Urban Drool Water Quality in Denver, Colorado: Pollutant Occurrences and Sources in Dry-Weather Flows

Pilone, Forrest Gage; García‐Chevesich, Pablo; McCray, John E.

doi:10.3390/w13233436

Cited by 5 publications

(4 citation statements)

References 88 publications

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“…While we did not measure the irrigation rates of the households in the present study, the lack of positive correlation between ET inst and VWC indicates that ET of residential lawns was not limited by soil water supply. Hence, residential lawns received either sufficient or excessive amounts of water from precipitation, irrigation, and possibly other urban water sources (D’Aniello et al., 2021; Hibbs & Sharp, 2012; O’Driscoll et al., 2010; Pilone et al., 2021). Baltimore was the only city where ET inst was correlated with VWC.…”

Section: Discussionmentioning

confidence: 99%

Evapotranspiration of Residential Lawns Across the United States

Grijseels

Litvak

Avolio

et al. 2023

Water Resources Research

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Despite interest in the contribution of evapotranspiration (ET) of residential turfgrass lawns to household and municipal water budgets across the United States, the spatial and temporal variability of residential lawn ET across large scales is highly uncertain. We measured instantaneous ET (ET inst ) of lawns in 79 residential yards in six metropolitan areas: Baltimore, Boston, Miami, Minneapolis-St. Paul (mesic climates), Los Angeles and Phoenix (arid climates). Each yard had one of four landscape types and management practices: traditional lawn-dominated yards with high or low fertilizer input, yards with water-conserving features, and yards with wildlife-friendly features. We measured ET inst in situ during the growing season using portable chambers and identified environmental and anthropogenic factors controlling ET in residential lawns. For each household, we used ET inst to estimate daily ET of the lawn (ET daily ) and multiplied ET daily by the lawn area to estimate the total volume of water lost through ET of the lawn (ET vol ). ET daily varied from 0.9 ± 0.4 mm d 1 in mesic cities to 2.9 ± 0.7 mm d −1 in arid cities. Neither ET inst nor ET daily was significantly influenced by yard landscape types and ET inst patterns indicated that lawns may be largely decoupled from regional rain-driven climate patterns. ET vol ranged from ∼0 L d −1 to over 2,000 L d −1 , proportionally increasing with lawn area. Current irrigation and lawn management practices did not necessarily result in different ET inst or ET daily among traditional, water-conserving, or wildlife-friendly yards, but smaller lawn areas in water-conserving and wildlife-friendly yards resulted in lower ET vol .Plain Language Summary Turfgrass lawns in residential yards can have significant water requirements. However, it is difficult to estimate how much water is consumed by lawns in households that vary in landscape type, management, and climate both within and across different cities. We visited 79 residential households in the United States and measured water use, or evapotranspiration (ET), of turfgrass lawns in six cities with different climates and yard management practices. Lawns used 0.6-1.3 mm of water per day in humid cities, and 2.2-3.6 mm per day in hot and dry cities. Lawn water use was more strongly influenced by climate, particularly solar radiation, than yard landscape type when comparing lawns of similar sizes. However, we found that most yards with conventional landscape types had much larger lawns than yards designed for water conservation or certified to be wildlife friendly. Therefore, the total estimated water use of lawns in each yard differed considerably among households. We conclude that widespread adoption of alternative yard landscape types such as xeriscaping, rain gardens, and wildlife-certified may effectively reduce lawn water consumption in US cities.

