Mohammed Nanekely | University of SALFORD, England, United Kingdom (original) (raw)
I am PhD student at the University of Salford-Manchester, the UK. I am interested in researches on climate change, groundwater and surface water management, and sustainable drainage systems, as well as integrated water resources management.
Address: United Kingdom
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Papers by Mohammed Nanekely
Advances in science, technology & innovation, Dec 31, 2022
Water science and technology library, 2023
Stochastic Environmental Research and Risk Assessment
Multi-regression, hydrologic sensitivity and hydrologic model simulations were applied to quantif... more Multi-regression, hydrologic sensitivity and hydrologic model simulations were applied to quantify the climate change and anthropogenic intervention impacts on the Lower Zab River basin (LZRB). The Pettitt, precipitation-runoff double cumulative curve (PR-DCC) and Mann-Kendall methods were used for the change points and significant trend analyses in the annual streamflow. The long-term runoff series from 1979 to 2013 was first divided into two main periods: a baseline (1979-1997) and an anthropogenic intervention period (1998-2013). The findings show that the mean annual streamflow changes were consistent using the three methods. In addition, climate variability was the main driver, which led to streamflow reduction with contributions of 66-97% during 2003-2013, whereas anthropogenic interventions caused reductions of 4-34%. Moreover, to enhance the multimodel combination concept and explore the simple average method (SAM), Hydrologiska Byrans Vattenbalansavdelning (HBV), Génie Rural a Daily 4 parameters (GR4J) and Medbasin models have been successfully applied. Keywords Climate change Á Human-induced impacts Á Hydrologic sensitivity analysis Á Multi-model combination technique Á Multi-regression Á Runoff simulation & M.
Journal of Bioscience and Applied Research
BioBacta
Water, 2016
For the purpose of this paper, Erbil city, located in the northern part of Iraq, has been chosen ... more For the purpose of this paper, Erbil city, located in the northern part of Iraq, has been chosen as a representative case study for a large number of cities, particularly in semi-arid areas, lacking sustainable drainage systems (SuDS). The study assesses (a) the role of SuDS as a measure in areas with a water shortage; (b) water scarcity in decision-making processes; (c) the lack of legislation to implement SuDS; (d) the adverse effects of climate change on the urban drainage system; and (e) the effects of an increased population on SuDS implementation. An integrated methodology that incorporates a self-administrated questionnaire, workshops, face-to-face communication and interviews, as well as electronic media interactions, were used to achieve the objectives. A generic platform that consists of thirteen pillars, supporting the short to long-term national policies and strategies towards a sustainable urban drainage system, has been developed. Results showed that environmental laws need to be introduced. Findings also indicate that a growing population, which is partly due to an increase of internally displaced people, is a major challenge to an early application of SuDS, due to a rise in land demand and a lack of financial resources.
Advances in science, technology & innovation, Dec 31, 2022
Water science and technology library, 2023
Stochastic Environmental Research and Risk Assessment
Multi-regression, hydrologic sensitivity and hydrologic model simulations were applied to quantif... more Multi-regression, hydrologic sensitivity and hydrologic model simulations were applied to quantify the climate change and anthropogenic intervention impacts on the Lower Zab River basin (LZRB). The Pettitt, precipitation-runoff double cumulative curve (PR-DCC) and Mann-Kendall methods were used for the change points and significant trend analyses in the annual streamflow. The long-term runoff series from 1979 to 2013 was first divided into two main periods: a baseline (1979-1997) and an anthropogenic intervention period (1998-2013). The findings show that the mean annual streamflow changes were consistent using the three methods. In addition, climate variability was the main driver, which led to streamflow reduction with contributions of 66-97% during 2003-2013, whereas anthropogenic interventions caused reductions of 4-34%. Moreover, to enhance the multimodel combination concept and explore the simple average method (SAM), Hydrologiska Byrans Vattenbalansavdelning (HBV), Génie Rural a Daily 4 parameters (GR4J) and Medbasin models have been successfully applied. Keywords Climate change Á Human-induced impacts Á Hydrologic sensitivity analysis Á Multi-model combination technique Á Multi-regression Á Runoff simulation & M.
Journal of Bioscience and Applied Research
BioBacta
Water, 2016
For the purpose of this paper, Erbil city, located in the northern part of Iraq, has been chosen ... more For the purpose of this paper, Erbil city, located in the northern part of Iraq, has been chosen as a representative case study for a large number of cities, particularly in semi-arid areas, lacking sustainable drainage systems (SuDS). The study assesses (a) the role of SuDS as a measure in areas with a water shortage; (b) water scarcity in decision-making processes; (c) the lack of legislation to implement SuDS; (d) the adverse effects of climate change on the urban drainage system; and (e) the effects of an increased population on SuDS implementation. An integrated methodology that incorporates a self-administrated questionnaire, workshops, face-to-face communication and interviews, as well as electronic media interactions, were used to achieve the objectives. A generic platform that consists of thirteen pillars, supporting the short to long-term national policies and strategies towards a sustainable urban drainage system, has been developed. Results showed that environmental laws need to be introduced. Findings also indicate that a growing population, which is partly due to an increase of internally displaced people, is a major challenge to an early application of SuDS, due to a rise in land demand and a lack of financial resources.