美国佛罗里达州Apalachicola晚全新世海岸生态变化和气候变率的孢粉记录

Qiang Yao , Erika Rodrigues , Kam-biu Liu , Caitlin Snyder , Nicholas Culligan
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引用次数: 3

摘要

本研究以美国佛罗里达州阿巴拉契科拉圣乔治岛的三个沉积物岩心为基础,利用放射性测年、孢粉学、着火损失和x射线荧光分析,重建了墨西哥湾北部红树林范围极限的植被历史和海岸形态变化。多代记录表明,圣乔治岛附近的红树林是近几十年形成的,晚全新世1500年的沉积记录中没有发现红树林的迹象。圣乔治岛目前的红树林扩张是由最近的气候变暖引起的,而不是与周期性全球气候变化相关的反复出现的现象。基于年代际尺度气候和环境记录的进一步分析表明,海平面加速上升和冬季变暖,特别是21世纪冬季冻结事件的减少,是近几十年来红树林扩展到其北方范围极限的最合理原因。在21世纪预测的变暖趋势和海平面加速上升的情况下,我们有理由相信,在阿巴拉契科拉和其他靠近极地范围的地区,红树林对沿海沼泽的侵占将加速。
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A Late-Holocene palynological record of coastal ecological change and climate variability from Apalachicola, Florida, U.S.A

This study uses radiometric dating, palynological, loss-on-ignition, and X-ray fluorescence analyses to reconstruct the vegetation history and coastal morphological changes at the boreal mangrove range limit along the Gulf of Mexico, based on three sediment cores taken from St. George Island, Apalachicola, Florida, USA. The multi-proxy record indicates that the mangrove stands in the vicinity of St. George Island were formed in the recent decades, and no signs of mangroves were found for the last 1500 years during the Late-Holocene in the sedimentary record. The current mangrove expansion at St. George Island is caused by the recent climate warming instead of a recurring phenomenon tied with cyclical global climate variability. Further analysis based on decadal-scale climatic and environmental records reveal that the accelerated sea-level rise and warmer winters, especially the decrease of winter freeze events in the 21st century, are the most plausible causes for mangrove expansion at their boreal range limit during the recent decades. Under the predicted warming trend and accelerating sea-level rise in the 21st century, it is reasonable to believe that mangrove encroachment into coastal marshes will accelerate at Apalachicola and other areas near their poleward range limits.

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