SOUTH PLATTE RIVER BASIN ‐ COLORADO, NEBRASKA, AND WYOMING<sup>1</sup>

Dennehy, Kevin F.; Litke, David W.; Tate, Cathy M.; Heiny, Janet S.

doi:10.1111/j.1752-1688.1993.tb03231.x

Cited by 34 publications

(32 citation statements)

References 12 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Population within the basin is expected to almost double in size to between 1.9 and 2.6 million people by 2050, accounting for nearly two‐thirds of the state's increase in gross municipal and industrial demand (CWCB, ). The South Platte spans east from the Continental Divide and is a snow‐dominated system, averaging over 760 mm of snow per year, with an average rainfall of 380 mm per year (Dennehy et al ., ). The mid and eastern regions of the basin experience little precipitation and high evapotranspiration due to heavily irrigated cropland and exposure to wind and solar radiation.…”

Section: Study Areamentioning

confidence: 97%

Water Use for Hydraulic Fracturing of Oil and Gas in the South Platte River Basin, Colorado

Walker

Anderson

Read

et al. 2017

J American Water Resour Assoc

View full text Add to dashboard Cite

Water use for oil and gas development (i.e., hydraulic fracturing) is a concern in semiarid basins where water supply is often stressed to meet demands, and oil and gas production can exacerbate the situation. Understanding the impacts of water use for hydraulic fracturing (HF) on water availability in semiarid regions is critical for management and regulatory decisions. In the current work, we quantify water use for HF at several scales — from municipal to state‐wide — using the IHS Enerdeq database for the South Platte Basin. In addition, we estimate produced water (a by‐product of oil and gas production), using data from the Colorado Oil and Gas Conservation Commission to explore reuse scenarios. The South Platte River Basin, located in northeastern Colorado, encompasses the Denver‐Metro area. The basin has one of the most productive oil and gas shale formations in Colorado, with much of the production occurring in Weld County. The basin has experienced higher horizontal drilling rates coupled with an increasing population. Results show water use for horizontal and vertical wells averages 11,000 and 1,000 m3, respectively. Water use for HF in the South Platte Basin totaled 0.63% of the basin's 2014 total water demand. For Weld County, water use for HF was 2.4% of total demand, and for the city of Greeley, water use was 7% of total demand. Produced water totaled 9.4 Mm3 in the basin for 2014, which represents 42% of the total water used for HF.

show abstract

Section: Study Areamentioning

confidence: 97%

Water Use for Hydraulic Fracturing of Oil and Gas in the South Platte River Basin, Colorado

Walker

Anderson

Read

et al. 2017

J American Water Resour Assoc

View full text Add to dashboard Cite

show abstract

“…For example, flow in the South Platte River downstream of the Denver, Colorado, USA metropolitan area ranges from 69–100% sewage effluent depending on the time of year (Dennehy et al . ; Strange, Fausch & Covich ). Similarly, in 285 of 582 permitted wastewater discharges in Texas, Oklahoma, New Mexico, Arkansas and Louisiana, wastewater effluent comprises over 90% of the stream flow (Brooks, Riley & Taylor ).…”

Section: Introductionmentioning

confidence: 99%

An environmental oestrogen disrupts fish population dynamics through direct and transgenerational effects on survival and fecundity

