Predicting Impact of Climate Change on Water Temperature and Dissolved Oxygen in Tropical Rivers

Bello, Al-Amin Danladi; Hashim, Noor Baharim; Haniffah, Mohd Ridza Mohd

doi:10.3390/cli5030058

Cited by 43 publications

(14 citation statements)

References 58 publications

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“…Figure 4 shows that the basin water temperature is affected by the climatic conditions. It can observe that the basin water temperatures increase with increasing solar radiation intensity and ambient temperature which corresponds to in the finding previous study [19]. The highest value of basin water temperature was recorded in 19.06.2019, which reached 48.6 at 15:00 pm, followed by day 18.06.2019 which recorded 39.9 at 16:00 pm, while on day 17.06.2019 it reached 30.5 at 16:00 pm.…”

Section: Resultssupporting

confidence: 89%

Experimental Investigation of Modified Solar Still Productivity under Variable Climatic Conditions

Alwan¹,

Щеклеин²,

Ali³

2020

IJDNE

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Conversion of untreated water into drinking water using solar distillation technology can be considered as the most viable methods in the dry climate regions and remote areas. The productivity of solar stills influences by various conditions such as design, operational and environmental conditions. The current paper includes a practical investigation of the effects the climatic conditions on the fresh water production from modified single-slope solar still in Russia. Results analysis showed that the mechanism of heat transfer and mass transfer within the solar still depend on environmental parameters. The heat transfer coefficients have been gradually increased from the early morning after 08:00 am and reached the highest value at the noon then decrease gradually afternoon to reach the lowest value at 20:00 pm. The maximum value of coefficient of heat transfer by evaporation found to be 12.1 W/m 2. K at 17:00 pm on 19.06.2019, then 9.9 W/m 2. K at 17:00 pm on 18.06.2019, and 2 W/m 2. K at 18:00 pm on 17.06.2019. Therefore, a noticeable improvement in the fresh water productivity from solar still has been observed with increasing solar radiation intensity, ambient temperature and decreasing relative humidity. The amount of production during a cloudy day was 287 ml/m 2 , 620 ml/m 2 for a partial cloudy day and 950 ml/m 2 during a sunny day.

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Section: Resultssupporting

confidence: 89%

Experimental Investigation of Modified Solar Still Productivity under Variable Climatic Conditions

Alwan¹,

Щеклеин²,

Ali³

2020

IJDNE

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“…In particular, hypoxia can cause the collapse of oxic river ecosystems, leading to potential extirpation of fish and other fauna [14]. Artificial alterations of temperature and oxygen dynamics can have cascading effects on other water quality parameters, on the integrity of aquatic ecosystems, and on associated services [15].…”

Section: Introductionmentioning

confidence: 99%

Sixty years since the creation of Lake Kariba: Thermal and oxygen dynamics in the riverine and lacustrine sub-basins

et al. 2019

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The current boom of dam construction at low latitudes endangers the integrity and function of major tropical river systems. A deeper understanding of the physical and chemical functioning of tropical reservoirs is essential to mitigate dam-related impacts. However, the development of predictive tools is hampered by a lack of consistent data on physical mixing and biogeochemistry of tropical reservoirs. In this study, we focus on Lake Kariba (Southern Africa), the largest artificial lake in the world by volume. Kariba Dam forms a transboundary reservoir between Zambia and Zimbabwe, and therefore its management represents a socio-politically sensitive issue because the Kariba Dam operation completely changed the downstream hydrological regime. Although Lake Kariba represents a unique and scientifically interesting case study, there is no consistent dataset documenting its physical and chemical behaviour over time. This limits the scope for quantitative studies of this reservoir and its downstream impacts. To address this research gap, we aggregated a consistent database of in situ measurements of temperature and oxygen depth profiles for the entire 60 years of Lake Kariba’s lifetime and performed a detailed statistical analysis of the thermal and oxygen regime of the artificial lake to classify the different behaviours of the lake’s sub-basins. We demonstrate that the seasonal stratification strongly depends on the depth of the water column and on the distance from the lake inflow. Satellite data confirm these spatiotemporal variations in surface temperature, and reveal a consistent longitudinal warming trend of the lake surface water temperature of about 1.5°C from the inflow to the dam. Finally, our results suggest that the stratification dynamics of the lacustrine sub-basins have the potential to alter the downstream Zambezi water quality. Future research should focus on assessing such alterations and developing strategies to mitigate them.

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“…Water quality modeling studies predicted depletion of DO under streamflow, RWT, and land use changes for various basins globally 1 , 7 , 15 – 19 . Such studies modeled RWT based on regression models 18 and process-based stream temperature models 15 , 16 and river water quality models such as QUAL2K 17 , 19 .…”

Section: Introductionmentioning

confidence: 99%

Impact of climate change on river water temperature and dissolved oxygen: Indian riverine thermal regimes

Rajesh

Rehana

2022

Sci Rep

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The impact of climate change on the oxygen saturation content of the world’s surface waters is a significant topic for future water quality in a warming environment. While increasing river water temperatures (RWTs) with climate change signals have been the subject of several recent research, how climate change affects Dissolved Oxygen (DO) saturation levels have not been intensively studied. This study examined the direct effect of rising RWTs on saturated DO concentrations. For this, a hybrid deep learning model using Long Short-Term Memory integrated with k-nearest neighbor bootstrap resampling algorithm is developed for RWT prediction addressing sparse spatiotemporal RWT data for seven major polluted river catchments of India at a monthly scale. The summer RWT increase for Tunga-Bhadra, Sabarmati, Musi, Ganga, and Narmada basins are predicted as 3.1, 3.8, 5.8, 7.3, 7.8 °C, respectively, for 2071–2100 with ensemble of NASA Earth Exchange Global Daily Downscaled Projections of air temperature with Representative Concentration Pathway 8.5 scenario. The RWT increases up to7 °C for summer, reaching close to 35 °C, and decreases DO saturation capacity by 2–12% for 2071–2100. Overall, for every 1 °C RWT increase, there will be about 2.3% decrease in DO saturation level concentrations over Indian catchments under climate signals.

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Predicting Impact of Climate Change on Water Temperature and Dissolved Oxygen in Tropical Rivers

Cited by 43 publications

References 58 publications

Experimental Investigation of Modified Solar Still Productivity under Variable Climatic Conditions

Experimental Investigation of Modified Solar Still Productivity under Variable Climatic Conditions

Sixty years since the creation of Lake Kariba: Thermal and oxygen dynamics in the riverine and lacustrine sub-basins

Impact of climate change on river water temperature and dissolved oxygen: Indian riverine thermal regimes

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