Your search found 7 records
1 Bernhardt, E. M.; Zandaryaa, S.; Arduino, G.; Jimenez-Cisneros, B.; Payne, J.; Zadeh, S. M.; McClain, M.; Irvine, K.; Acreman, M.; Cudennec, C.; Amerasinghe, Priyanie; Dickens, Chris; Cohen-Shacham, E.; Fedotova, T.; Cox, C.; Bertule, M.; Coates, D.; Connor, R.; Simmons, E.; Gastelumendi, J.; Gutierrez, T. 2018. NBS [Nature-based solutions] for managing water quality. In WWAP (United Nations World Water Assessment Programme); UN-Water. The United Nations World Water Development Report 2018: nature-based solutions for water. Paris, France: UNESCO. pp.52-62.
Natural resources ; Water management ; Water quality ; Water pollution ; Water conservation ; Sustainable development ; Ecosystem services ; Environmental health ; Agriculture ; Socioeconomic environment ; Wetlands ; Land management ; Riparian zones ; Infrastructure
(Location: IWMI HQ Call no: e-copy only Record No: H048853)
(31.02 MB)
2 De Souza, M.; Nishimura, Y.; Burke, J.; Cudennec, C.; Schmitter, Petra; Haileslassie, Amare; Smith, Mark; Hulsmann, S.; Caucci, S.; Zhang, L.; Stewart, B. 2020. Agriculture and food security. In UNESCO World Water Assessment Programme (WWAP); UN-Water. The United Nations World Water Development Report 2020: water and climate change. Paris, France: UNESCO. pp.78-95.
Climate-smart agriculture ; Food security ; Agricultural water use ; Water management ; Climate change adaptation ; Climate change mitigation ; Water demand ; Farming systems ; Irrigated land ; Greenhouse gas emissions ; Land use ; Forestry ; Water scarcity ; Groundwater ; Solar energy ; Irrigation methods ; Technology ; Agricultural production ; Farmers ; Livestock
(Location: IWMI HQ Call no: e-copy only Record No: H049604)
https://unesdoc.unesco.org/in/documentViewer.xhtml?v=2.1.196&id=p::usmarcdef_0000372985&file=/in/rest/annotationSVC/DownloadWatermarkedAttachment/attach_import_c5b09e0b-0c7e-42ef-aeb1-b1bae7544e4c%3F_%3D372985eng.pdf&locale=en&multi=true&ark=/ark:/48223/pf0000372985/PDF/372985eng.pdf#page=91
https://vlibrary.iwmi.org/pdf/H049604.pdf
https://vlibrary.iwmi.org/pdf/H049604.pdf
(2.05 MB) (37.7 MB)
This chapter highlights where land–water linkages are expected to become apparent in terms of climate impacts and where practical approaches to land and water management offer scope for both climate adaptation and mitigation though agriculture. It also provides an agricultural perspective from which to further engage the United Nations Climate Change Conference in terms of water management.
3 Cudennec, C.; Lins, H.; Uhlenbrook, Stefan; Arheimer, B. 2020. Editorial - Towards FAIR and SQUARE hydrological data. Hydrological Sciences Journal, 65(5):681-682. (Special issue: Hydrological Data: Opportunities and Barriers - Part 1) [doi: https://doi.org/10.1080/02626667.2020.1739397]
(Location: IWMI HQ Call no: e-copy only Record No: H049613)
https://www.tandfonline.com/doi/abs/10.1080/02626667.2020.1739397?needAccess=true#aHR0cHM6Ly93d3cudGFuZGZvbmxpbmUuY29tL2RvaS9wZGYvMTAuMTA4MC8wMjYyNjY2Ny4yMDIwLjE3MzkzOTc/bmVlZEFjY2Vzcz10cnVlQEBAMA==
https://vlibrary.iwmi.org/pdf/H049613.pdf
https://vlibrary.iwmi.org/pdf/H049613.pdf
(0.58 MB) (592 KB)
4 Nardi, F.; Cudennec, C.; Abrate, T.; Allouch, C.; Annis, A.; Assumpcao, T. H.; Aubert, A. H.; Berod, D.; Braccini, A. M.; Buytaert, W.; Dasgupta, A.; Hannah, D. M.; Mazzoleni, M.; Polo, M. J.; Saebo, O.; Seibert, J.; Tauro, F.; Teichert, F.; Teutonico, R.; Uhlenbrook, Stefan; Vargas, C. W.; Grimaldi, S. 2022. Citizens AND HYdrology (CANDHY): conceptualizing a transdisciplinary framework for citizen science addressing hydrological challenges. Hydrological Sciences Journal, 67(16):2534-2551. (Special issue: Hydrological Data: Opportunities and Barriers) [doi: https://doi.org/10.1080/02626667.2020.1849707]
Hydrology ; Citizen science ; Community involvement ; Human behaviour ; Water management ; Participatory approaches ; Decision making ; Policy making ; Regional planning ; Information systems ; Frameworks ; Observation ; Monitoring ; Mapping ; Procedures ; Guidelines ; Technology ; Data collection ; Models
(Location: IWMI HQ Call no: e-copy only Record No: H050058)
https://www.tandfonline.com/doi/epdf/10.1080/02626667.2020.1849707?needAccess=true&role=button
https://vlibrary.iwmi.org/pdf/H050058.pdf
https://vlibrary.iwmi.org/pdf/H050058.pdf
(2.09 MB) (2.09 MB)
Widely available digital technologies are empowering citizens who are increasingly well informed and involved in numerous water, climate, and environmental challenges. Citizen science can serve many different purposes, from the “pleasure of doing science” to complementing observations, increasing scientific literacy, and supporting collaborative behaviour to solve specific water management problems. Still, procedures on how to incorporate citizens’ knowledge effectively to inform policy and decision-making are lagging behind. Moreover, general conceptual frameworks are unavailable, preventing the widespread uptake of citizen science approaches for more participatory cross-sectorial water governance. In this work, we identify the shared constituents, interfaces and interlinkages between hydrological sciences and other academic and non-academic disciplines in addressing water issues. Our goal is to conceptualize a transdisciplinary framework for valuing citizen science and advancing the hydrological sciences. Joint efforts between hydrological, computer and social sciences are envisaged for integrating human sensing and behavioural mechanisms into the framework. Expanding opportunities of online communities complement the fundamental value of on-site surveying and indigenous knowledge. This work is promoted by the Citizens AND HYdrology (CANDHY) Working Group established by the International Association of Hydrological Sciences (IAHS).
