Lake Modeling Reveals Management Opportunities for Improving Water Quality Downstream of Transboundary Tropical Dams

Calamita, Elisa; Vanzo, Davide; Wehrli, Bernhard; Schmid, Martin

doi:10.1029/2020wr027465

Cited by 20 publications

(19 citation statements)

References 94 publications

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“…14 of 52 all pixels within a water body) (MacCallum & Merchant, 2012;Woolway & Merchant, 2017) and within-lake thermal patterns, as well as their responses to climate change (Calamita et al, 2021;Mason et al, 2016;Woolway & Merchant, 2018;Zhong et al, 2016). Specifically, studies that have investigated spatially resolved observations of LSWT demonstrated considerable within-lake warming patterns, with warming rates often differing at sub-basin scales (Kraemer et al, 2015;Mason et al, 2016;Zhong et al, 2016).…”

Section: Satellite Observation Of Lswtmentioning

confidence: 99%

Lake Water Temperature Modeling in an Era of Climate Change: Data Sources, Models, and Future Prospects

Piccolroaz,

Zhu,

Ladwig

et al. 2024

Reviews of Geophysics

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Lake thermal dynamics have been considerably impacted by climate change, with potential adverse effects on aquatic ecosystems. To better understand the potential impacts of future climate change on lake thermal dynamics and related processes, the use of mathematical models is essential. In this study, we provide a comprehensive review of lake water temperature modeling. We begin by discussing the physical concepts that regulate thermal dynamics in lakes, which serve as a primer for the description of process‐based models. We then provide an overview of different sources of observational water temperature data, including in situ monitoring and satellite Earth observations, used in the field of lake water temperature modeling. We classify and review the various lake water temperature models available, and then discuss model performance, including commonly used performance metrics and optimization methods. Finally, we analyze emerging modeling approaches, including forecasting, digital twins, combining process‐based modeling with deep learning, evaluating structural model differences through ensemble modeling, adapted water management, and coupling of climate and lake models. This review is aimed at a diverse group of professionals working in the fields of limnology and hydrology, including ecologists, biologists, physicists, engineers, and remote sensing researchers from the private and public sectors who are interested in understanding lake water temperature modeling and its potential applications.

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Section: Satellite Observation Of Lswtmentioning

confidence: 99%

Lake Water Temperature Modeling in an Era of Climate Change: Data Sources, Models, and Future Prospects

Piccolroaz,

Zhu,

Ladwig

et al. 2024

Reviews of Geophysics

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“…From sampling points further downstream on the Zambezi, we observed a trend of recovery towards near-saturation, though models have suggest that full recovery of dissolved oxygen will only occur aer 380 km at which point the river will have already reached the Cahora Bassa reservoir in Mozambique. 30 The severe hypoxia in the Kafue River below the Itezhi-Tezhi appears to be a new phenomenon driven by a recent change in dam operation. Previously, the Itezhi-Tezhi had served as a supply reservoir for downstream generation at the Kafue Gorge (located at the far end of the Kafue Flats) and discharged lake surface waters through spill gates.…”

Section: Dams and Hypoxiamentioning

confidence: 99%

“…Climate warming could also change strati-cation dynamics by disrupting seasonal re-mixing driven by cooler air temperatures and winds. Modeling the physical mixing, temperature and oxygen regimes in tropical reservoirs 30 such as Kariba and Itezhzi-Tezhi could quantify the projected effects of climate warming and increased fertilizer loads on water quality in downstream river reaches.…”

Section: Dams and Hypoxiamentioning

confidence: 99%

Anthropogenic influences on Zambian water quality: hydropower and land-use change

Winton

Teodoru

Calamita

et al. 2021

Environ. Sci.: Processes Impacts

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“…However, all those conclusions cannot be directly applied to tropical case studies where the hydrological regime is different (Winton et al, 2019). Nevertheless, based on the studies mentioned above, it is necessary to go deeper into studies that directly relate water quality to hydrological and meteorological factors in hydropower systems in tropical latitudes (Calamita, 2020).…”

Section: Introductionmentioning

confidence: 99%

On the Spatial-Temporal Behavior, and on the Relationship Between Water Quality and Hydrometeorological Information to Predict Dissolved Oxygen in Tropical Reservoirs. Case Study: La Miel, Hydropower Dam

Juliana-Andrea

Cesar

Alberto

et al. 2023

Air, Soil and Water Research

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Hydropower is currently one of the leading renewable energy sources in developing countries. Despite the benefits that it can provide, it also triggers significant environmental impacts, such as changes in the reservoirs’ water quality. In quantifying those changes, dissolved oxygen (DO) is used as one of the water quality indicators and is the most used variable to quantify water quality and analyze water pollution. This paper aims to establish a relationship between water quality and hydrometeorological variables in tropical reservoirs to better estimate dissolved oxygen. Univariate and multivariate techniques were used to analyze temporal and spatial changes in watersheds to better select vital variables for the forecast model, such as Vector Autoregression (VAR). The results show that, for all monitoring stations, the water quality variables associated with the DO process are COD, BOD, and PO₄. Likewise, precipitation and flow discharge were the hydrometeorological parameters that had the most significant impact on DO. Also, the principal component analysis (PCA) allowed us to identify that the strength of the relationships between water quality and hydrometeorology changes depending on the location of the monitoring site. Finally, the implementation of a VAR model showed good performance metrics for dissolved oxygen predictions based on all analyses.

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Lake Modeling Reveals Management Opportunities for Improving Water Quality Downstream of Transboundary Tropical Dams

Cited by 20 publications

References 94 publications

Lake Water Temperature Modeling in an Era of Climate Change: Data Sources, Models, and Future Prospects

Lake Water Temperature Modeling in an Era of Climate Change: Data Sources, Models, and Future Prospects

Anthropogenic influences on Zambian water quality: hydropower and land-use change

On the Spatial-Temporal Behavior, and on the Relationship Between Water Quality and Hydrometeorological Information to Predict Dissolved Oxygen in Tropical Reservoirs. Case Study: La Miel, Hydropower Dam

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