate shifts between estuarine and oceanic conditions with important changes in sea-surface temperature, salinity, and primary productivity. Both the dinocyst assemblages and the quantitative sea-surface estimates highlight a distinct transition at ca. 4200 cal years BP. It is notably marked by a change towards higher salinity, which suggests reduced freshwater discharge, hence lower precipitation in the watershed, during the Late-Holocene. The isotopic composition (δ18O and δ13C) and assemblages of the benthic foraminifera indicate centennial to millennial frequency variability of bottom water properties, over a general trend towards decreasing temperatures and increasing ventilation from the beginning of the Middle Holocene until the last century. Since then, reverse trends with abrupt warming and decreasing dissolved oxygen content in bottom water have been observed.
摘要/ abstract摘要:通过对加拿大qubec东部Pointe-des-Monts海相沉积物岩心的微古生物学、孢粉学含量、地球化学和同位素组成的分析,揭示了近8200年来下圣劳伦斯河口地区的区域古气候和古海洋条件。花粉和孢子含量可以与陆地孢粉地层进行比较,而鞭毛藻囊和底栖有孔虫则分别用于重建海面条件和底水性质。基于恐龙囊的重建显示了河口和海洋条件之间的变化,海面温度、盐度和初级生产力发生了重要变化。恐龙囊组合和定量的海面估计都强调了大约4200 cal BP的明显转变。其显著特征是盐度升高,这表明晚全新世期间淡水流量减少,因此流域降水减少。底栖有孔虫的同位素组成(δ18O和δ13C)和组合表明,从中全新世开始到上个世纪,海底水性质的频率变化呈现出温度下降和通风增加的总体趋势。自那以后,观测到底部水溶解氧含量突然变暖和减少的相反趋势。
期刊介绍:
The Holocene is a high impact, peer-reviewed journal dedicated to fundamental scientific research at the interface between the long Quaternary record and the natural and human-induced environmental processes operating at the Earth''s surface today. The Holocene emphasizes environmental change over the last ca 11 700 years.