Abstract
Divide crossings (or low points or gaps) notched into the North American east-west continental divide segments completely encircling Wyoming’s Great Divide Basin interior drainage region (as observed on detailed topographic maps) are used to compare the commonly accepted regional geomorphology paradigm with a fundamentally different and new regional geomorphology paradigm. Paradigms are sets of rules governing how a scientific discipline conducts its research and are judged on their ability to explain observed evidence. Published literature is used to contrast an accepted paradigm interpretation that east-oriented drainage previously flowed across what is now the Great Divide Basin with the new paradigm basic requirement that mountain range and continental divide uplift occurred while immense south-oriented floods flowed across them. Numerous divide crossings are notched into the continental divide segments now completely encircling the relatively flat-floored Great Divide Basin interior drainage area and divide crossings observed along each of the Great Divide Basin’s north, east, south, and west margins are described and interpreted first from the accepted paradigm perspective (using published literature interpretations to the extent possible) and second from the new paradigm perspective. The published literature does not mention most of the described divide crossings, much less provide explanations for their origins, perhaps because the accepted paradigm cannot satisfactorily explain those origins. In contrast the new paradigm successfully explains most if not all of the described (and observed, but undescribed) divide crossings, although the new paradigm requires a completely different middle and late Cenozoic regional geologic history than what most published regional geology literature describes.
Highlights
1.1 Statement of the ProblemSouthwestern Wyoming‟s Great Divide Basin is a closed basin, approximately 104 km2 in size and is located in a high-altitude desert region along North America‟s east-west continental divide
This paper briefly describes several of the numerous divide crossings that are notched into continental divide segments encircling the Great Divide Basin and attempts to explain those divide crossings from the accepted and the new paradigm perspectives
This paper describes enough divide crossings notched into drainage divides encircling the Great Divide Basin interior drainage region to demonstrate that water once flowed at numerous locations into and/or out of the Great Divide Basin
Summary
1.1 Statement of the ProblemSouthwestern Wyoming‟s Great Divide Basin (seen in figure 1) is a closed basin, approximately 104 km in size and is located in a high-altitude desert region along North America‟s east-west continental divide. Clausen (2019a and 2019b), working from a new and fundamentally different middle and late Cenozoic regional geology paradigm (new paradigm) perspective suggests what is the Wyoming east-west continental divide originated when a thick continental ice sheet caused crustal warping to raise what are high plateau areas and mountain ranges as massive south-oriented continental ice sheet meltwater floods flowed across them. 152), “Bedrock exposed among the dunes at Sand Gap is at an elevation of 1990 m which is slightly lower than the elevation of the divide at Sinclair Gap.”. On average, the basin is quite flat” with an average elevation of about 2100 m above sea level and “the lowest gaps along the basin divide include Wamsutter Gap (2051 m), Muddy Gap (2066 m), Sinclair Gap (1996 m), and Sand Gap (2097 m)..., and these are the minimum spillover elevations.” Heller et al further note (p. 152), “Bedrock exposed among the dunes at Sand Gap is at an elevation of 1990 m which is slightly lower than the elevation of the divide at Sinclair Gap.” For this esr.ccsenet.org
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