Integrated water resources management (IWRM) for climate change adaptation

Giupponi, Carlo; Gain, Animesh K.

doi:10.1007/s10113-017-1173-x

Cited by 25 publications

(18 citation statements)

References 9 publications

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“…Based on the average monthly temperature data of the three climatic scenarios, the potential evapotranspiration series were estimated using the Thornthwaite method (Thornthwaite, 1948;Gomariz-Castillo et al, 2018). As this method tends to underestimate the potential evapotranspiration, the series generated were corrected from a linear regression between the estimated series and those used by the SIMPA hydrological model (BOE, 2007).…”

Section: Hydrological Modelling Of the Tagus Headwaters River Basinmentioning

confidence: 99%

“…Moreover, there are scarce examples in the specialized literature of the analysis of the effects of CC within a framework of integrated water resource management (Onagi, 2016). In ad-dition, for an adequate comprehensive study of the effects of CC in an IBWT, and to produce operational indicators for water management plans (Giupponi and Gain, 2017), including the management of water trade (Kahil et al, 2015), it is also necessary to consider the effects in the receiving basin.…”

Section: Introductionmentioning

confidence: 99%

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Climate change effects on the hydrology of the headwaters of the Tagus River: implications for the management of the Tagus–Segura transfer

Pellicer-Martínez

Martínez‐Paz²

2018

Hydrol. Earth Syst. Sci.

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Abstract. Currently, climate change is a major concern around the world, especially because of the uncertainty associated with its possible consequences for society. Among them, fluvial alterations can be highlighted in basins whose flows depend on groundwater discharges and snowmelt. This is the case of the headwaters of the Tagus River basin, whose water resources, besides being essential for water uses within this basin, are susceptible to being transferred to the Segura River basin (both basins are in the Iberian Peninsula). This work studies the possible effects that the latest climate change scenarios may have on this transfer, one of the most important ones in southern Europe. In the first place, the possible alterations of the water cycle of the donor basin were estimated. To do this, a hydrological model was calibrated. Then, with this model, three climatic scenarios were simulated, one without climate change and two projections under climate change (Representative Concentration Pathways 4.5 (RCP 4.5) and 8.5 (RCP 8.5)). The results of these three hydrological modelling scenarios were used to determine the possible flows that could be transferred from the Tagus River basin to the Segura River basin, by simulating the water resource exploitation system of the Tagus headwaters. The calibrated hydrological model predicts, for the simulated climate change scenarios, important reductions in the snowfalls and snow covers, the recharge of aquifers, and the available water resources. So, the headwaters of the Tagus River basin would lose part of its natural capacity for regulation. These changes in the water cycle for the climate change scenarios used would imply a reduction of around 70 %–79 % in the possible flows that could be transferred to the Segura basin, with respect to a scenario without climate change. The loss of water resources for the Segura River basin would mean, if no alternative measures were taken, an economic loss of EUR 380–425 million per year, due principally to decreased agricultural production.

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Section: Hydrological Modelling Of the Tagus Headwaters River Basinmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Climate change effects on the hydrology of the headwaters of the Tagus River: implications for the management of the Tagus–Segura transfer

Pellicer-Martínez

Martínez‐Paz²

2018

Hydrol. Earth Syst. Sci.

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“…Without careful consideration this diversity in practical interpretation could well inhibit the use of IWRM implementation as an objective indicator for comparative SDG analysis. In view of this, we identify seven principles of IWRM based on international norms (GWP 2009, UNESCO 2009, OECD 2018), national implementation studies, and our earlier research (Benson et al 2015;Gain et al 2017;Gain et al 2013;Giupponi and Gain 2017;Rouillard et al 2014). These seven core principles or 'dimensions' can be abstracted to inform conceptual sub-indicators, as composite measures of SDG 6.5. implementation (Fig.…”

Section: Re-conceptualising Iwrmmentioning

confidence: 99%

Moving beyond water centricity? Conceptualizing integrated water resources management for implementing sustainable development goals

2019

Self Cite

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While the UN's 2030 Agenda for Sustainable Development, adopted in 2015, establishes an ambitious set of goals, targets and indicators for supporting global sustainability, greater conceptual clarity is required to measure implementation. A key UN Target (6.5) for implementing sustainable development goal (SDG) 6 is to 'implement integrated water resources management (IWRM) at all levels'. However, we argue that the current UN emphasis on measuring its implementation through institutional indicators limits our understanding of effectiveness, while ignoring links to other SDGs. While IWRM is often interpreted to mean the integration of water-related management components at the river basin scale, conceptualizations differ significantly. Specifying the critical normative principles of IWRM, therefore, becomes important for measuring its implementation. Drawing upon pre-existing conceptualizations, we consequently identify seven core principles or dimensions (integration; scale; institutions; participation; economic valuation; equity; and, environmental/ecological protection) to re-conceptualize IWRM after the adoption of agenda 2030. These dimensions, we argue, allow more objective measurement of IWRM implementation through the development of Target 6.5 sub-indicators. They also help shift IWRM beyond its current 'water centric' emphasis to enhance its contribution to achieving other SDGs such as those for ending poverty, providing clean and affordable energy, achieving gender equality, protecting terrestrial ecosystems, promoting sustainable cities, combatting hunger and climate change, and strengthening the Global Partnership for Sustainable Development.

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“…Some commentators have thus advocated that climate information and impact analysis needs be incorporated in the context of IWRM planning process (Bates, Kundzewicz, Wu, & Palutikof, 2009). Climate change and climate variability impacts on water resources need to be identified and further coherent water policies need to be proposed through innovative governance and institutional arrangement that aims at enhancing adaptive capacity to climate changes impacts within the context of developing IWRM plans (Giupponi & Animesh, 2017).…”

Section: The Concept Of Iwrm and Its Basic Principlesmentioning

confidence: 99%

A Comparative Legal Study On Water Governance In Japan And Taiwan

Wu¹

2019

The European Proceedings of Social and Behavioural Sciences

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In this paper, the adoption of Integrated Water Resource Management (IWRM) concepts and its implementation in river basin management context in Japan and Taiwan are highlighted and critically discussed. The discussion argues that adopting a climate change adaptive watershed-based governance mechanism, focussing on lessons from the Yodo and Kaoping river basin experience, is an ideal model to achieve the goal of sustainable use of water resources. However, legal reform and institutional arrangements are needed to support the effective implementation of IWRM approaches that could tackle the problematic issues of institutional and legal fragmentation. Moreover, cooperative action among government, local residents, and NGOs to disseminate knowledge and create awareness inclusive of government and private agencies involved should also be implemented immediately.

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Integrated water resources management (IWRM) for climate change adaptation

Cited by 25 publications

References 9 publications

Climate change effects on the hydrology of the headwaters of the Tagus River: implications for the management of the Tagus–Segura transfer

Climate change effects on the hydrology of the headwaters of the Tagus River: implications for the management of the Tagus–Segura transfer

Moving beyond water centricity? Conceptualizing integrated water resources management for implementing sustainable development goals

A Comparative Legal Study On Water Governance In Japan And Taiwan

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