怀俄明州提顿山脉的晚第四纪环境:来自格林湖的花粉记录

B. Balmaki, P. Wigand
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摘要

怀俄明州落基山脉的晚第四纪森林演替以随机模式发生,因为它反映了落基山脉东部和西部低海拔冰川植被的差异,以及沿着山顶向南的差异。山地冰川融化程度的不同导致了再殖民时间的不同。由于物种到达的延迟,甚至物种的排除,植物组合的组成发生了显著的变化。全新世气候变率,特别是持续的全球变暖,增加了植物组合的复杂动态,温暖气候物种取代了全新世早期的寒冷气候物种。来自绿湖(位于怀俄明州提顿县提顿山脉西侧的冰川圆环)的花粉记录说明了当地植被从Mazama火山灰落之前到全新世中期暖期结束的反应。虽然花粉序列的早期部分记录了一些最后的调整,因为一些植物物种在冰川消退后仍然到达,但到马扎马火山灰下降时,气候变化决定了绿湖记录中观察到的大部分动态。结果揭示了基于诊断树种存在的湿润和干燥时期序列。一个湿润的全新世早期晚期之后是一个干燥的全新世中期,大约在6400 cal. B.P.结束,然后在5000到2800 cal. B.P.之间是一系列干燥和湿润的气候时期。
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Late Quaternary Environments of the Teton Mountains, Wyoming: A Pollen Record from Green Lake
Late Quaternary forest succession in Wyoming’s Rocky Mountains, occurred in random patterns, because it reflects differences between the Glacial vegetation at lower elevations on the east vs. the west of the Rockies, as well as along the mountain crest to the south. Differential melting of mountain glaciers resulted in differences in the timing of recolonization. Significant variations in the composition of plant assemblages occurred due to delays in species’ arrival, and even in the exclusion of species. Holocene climate variability, especially ongoing global warming, added to the complex dynamics of plant assemblages with warm climate species replacing early Holocene, cooler climate species. The pollen record from Green Lake (located in a glacial cirque on the west side of the Teton Mountains in Teton County, Wyoming) addresses the local vegetation response from just before the fall of Mazama ash to the end of the middle Holocene warm period. Although the earlier portion of the pollen sequence records some of the last adjustments as some plant species were still arriving after de-glaciation, by the time Mazama ash fell it was climate variation that determined most of the dynamics observed in the Green Lake record. The results reveal a sequence of wetter and drier periods based upon the presence of diagnostic tree species.  A moist late early Holocene was followed by a dry middle Holocene, which ended about 6,400 cal. B.P., and was followed between 5,000 to 2,800 cal. B.P. by a sequence of drier and moister climate episodes.
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