Schwindt

Winkelman

Keteles

et al. 2014

Journal of Applied Ecology

View full text Add to dashboard Cite

Summary1. Increased need for water and projected declines in precipitation due to climate change could leave waterways increasingly dominated by wastewater effluent. Understanding how components of wastewater influence fish populations is necessary for effective conservation and management. Despite research demonstrating effects of oestrogens, such as 17a-ethynylestradiol (EE2), on fish physiology and population failure, the generality of population responses is uncertain and the underlying mechanisms affecting population declines are unknown. EE2 is the steroid oestrogen in human contraceptive pills and has been measured up to 11 ng L À1 in the environment. 2.We identify disrupted population dynamics due to direct and transgenerational effects on survival and fecundity. We conducted a year-long study on three generations of fathead minnows Pimephales promelas Rafinesque in aquatic mesocosms and laboratory aquaria. We added environmentally relevant concentrations of EE2 daily using a static renewal, which approximates a pulsed exposure that fish experience in natural systems. 3. EE2 (3Á2 ng L À1 ) reduced F0 male survival to 17% (48% lower than controls) and juvenile production by 40% compared to controls. F1 fish continuously exposed to EE2 failed to reproduce, and reproduction of the F1 transferred to clean water was 70-99% less than controls. 4. F2 larval survival, exposed only as germ cells in their parents, was reduced by 51-97% compared to controls. The indirect effect on F2 survival suggests the possibility of transgenerational effects of EE2. 5. Synthesis and applications. Our results suggest that fish populations exposed to environmentally relevant 17a-ethynylestradiol (EE2) concentrations may not recover from exposure. Management of short-lived highly fecund fishes should be prioritized to protect fish from the embryo through gonadal differentiation. Reducing effluent will not be possible in many situations; hence, conservation of breeding and rearing habitat in unpolluted tributaries or reaches is needed. Additionally, resource managers could enhance habitat connectivity in rivers to facilitate immigration. Finally, investment in advanced wastewater processing technology should improve removal of bioactive chemicals such as EE2. Our results provide a baseline for regulatory agencies to consider when assessing the ecological effects of environmental oestrogens, and our approach to evaluating population-level effects could be widely applied to other contaminants.

show abstract

“…The valley fill alluvium in the study area is made up of Holocene sands and gravels that rest on shale of Cretaceous origin (Dennehy et al, 1993). The alluvium is 3Ð2 to 12Ð9 km wide and 6Ð1 to 36Ð6 m deep (Hurr et al, 1972a-c).…”

Section: Study Sitementioning

confidence: 99%

Analysis of groundwater exchange for a large plains river in Colorado (USA)

Sjodin

Lewis

Saunders

2001

Hydrological Processes

View full text Add to dashboard Cite

Abstract:Complete daily water budget information was assembled for a 105 km segment of the South Platte River in the plains region below Denver, CO, for the period 1983-1993. The data were used in testing the possibility that dependence of alluvial exchange mechanisms on stage height, as shown by models of alluvial exchange, allows alluvial exchange to be predicted continuously over a given reach through use of statistical information on river discharge. The study segment was divided into an upper and a lower reach; daily alluvial exchanges for each reach were estimated by the method of residuals. The two reaches show small (15%) but statistically significant annual differences in rates of exchange. For each reach, there is a seasonal pattern (2Ð5-fold oscillation) in alluvial discharge to the channel, reflecting seasonality in recharge of the alluvium by irrigation. At discharges up to 40 m 3 /s (82nd percentile), alluvial discharge to the channel occurs at a rate independent of river discharge. Above 40 m 3 /s, net alluvial discharge into the channel is progressively reduced; at 60 m 3 /s (92nd percentile) there is no net alluvial exchange. At still higher river discharges, water is lost to the alluvium through bank storage at a rate that is linearly related to the logarithm of discharge. Annually, alluvial discharge accounts for 15-18% of water entering the study segment, and alluvial recharge through bank storage accounts for 2-4% of water leaving the segment. Alluvial recharge through bank storage at the highest discharges can, however, exceed low-flow alluvial discharge rates by five-fold over short intervals. Even though daily alluvial exchanges vary widely, they can be estimated at r 2 values above 80% on the basis of reach, season, and river discharge.

show abstract

SOUTH PLATTE RIVER BASIN ‐ COLORADO, NEBRASKA, AND WYOMING¹

Cited by 34 publications

References 12 publications

Water Use for Hydraulic Fracturing of Oil and Gas in the South Platte River Basin, Colorado

Water Use for Hydraulic Fracturing of Oil and Gas in the South Platte River Basin, Colorado

An environmental oestrogen disrupts fish population dynamics through direct and transgenerational effects on survival and fecundity

Analysis of groundwater exchange for a large plains river in Colorado (USA)

Contact Info

Product

Resources

About

SOUTH PLATTE RIVER BASIN ‐ COLORADO, NEBRASKA, AND WYOMING1

Cited by 34 publications

References 12 publications

Water Use for Hydraulic Fracturing of Oil and Gas in the South Platte River Basin, Colorado

Water Use for Hydraulic Fracturing of Oil and Gas in the South Platte River Basin, Colorado

An environmental oestrogen disrupts fish population dynamics through direct and transgenerational effects on survival and fecundity

Analysis of groundwater exchange for a large plains river in Colorado (USA)

Contact Info

Product

Resources

About

SOUTH PLATTE RIVER BASIN ‐ COLORADO, NEBRASKA, AND WYOMING¹