Scotland the Hydro Nation: annual report 2018
Records the development of our Hydro Nation policy agenda and reports on progress since the publication of the fourth annual report in 2017.
Annex C: Hydro Nation Scholars
Scholar |
Cohort |
Project |
University |
---|---|---|---|
Juan Carlos Sanchez |
2013-17 |
Trans-boundary Waters & Ecosystems: Opportunities for Improved Cooperative Governance. Community Impact: Improved governance frameworks will enhance the quality of communities' lives by ensuring the more equitable delivery of water services between jurisdictions |
University of Dundee |
Ruby Mahana Moynihan |
2013-17 |
Contribution of the UNECE Water Regime to Multi-Level Co-operation & Cross-Sectoral Coherence in International Water Law. Community Impact: More coherence and institutional coordination will enhance the quality of communities' lives by contributing to better balanced decisions impacting on water services and biodiversity |
University of Edinburgh |
Christopher Schulz |
2013-17 |
A Multi-Stakeholder Perspective on the Value of Water in the Brazilian Cuiaba River Basin & in the Pantanal to Inform Water Governance Across Brazil and Scotland. Community Impact: Improved understanding of the economic and cultural value of water will contribute to better governance and reduce risk for communities |
University of Edinburgh |
Nazli Koseoglu |
2013-17 |
Optimising Water Use in Scotland: Valuation, Tradability & Portfolio Theory. Community Impact: Improved understanding of competing uses and economic and cultural value of water will contribute to better policy making on governance and resource allocation |
University of Edinburgh |
Bas Buddendorf |
2014-18 |
Multi-scale modelling to assess impacts on flows & ecology in regulated rivers. Community Impact: communities benefit through improved understanding and management of complex ecological systems to optimise usage and minimise environmental impact. |
University of Aberdeen |
Nandan Mukherjee |
2014-18 |
Integrated river basin management framework under the lens of loss and damage. Community Impact: more sophisticated assessment of the impact of climate change on water resources will lead to improved management and planning, improving understanding of appropriate adaption/mitigation action for fragile communities. |
University of Dundee |
Yuan Li |
2014-18 |
Can low-cost bio-sorbent technology be used to efficiently remove steroid hormones & pharmaceutical residues from waste water effluents? Community Impact: the efficient removal of pharmaceuticals reduces treatment costs and support improved environmental and public health. |
University of the Highlands and Islands |
Kathleen Stosch |
2015-19 |
Building Resilience to Respond to Future Environmental Change Across Scottish Catchments. Community Impact: Better understanding of the complex interactions in catchment management will contribute to strategies to improve resilience and reduce harmful outcomes impacting on those living in catchments. |
University of Stirling |
Carolin Vorstius |
2015-19 |
Safeguarding and Improving Raw Water Quality by Increasing Catchment Resilience. Community Impact: Better integrated catchment resilience enhances environmental protection and reduces treatment costs resulting from compromised catchments |
University of Dundee & James Hutton Institute |
Fortune Gomo |
2015-19 |
Supporting Better Decisions Across the Nexus of Water-Energy-Food Challenges. Community Impact: Improved understanding of interactions benefits and trade-offs will improve quality of decision making enhancing the sustainability of rural communities |
University of Dundee & James Hutton Institute |
Aaron Neill |
2015-19 |
Linking Small-Scale Hydrological Flow Paths, Connectivity & Microbiological Transport to Protect Remote Private Water Supplies. Community Impact: Better understanding the complex movement of pathogens to reduce impacts on Private Water Supplies will positively impact public health in remote rural communities |
University of Aberdeen |
Maricela Blair |
2015-19 |
Micro & Nanoplastics in Waste Water Treatment Systems & Receiving Waters. Community Impact: better understanding the movement of these plastics is essential in designing policy to tackle environmental harm and reduce treatment costs thereby enhancing the lives of coastal and other communities |
University of Glasgow |
Robert Trogrlic |
2015-19 |
Community-based Non-Structural Flood Risk Management for Malawi. Community Impact: this project will directly benefit communities adversely affected by flood by engaging them in activity to minimise impacts through low-cost strategies. |
Heriot Watt University |
Valerio Cappadonna |
2016-20 |
Can Waste Water Treatment Plants Cope with Future Nanoparticle Loading Scenarios? Community Impact: Improved understanding contributes to strategies to more efficient and effective treatment understanding the impact of nano-particles on treatment will help optimise plant efficiency, reduce costs and protect receiving waters thereby enhancing the natural environment for communities with receiving waters. |
University of Strathclyde |
Lydia Niemi |
2016-20 |
Assessment of the Degradation Pathway, Persistence & Eco-Toxicological Impacts of Human Pharmaceuticals to the Aquatic Environment. Community Impact: efficient removal of pharmaceuticals reduces treatment cost to support improved environmental & public health & reduced impact on receiving waters. |
University of the Highlands and Islands |
Kirsty Holstead |
2016-20 |
Governing Water One Drop at a Time: Responses to, and Implications of, Community Water Management in Scotland & Beyond. Community Impact: will help optimise community engagement to protect and maintain raw water quality, improving quality of supply and reduce treatment in remote rural communities |
University of St Andrews |
Jonathan Fletcher |
2016-20 |
Optimising Multi-Pollutant Phytoremediation Strategies to Sustainably Improve Raw Water Quality. Community Impact: Contribution to increased raw water security will develop more sustainable and innovative treatment options, reducing environmental impact and costs. |
University of Stirling |
Bhawana Gupta |
2016-20 |
Tackling the challenge of the water, food, energy nexus in India & Scotland'. Community Impact: Through improved understanding, project will contribute to better cross-sectoral approaches to improve the livelihood of rural communities. |
University of Dundee & James Hutton Institute |
Sughayshinie Samba Sibam |
2017-21 |
Epidemiology of Private Drinking Water Supplies in Scotland. Community Impact: The primary aim of this project is to have a better understanding on the relationship of water contamination by microbial pathogens in PWS, with the incidence of gastrointestinal diseases. |
University of Aberdeen |
Lucille Groult |
2017-21 |
Socio-Legal Responses to the Challenges of Contaminants of Emerging Concern. Community Impact: The objective is to improve availability of "safer" products and assess feasibility of potential legal improvements. Furthermore, the project will look for ways to support consumers to make informed choices. |
University of Dundee |
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