Seasonal and longitudinal water quality dynamics in three effluent-dependent rivers in Arizona

Hamdhani, Hamdhani; Eppehimer, Drew E.; Quanrud, David M.; Bogan, Michael T.

doi:10.7717/peerj.15069

PeerJ

2023

DOI: 10.7717/peerj.15069

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Seasonal and longitudinal water quality dynamics in three effluent-dependent rivers in Arizona

Hamdhani Hamdhani

Drew E. Eppehimer

David M. Quanrud

et al.

Abstract: Effluent-fed streams, which receive inputs from wastewater treatment plants, are becoming increasingly common across the globe as urbanization intensifies. In semi-arid and arid regions, where many natural streams have dried up due to over extraction of water, many streams rely completely on treated effluent to sustain baseflow during dry seasons. These systems are often thought of as ‘second-class’ or highly disturbed stream ecosystems, but they have the potential to serve as refuges for native aquatic biota … Show more

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2024

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Cited by 1 publication

References 83 publications

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Macroinvertebrate community development and resilience to channel dredging following flow restoration using effluent in an urban desert river

Bogan,

Hamdhani,

Eppehimer

et al. 2024

Restoration Ecology

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Freshwater species face numerous threats across the globe, including urbanization. Within cities in regions with drier climates, dewatering and channelization of rivers commonly occur and reduce or eliminate freshwater biodiversity. The discharge of effluent (treated wastewater) has been used to restore flow in some of these rivers, but our knowledge is negligible about how ecological communities develop and change in these unique but increasingly common ecosystems. In this study, we quantified aquatic macroinvertebrate community development in the Santa Cruz River (Arizona, U.S.A.), where effluent‐restored flow more than 100 years after the river dried up. We tracked community development over a 2‐year period in reaches where flow had been restored and compared those findings with data from a reference reach. Our study period also encompassed a massive disturbance where effluent releases temporarily ceased and sediment was dredged from the channel, allowing us to quantify the impacts of urban channel maintenance activities on recovering communities. Macroinvertebrate colonization was rapid following the initial flow restoration and channel dredging, with density and species richness values reaching or exceeding those of the reference reach within a few months, but community composition remained quite distinct after 2 years. Flow duration and the number of dry days in the month prior to sampling were the most influential factors in macroinvertebrate metrics. Simply adding effluent to dewatered urban rivers has the potential to restore diverse aquatic fauna, but targeted reintroductions may be needed for sensitive or dispersal‐limited taxa.

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Macroinvertebrate community development and resilience to channel dredging following flow restoration using effluent in an urban desert river

Bogan,

Hamdhani,

Eppehimer

et al. 2024

Restoration Ecology

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show abstract

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Seasonal and longitudinal water quality dynamics in three effluent-dependent rivers in Arizona

Cited by 1 publication

References 83 publications

Macroinvertebrate community development and resilience to channel dredging following flow restoration using effluent in an urban desert river

Macroinvertebrate community development and resilience to channel dredging following flow restoration using effluent in an urban desert river

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