一个新的冰川历史范式如何解释阿拉巴马州东北部的田纳西河-墨西哥湾流域分区地形图流域系统证据

IF 0.4 Q4 GEOSCIENCES, MULTIDISCIPLINARY
E. Clausen
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引用次数: 1

摘要

通过使用位于阿拉巴马田纳西河-墨西哥湾流域(田纳西河谷分水岭)东北部及其附近的地形图流域系统和侵蚀地貌证据,测试了一种新的、根本不同的冰川历史范式(利用密苏里河流域地形图证据开发)。新的范式描述了一个厚厚的北美大陆冰盖(位于大陆冰盖通常被报道的位置),它具有足够的腐蚀性和重量,足以形成并占据一个深“洞”,并产生大量的融水洪水,这些洪水首先流过深“洞”的上升的南缘,随后被深“洞”边缘的隆起所迫,流入深“洞”边缘内部,最后向北流入深“洞”本身。阿拉巴马州东北部的地形图证据包括分水岭(沿着排水分水岭的低点),倒钩支流,和其他不寻常的排水特征证实了新范式的预测,即大规模和长时间的南向洪水首先流经东北部的阿拉巴马-田纳西河谷分水岭(这是新范式的深“洞”南缘的一部分),随后沿着上升的深“洞”边缘转移,最终逆转到达密西西比河流域(成为深“洞”唯一剩下的南部出口),形成今天的西南、西北、以及向北的田纳西河。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
How a New Glacial History Paradigm Explains Northeast Alabama’s Tennessee River-Gulf of Mexico Drainage Divide Area Topographic Map Drainage System Evidence
A new and fundamentally different glacial history paradigm (developed by using Missouri River drainage basin topographic map evidence) is tested by using topographic map drainage system and erosional landform evidence located along and near the northeast Alabama Tennessee River-Gulf of Mexico drainage divide (Tennessee Valley Divide). The new paradigm describes a thick North American continental ice sheet (located where continental ice sheets are usually reported to have been) which was erosive and heavy enough to create and occupy a deep “hole” and which produced massive meltwater floods which first flowed across the deep “hole’s” rising southern rim and which were subsequently forced by deep “hole” rim uplift to flow inside the deep “hole” rim and finally to flow northward into the deep “hole” itself. Northeast Alabama topographic map evidence including divide crossings (low points along drainage divides), barbed tributaries, and other unusual drainage features verify new paradigm predictions that large and prolonged south-oriented floods first flowed across the northeast Alabama Tennessee Valley Divide (which was a segment of the new paradigm’s deep “hole” southern rim) and were subsequently diverted along the rising deep “hole” rim and finally reversed to reach the Mississippi River valley (which became the deep “hole’s” only remaining southern exit) and to form what is today the southwest-, northwest-, and north-oriented Tennessee River.
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来源期刊
Journal of Geology Geography and Geoecology
Journal of Geology Geography and Geoecology GEOSCIENCES, MULTIDISCIPLINARY-
自引率
40.00%
发文量
57
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