Potential Impacts of Climate Change on Water Resources in the Kunhar River Basin, Pakistan

Mahmood, Rashid; Jia, Shaofeng; Babel, Mukand S.

doi:10.3390/w8010023

Cited by 75 publications

(57 citation statements)

References 34 publications

(75 reference statements)

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“…There is a discontinuous layer of water on the surface of the Earth, known as the hydrosphere. Concentrations of greenhouse gases in the atmosphere are increasing, causing global warming and affecting precipitation [1]. These principle factors, i.e., precipitation and temperature, affect the hydrosphere due to their influence on snow [2] and glacial melt [3], which in turn affect runoff to major rivers [4][5][6], the levels of which have changed significantly [7][8][9][10].…”

Section: Introductionmentioning

confidence: 99%

“…As mentioned previously, due to the diversity of regions, it is useful to establish threshold levels of runoff sensitivity to the climate in a specific basin, so that water resources can be better planned and managed. Projected future temperature and precipitation trends were determined in the western Himalayas [1]. Similarly, different climate models have been used to predict the impact of future climate change on this region, without taking into account historical meteorological and hydrological time-series data [42,43].…”

Section: Introductionmentioning

confidence: 99%

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Development of Threshold Levels and a Climate-Sensitivity Model of the Hydrological Regime of the High-Altitude Catchment of the Western Himalayas, Pakistan

Saifullah

Liu

Tahir

et al. 2019

Water

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Water shortages in Pakistan are among the most severe in the world, and its water resources are decreasing significantly due to the prevailing hydro-meteorological conditions. We assessed variations in meteorological and hydrological variables using innovative trend analysis (ITA) and traditional trend analysis methods at a practical significance level, which is also of practical interest. We developed threshold levels of hydrological variables and developed a non-parametric climate-sensitivity model of the high-altitude catchment of the western Himalayas. The runoff of Zone I decreased, while the temperature increased and the precipitation increased significantly. In Zone II, the runoff and temperature increased but the precipitation decreased. A two-dimensional visualization of the Pardé coefficient showed extreme drought events, and indicated greater sensitivity of the hydrological regime to temperature than to precipitation. The threshold levels of runoff for Zones I and II were 320 and 363 mm using the Q 80 fixed method, while the mean runoff amounts were estimated to be 79.95 and 55.61 mm, respectively. The transient threshold levels varied by month, and the duration of droughts in Zones I and II ranged from 26.39 to 78.98 days. The sensitivity of the hydrological regime was estimated based on a modified climate-elasticity model (ε p = 0.11-0.23, ε t = −0.04-2.39) for Zones I and II, respectively. These results highlight the sensitivity of the hydrological regime to temperature, which influences the melting process. However, it is important to establish thresholds for hydrological variables and understand the climate sensitivity of the hydrological regime of the entire basin, so that policy makers and water managers can make sustainable water-resource-management decisions for this region.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Development of Threshold Levels and a Climate-Sensitivity Model of the Hydrological Regime of the High-Altitude Catchment of the Western Himalayas, Pakistan

Saifullah

Liu

Tahir

et al. 2019

Water

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“…The changing climate in Rwanda extant very serious national challenges and risks transversely various sectors such as agriculture and water resources.The report of the Intergovernmental Panel on Climate Change (IPCC) indicates that the climate is changing; the global average temperature is rising with shifting rainfall patterns, whereas the glaciers, arctic sea ice and Greenland ice sheet are melting, primarily due to greenhouse gases emitted in the atmosphere (Mahmood et al, 2016;Myhre et al, 2013). It is predicted that warm sea temperature and less precipitation may increase drought and desertification in the subtropical and equatorial Eastern Africa and consequently, these alterations will seriously impact on the quantity and quality of water, economy, food security and social welfare of poor countries mainly the Sub-Saharan countries including Rwanda.…”

Section: Climate Change In Rwandamentioning

confidence: 99%

Review on Water Resources Management and Key Threats in Rwanda, East Africa

Mukanyandwi

Nahayo

Hakorimana

et al. 2018

Journal of Water Security

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Water is important for human health, industry, agriculture and ensuring the integrity and sustainability of the ecosystem. The water resources are the top affected by climate variability and population growth. The current population of Rwanda is about 12 million heading to about 25 million in 2050 under the changing climate, where since 1970 temperature rose by 1.4°C and is predicted that in 2050 to be about 2.5°C with severe effects on water resources in Rwanda. Thereby, this study reviewed the status and causes of water quality problems and suggested appropriate options to undertake for sustainable water resources access, employ and management in Rwanda. It was noticed that among others, the key threats to water quality in Rwanda, include not limited to climate change causing rainfall patterns which generated flooding, landslides and periodic droughts, which loaded pollutants into water. In addition, water quality is jeopardized by the rapid population growth, agrochemicals, industrialization, urbanization, soil steepness and land mismanagement. Accordingly, the reviewed water quality indicate that the water quality pollution likelihood is increasing over time. These facts reveal that the water quality soon or late will be highly polluted and calls for further adaptation and management measures.

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“…Mahmood et al [27] investigate the potential impacts of climate change on the water resources of the Kunhar River basin, Pakistan under A2 and B2 climate scenarios. Using the HEC-HMS (Hydrologic Engineering Center's Hydraulic Modeling System) hydrological model, the authors simulate streamflow for the periods: 2011-2040, 2041-2070, and 2071-2099, and compare them with the baseline period to explore changes in different streamflow variables.…”

Section: Contributionsmentioning

confidence: 99%

Water Resource Variability and Climate Change

Urban

2016

Water

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A significant challenge posed by changing climates is how water cycling and surficial and subsurface water availability will be affected at global and regional scales. Such alterations are critical as they often lead to increased vulnerability in ecosystems and human society. Understanding specifically how climate change affects water resource variability in different locations is of critical importance to sustainable development in different parts of the world. The papers included in this special issue focus on three broad perspectives associated with water resource variability and climate change. Six papers employ remote sensing, meteorological station-based observational data, and tree-ring records to empirically determine how water resources have been changing over historical time periods. Eight of the contributions focus on modeling approaches to determine how known processes are likely to manifest themselves as climate shifts over time. Two others focus on human perceptions and adaptation strategies in the midst of unstable or unsettled water availability. The findings and methods presented in this collection of papers provide important contributions to the increased study and awareness of climate change on water resources.

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Potential Impacts of Climate Change on Water Resources in the Kunhar River Basin, Pakistan

Cited by 75 publications

References 34 publications

Development of Threshold Levels and a Climate-Sensitivity Model of the Hydrological Regime of the High-Altitude Catchment of the Western Himalayas, Pakistan

Development of Threshold Levels and a Climate-Sensitivity Model of the Hydrological Regime of the High-Altitude Catchment of the Western Himalayas, Pakistan

Review on Water Resources Management and Key Threats in Rwanda, East Africa

Water Resource Variability and Climate Change

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