How a Fundamentally Different and New Glacial History Paradigm Explains North America Glaciated Prairie Region Erosional Escarpments and Drainage Patterns

E. Clausen
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引用次数: 4

Abstract

Scientific paradigms are frameworks of ideas governing how a discipline conducts its research. Paradigms by themselves are neither correct nor incorrect, but are judged on their ability to explain evidence and to open up research opportunities. The commonly accepted glacial history paradigm requires North American glaciated prairie region erosional landform features, such as erosional escarpments and abandoned valleys associated with the north-oriented Bell River drainage system, to be pre-glacial in origin. While considerable literature is based on such interpretations those escarpments and abandoned valleys are formed in easily eroded bedrock and should not have survived continental ice sheet erosion. In addition to defying common sense logic the pre-glacial origin of those erosional escarpments and abandoned valleys is not well understood. A new paradigm requiring at least one continental ice sheet to have occupied a deep North American “hole” (formed by deep ice sheet erosion and ice sheet caused crustal warping) offers geomorphologists an opportunity to explain the erosional escarpments as remnants of canyon walls originally formed when supra-glacial rivers sliced ice-walled and bedrock-floored canyons into a decaying continental ice sheet’s surface and the abandoned north-oriented Bell River drainage system valleys to have been eroded as the ice-walled and bedrock-floored canyon network captured and diverted massive melt water floods onto and then across the decaying ice sheet’s floor and then in northeast and north directions between detached and semi-detached ice sheet remnants. The diversion of immense melt water floods from the Gulf of Mexico to the North Atlantic Ocean triggered climatic change that ended the first ice sheet’s melting. Water in the newly formed north-oriented drainage systems then froze between the detached and semi-detached (and greatly thinned) ice sheet remnants to create a second and much thinner ice sheet and to complete creation of the glaciated prairie region glacial features seen today.
一个完全不同的新冰川史范式如何解释北美冰川草原地区的侵蚀悬崖和排水模式
科学范式是指导一门学科如何进行研究的思想框架。范式本身既不正确也不错误,而是根据它们解释证据和开辟研究机会的能力来判断的。普遍接受的冰川历史范式要求北美冰川草原地区的侵蚀地貌特征,如与北向贝尔河流域系统相关的侵蚀悬崖和废弃山谷,起源于冰川前。虽然有相当多的文献是基于这样的解释,但那些悬崖和废弃的山谷是在容易被侵蚀的基岩上形成的,不应该在大陆冰盖的侵蚀下幸存下来。除了违背常理的逻辑外,那些侵蚀性悬崖和废弃山谷的冰期前起源还没有得到很好的理解。一个新的范式要求至少有一个大陆冰盖占据了一个深深的北美“洞”(由深冰盖侵蚀和冰盖引起的地壳扭曲形成),这为地貌学家提供了一个机会来解释侵蚀悬崖是峡谷壁的残余物,最初形成于冰川上的河流将冰壁和基岩底部的峡谷切割成腐烂的大陆冰盖表面和废弃的北向贝尔河排水系统山谷由于冰壁和基岩底部的峡谷网络捕获并转移了大量的融化水,使其流入并穿过正在腐烂的冰盖底部,然后在分离和半分离的冰盖残留物之间的东北和北方方向上受到侵蚀。巨大的融水洪水从墨西哥湾流向北大西洋,引发了气候变化,结束了第一次冰盖的融化。新形成的北向排水系统中的水随后在分离的和半分离的(大大变薄的)冰盖残余物之间冻结,形成了第二个更薄的冰盖,并完成了今天所见的冰川草原地区冰川特征的形成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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