Catherine M. Adams scite author profile

River water temperatures are increasing globally, particularly in urban systems. In winter, wastewater treatment plant (WWTP) effluent inputs are of particular concern because they increase water temperatures from near freezing to ~7–15 °C. Recent laboratory studies suggest that warm overwinter temperatures impact the reproductive timing of some fishes. To evaluate winter water temperature’s influence in the wild, we sampled Johnny Darter Etheostoma nigrum from three urban South Platte River tributaries in Colorado upstream and downstream of WWTP effluent discharge sites. Fish were collected weekly during the spring spawning season of 2021 and reproductive development was determined from histological analysis of the gonads. Winter water temperatures were approximately 5–10 °C greater ~300 m downstream of the WWTP effluent compared to upstream sites, and approximately 3 °C warmer at sampling sites ~5000 m downstream of the effluent discharge. Females collected downstream of WWTP effluent experienced accelerated reproductive development compared to upstream by 1–2 weeks. Water quality, including total estrogenicity, and spring water temperatures did not appear to explain varying reproductive development. It appears that small increases in winter water temperature influence the reproductive timing in E. nigrum. Further investigations into how shifts in reproductive timing influence other population dynamics are warranted.

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Impact of wastewater treatment plant effluent on the winter thermal regime of two urban Colorado South Platte tributaries

Adams

Winkelman²,

Fitzpatrick

2023

Front. Environ. Sci.

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Wastewater treatment plant effluent can increase stream water temperature from near freezing to 5°C–12°C in winter months. Recent research in the South Platte River Basin in Colorado showed that this warming alters the reproductive timing of some fishes. However, the spatial extent and magnitude of this warming are unknown. Thus, we created winter water temperature models both upstream and downstream of effluent inputs for two urban tributaries of the South Platte River, the Big Thompson River, and St. Vrain Creek. We examined the influence of air temperature, discharge, effluent temperature, and distance downstream on water temperature over the winter period (December–February). The models were also used to predict water temperature in the absence of effluent and based on air temperature predictions in 2052 and 2082. Effluent temperature was the largest driver of water temperature downstream of the effluent, while the impact of air temperature was comparatively small. Streams cooled after an initially sharp temperature increase, though were still predicted to be ∼2°C greater than they would be in the absence of effluent at ∼0.5 km. Predicted air temperatures in 2052 and 2082 had a negligible effect on water temperature, suggesting that mitigating effluent temperature is key to protecting the winter thermal regimes of effluent-impacted rivers. Our models can be used to gain insight into the magnitude and downstream extent of the impact of effluent temperature on small urban streams in winter and provide a baseline for models in other watersheds and at larger scales.

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Laboratory and field evaluation of a new light‐emitting‐diode‐lit quatrefoil light trap for sampling fish early life stages

Adams

Jones

Hatch

et al. 2023

N American J Fish Manag

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Light trap captures of endangered Razorback Sucker Xyrauchen texanus larvae are used to determine timing of upstream Flaming Gorge Reservoir flow releases and to monitor their annual reproductive success in the Green River, Utah. Previous laboratory experiments showed chemical‐light‐stick (CL) light traps are an effective sampling technique for larval Razorback Sucker, and we sought to enhance that by testing a more consistent, higher intensity light‐emitting diode (LED). Laboratory experiments showed LED‐lit traps captured similar or greater numbers of Razorback Sucker and Fathead Minnow Pimephales promelas larvae than CL traps. Laboratory preference tests and paired field tests also showed LED‐lit traps outperformed CL‐lit traps. Biologists should consider adopting this innovative design to increase sampling effectiveness while eliminating light stick waste.

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