5 Connor, R.; Timmerman, J.; Uhlenbrook, S.; Koncagul, E.; Payne, J.; Cudennec, C.; de Strasser, L.; Avellan, T. 2020. Water–climate–energy– food–environment nexus. In UNESCO World Water Assessment Programme (WWAP); UN-Water. The United Nations World Water Development Report 2020: water and climate change. Paris, France: UNESCO. pp.118-125.
Water supply ; Water use ; Climate change ; Energy ; Food security ; Environmental effects ; Nexus ; Wastewater treatment ; Greenhouse gas emissions ; Biofuels ; Agriculture ; Land use ; Ecosystems ; Sustainable Development Goals
(Location: IWMI HQ Call no: e-copy only Record No: H049609)
https://unesdoc.unesco.org/in/documentViewer.xhtml?v=2.1.196&id=p::usmarcdef_0000372985&file=/in/rest/annotationSVC/DownloadWatermarkedAttachment/attach_import_c5b09e0b-0c7e-42ef-aeb1-b1bae7544e4c%3F_%3D372985eng.pdf&locale=en&multi=true&ark=/ark:/48223/pf0000372985/PDF/372985eng.pdf#page=131
https://vlibrary.iwmi.org/pdf/H049609.pdf
https://vlibrary.iwmi.org/pdf/H049609.pdf
(2.04 MB) (37.7 MB)
Building on the information and analyses provided in Chapters 3 through 8, this chapter expands on the interlinkages between the main water use sectors, describing how decisions made by one can have significant repercussions on the others. It highlights the need for a consolidated approach to addressing climate change through water in order to maximize co-benefits and address trade-offs.
6 de Souza, M.; Koo-Oshima, S.; Kahil, T.; Wada, Y.; Qadir, M.; Jewitt, G.; Cudennec, C.; Uhlenbrook, Stefan; Zhang, L. 2021. Food and agriculture. In UNESCO World Water Assessment Programme (WWAP); UN-Water. The United Nations World Water Development Report 2021: valuing water. Paris, France: UNESCO. pp.67-78.
Food security ; Sustainable agriculture ; Food production ; Multiple use water services ; Water resources ; Water management ; Water scarcity ; Water use efficiency ; Water productivity ; Water supply ; Water pricing ; Rainfed farming ; Irrigated farming ; Intensification ; Wastewater irrigation ; Water quality ; Ecosystems ; Groundwater ; Poverty alleviation ; Diets ; Costs
(Location: IWMI HQ Call no: e-copy only Record No: H050380)
https://unesdoc.unesco.org/in/documentViewer.xhtml?v=2.1.196&id=p::usmarcdef_0000375724&file=/in/rest/annotationSVC/DownloadWatermarkedAttachment/attach_import_db06f7c4-b33f-4833-be56-bbf54afdee3f%3F_%3D375724eng.pdf&locale=en&multi=true&ark=/ark:/48223/pf0000375724/PDF/375724eng.pdf#page=82
https://vlibrary.iwmi.org/pdf/H050380.pdf
https://vlibrary.iwmi.org/pdf/H050380.pdf
(1.12 MB) (15.9 MB)
7 Heal, K. V.; Bartosova, A.; Hipsey, M. R.; Chen, X.; Buytaert, W.; Li, H.-Y.; McGrane, S. J.; Gupta, A. B.; Cudennec, C.. 2021. Water quality: the missing dimension of water in the water-energy-food nexus. Hydrological Sciences Journal, 66(5):745-758. [doi: https://doi.org/10.1080/02626667.2020.1859114]
Water quality ; Energy generation ; Food production ; Nexus approaches ; Sustainable Development Goals ; Public health ; Transboundary waters ; Water policies ; Wastewater treatment ; Urban areas
(Location: IWMI HQ Call no: e-copy only Record No: H051426)
(2.10 MB)
The role of water quality, particularly its impact on health, environment and wider well-being, are rarely acknowledged in the water–energy–food (WEF) nexus. Here we demonstrate the necessity to include water quality within the water dimension of the WEF nexus to address complex and multi-disciplinary challenges facing humanity. Firstly, we demonstrate the impact of water quality on the energy and food dimensions of the WEF nexus and vice versa at multiple scales, from households to cities, regions and transboundary basins. Secondly, we use examples to demonstrate how including water quality would have augmented and improved the WEF analysis and its application. Finally, we encourage hydrological scientists to promote relevant water quality research as addressing WEF nexus challenges. To make tangible progress, we propose that analysis of water quality interactions focuses initially on WEF nexus “hotspots,” such as cities, semi-arid areas, and areas dependent on groundwater or climate change-threatened meltwater.
Powered by DB/Text WebPublisher, from