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Section: Discussionmentioning

confidence: 99%

Evapotranspiration of Residential Lawns Across the United States

Grijseels

Litvak

Avolio

et al. 2023

Water Resources Research

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“…The focus of the study was on effluent discharge, but urban nonpoint sources can also contribute substantially to nutrients [58]. Distinguishing between the two was beyond the scope of this study [50].…”

Section: Nutrient Patterns and Trendsmentioning

confidence: 99%

Potential Climate and Human Water-Use Effects on Water-Quality Trends in a Semiarid, Western U.S. Watershed: Fountain Creek, Colorado, USA

Bern,

Ruckhaus,

Hennessy

2024

Water

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Nutrients, total dissolved solids (TDS), and trace elements affect the suitability of water for human and natural needs. Here, trends in such water-quality constituents are analyzed for 1999–2022 for eight nested monitoring sites in the 24,000 km2 Fountain Creek watershed in Colorado, USA, by using the weighted regressions on time, discharge, and season (WRTDS) methodology. Fountain Creek shares characteristics with other western U.S. watersheds: (1) an expanding but more water-efficient population, (2) a heavy reliance on imported water, (3) a semiarid climate trending towards warmer and drier conditions, and (4) shifts of water from agricultural to municipal uses. The WRTDS analysis found both upward and downward trends in the concentrations of nutrients that reflected possible shifts in effluent management, instream uptake, and water conservation by a watershed population that grew by about 40%. Selenium, other trace elements, and TDS can pose water-quality challenges downstream and their concentrations were found to have a downwards trend. Those trends could be driven by either a warming and drying of the local climate or decreased agricultural irrigation, as both would reduce recharge and subsequent mobilization from natural geologic sources via groundwater discharge. The patterns illustrate how changes in climate and water use may have affected water quality in Fountain Creek and demonstrate the patterns to look for in other western watersheds.

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“…During storms, rapid runoff from impervious surfaces can result in rapid transfer of water, sediment, metals, nutrients, and mixtures of contaminants that have been called “chemical cocktails” (Booth, 2005; Kaushal et al., 2020; Walsh et al., 2005). Less is known about baseflow (non‐storm) conditions, though this is a critical period to characterize stream‐groundwater connections and aquatic conditions that dominate most of the time, particularly in arid and semi‐arid environments (Gabor et al., 2017; Pilone et al., 2021).…”

Section: Introductionmentioning

confidence: 99%

Urbanization and Water Management Control Stream Water Quality Along a Mountain to Plains Transition

Murphy,

Runkel,

Stets

et al. 2024

Water Resources Research

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Urbanization can have substantial effects on water quality due to altered hydrology and introduction of constituents to water bodies. In arid and semi‐arid environments, streams are further stressed by dewatering as a result of diversions. We conducted a high‐resolution synoptic survey of two streams in Colorado, USA that transition abruptly from granitic/metamorphic forested mountains to sedimentary urbanized plains and are both highly managed for water supply, yet differ in degree of urbanization. A synoptic mass balance approach developed for mine drainage applications was adapted to elucidate effects of urbanization, geology, and diversions on stream chemistry during baseflow conditions. Urbanization was a more important driver of stream concentrations than geology. The urban area was a strong source of bromide, calcium, chloride, and manganese, while lanthanum and dissolved organic carbon were primarily sourced from the mountains. A majority of streamflow was removed by diversions near the mountains/plains interface. Groundwater accounted for 31% of the subsequent flow increase to the urbanized stream, and delivered at least 33% of chloride loading. Constituents that were primarily urban‐derived (bromide, calcium, chloride, and manganese) were 2–3 times higher in the urban region due to diversions; without diversions, stream water quality would have largely retained characteristics of forested streams through the urban reach. This study provides insights into processes that affect water quality in highly managed streams of the semi‐arid western USA.

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Urban Drool Water Quality in Denver, Colorado: Pollutant Occurrences and Sources in Dry-Weather Flows

Cited by 5 publications

References 88 publications

Evapotranspiration of Residential Lawns Across the United States

Evapotranspiration of Residential Lawns Across the United States

Potential Climate and Human Water-Use Effects on Water-Quality Trends in a Semiarid, Western U.S. Watershed: Fountain Creek, Colorado, USA

Urbanization and Water Management Control Stream Water Quality Along a Mountain to Plains Transition

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