Identification of gas supersaturation sources in the upper Colorado River, USA

Regulated Rivers-research & Management Pub Date : 1999-07-01 DOI:10.1002/(SICI)1099-1646(199907/08)15:4<301::AID-RRR521>3.0.CO;2-7

G. Schisler, E. Bergersen

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引用次数: 6

Abstract

Atmospheric gas saturation levels were monitored throughout a 40-km reach of the upper Colorado River during the summer and fall of 1995 to identify possible sources of gas supersaturation in the river. Gas saturation data from seven fixed sampling points and 40 random sampling points were analyzed using analysis of variance (ANOVA) and multiple regression methods. The lowest total gas saturations (ΔP=−27) were found at the bottom release of Williams Fork Reservoir. The highest total gas saturations (ΔP=77) were found at the spillway release of Windy Gap Reservoir and the confluence of Willow Creek and the Colorado River. Spacial and temporal effects were determined to be significant contributors to gas saturation levels. Gas supersaturation in the study area originated from both man-made and natural sources. Water discharged from the spillway of Windy Gap Reservoir was found to be the main source of man-made supersaturation, while photosynthetic activity of aquatic plants was determined to be the natural source of supersaturation in the study area. Copyright © 1999 John Wiley & Sons, Ltd.

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美国科罗拉多河上游天然气过饱和源的识别

在1995年夏季和秋季期间，监测了科罗拉多河上游40公里范围内的大气气体饱和度水平，以确定河中气体过饱和的可能来源。采用方差分析和多元回归方法对7个固定采样点和40个随机采样点的含气饱和度数据进行分析。Williams Fork油藏底部释放层总含气饱和度最低(ΔP=−27)。最高的总天然气饱和度(ΔP=77)是在Windy Gap水库的溢洪道出口和柳溪与科罗拉多河的汇合处发现的。空间和时间效应被确定为气体饱和度水平的重要贡献者。研究区天然气过饱和既有人为原因，也有自然原因。风沟水库泄洪道排放的水是人为过饱和的主要来源，水生植物的光合作用是研究区过饱和的自然来源。版权所有©1999 John Wiley & Sons, Ltd

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Regulated Rivers-research & Management

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