The impacts of climate change on water management in Mexico City: the urgency of strengthening adaptation capacities

Abstract In the age of climate change, the efficient allocation, distribution and use of water raises complex issues for water management, with far-reaching and often contentious consequences. As water becomes scarcer, water-related tensions are imminent on different scales. It is the interplay of these tensions with a number of socioeconomic, political, environmental and cultural factors that determine the probability of conflict. Lamu found in the coastal part of Kenya, is a unique location in that access to water is already a major challenge. Combined with the negative impacts of climate change, and the on-going large infrastructural development in the region, Lamu is on the verge of a water crisis. As such, there is a need for research into the context specific factors that play a part in heightening the potential for water-related conflict amidst increasing water scarcity. The focus of this study was to identify and evaluate the context-specific factors that will amplify the potential for water-related conflict in Lamu. The findings suggest religion, migration, and poverty are factors that would heighten the potential for water-related conflict in the region amidst increasing water scarcity. The study recommends that these factors need to be addressed urgently and should be part of any water management mechanism in Lamu, in order to avoid water-related conflicts. Additionally, the findings imply that anticipating the stressors for water-related conflict in Lamu, will play a significant role in managing conflict and facilitating negotiations over the region's water resources.

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Adaptation strategies for rainfed rice water management under climate change in Songkhram River Basin, Thailand

Journal of Water and Climate Change ◽

10.2166/wcc.2021.220 ◽

2021 ◽

Author(s):

Siriwat Boonwichai ◽

Sangam Shrestha ◽

Pragya Pradhan ◽

Mukand S. Babel ◽

Avishek Datta

Keyword(s):

Climate Change ◽

Water Management ◽

Water Availability ◽

Adaptation Strategies ◽

Climate Change Scenarios ◽

Rainfed Rice ◽

Rice Season ◽

Rice Water ◽

Songkhram River ◽

Impacts Of Climate Change

Abstract This study investigates the potential impacts of climate change on water resources and evaluates adaptation strategies on rainfed rice water management under climate change scenarios in the Songkhram River Basin, Thailand. The Soil and Water Assessment Tool (SWAT) model was used to project the future water availability under climate change scenarios for the period of 2020–2044. Future annual water availability is expected to remain unchanged due to unchanged future rainfall but expected to reduce from June to November due to changes in seasonal rainfall. The effects of supplying irrigation water to reduce the impact of climate change and increase rainfed rice production were evaluated. To increase the rice production by 15%, it is proposed to construct a reservoir with a capacity of below 65 MCM in each of the 15 sub-basins to fulfill the irrigation water requirements during the rainfed rice season. Alternatively, adaptation at the farm scale can be implemented by constructing ponds with a capacity of 900 m3 to store water for 1 ha of rice field to meet the potential rice yield during the non-rainfed rice season. The results of this study are helpful to policymakers in understanding the potential impacts of climate change and the formulation of adaptation strategies for water and rice sectors in the basin.

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An institutional approach to water management in the face of climate change in Mexico City

Argumentos. Estudios críticos de la sociedad ◽

10.24275/uamxoc-dcsh/argumentos/202092-03 ◽

2020 ◽

Vol 1 (92) ◽

pp. 55-80

Author(s):

Angélica Rosas Huerta ◽

María Griselda Günther ◽

Keyword(s):

Climate Change ◽

Water Management ◽

Mexico City ◽

Institutional Approach ◽

The Face

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A spatial model for evaluating the vulnerability of water management in Mexico City, Sao Paulo and Buenos Aires considering climate change

Anthropocene ◽

10.1016/j.ancene.2016.12.001 ◽

2017 ◽

Vol 17 ◽

pp. 1-12 ◽

Cited By ~ 9

Author(s):

Luis Zambrano ◽

Rodrigo Pacheco-Muñoz ◽

Tania Fernández

Keyword(s):

Climate Change ◽

Water Management ◽

Mexico City ◽

Spatial Model ◽

Buenos Aires ◽

Sao Paulo ◽

São Paulo

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Impacts of climate change on agricultural water management: a review

Wiley Interdisciplinary Reviews Water ◽

10.1002/wat2.1089 ◽

2015 ◽

Vol 2 (5) ◽

pp. 439-455 ◽

Cited By ~ 13

Author(s):

Ximing Cai ◽

Xiao Zhang ◽

Paul H. Noël ◽

Majid Shafiee-Jood

Keyword(s):

Climate Change ◽

Water Management ◽

Agricultural Water ◽

Agricultural Water Management ◽

Impacts Of Climate Change

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The Potential Impacts of Climate Change Factors on Freshwater Eutrophication: Implications for Research and Countermeasures of Water Management in China

Sustainability ◽

10.3390/su8030229 ◽

2016 ◽

Vol 8 (3) ◽

pp. 229 ◽

Cited By ~ 20

Author(s):

Rui Xia ◽

Yuan Zhang ◽

Andrea Critto ◽

Jieyun Wu ◽

Juntao Fan ◽

...

Keyword(s):

Climate Change ◽

Water Management ◽

Change Factors ◽

Freshwater Eutrophication ◽

Impacts Of Climate Change

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Observed and Future Precipitation and Evapotranspiration in Water Management Zones of Uganda: CMIP6 Projections

Atmosphere ◽

10.3390/atmos12070887 ◽

2021 ◽

Vol 12 (7) ◽

pp. 887

Author(s):

Charles Onyutha ◽

Arnold Asiimwe ◽

Brian Ayugi ◽

Hamida Ngoma ◽

Victor Ongoma ◽

...

Keyword(s):

Climate Change ◽

Water Management ◽

Global Warming ◽

Potential Evapotranspiration ◽

Climate Change Impacts ◽

Adaptation Measures ◽

Management Zones ◽

Upper Limits ◽

Precipitation Increase ◽

Impacts Of Climate Change

We used CMIP6 GCMs to quantify climate change impacts on precipitation and potential evapotranspiration (PET) across water management zones (WMZs) in Uganda. Future changes are assessed based on four Shared Socioeconomic Pathways (SSP) scenarios including SSP1-2.6, SSP2-4.5, SSP3-7.0, and SSP5-8.5 over the periods 2021–2040, 2041–2060, 2061–2080, and 2081–2100. Both precipitation and PET are generally projected to increase across all the WMZs. Annual PET in the 2030s, 2050s, 2070s, 2090s will increase in the ranges 1.1–4.0%, 4.8–7.9%, 5.1–11.8%, and 5.3–17.1%, respectively. For the respective periods, annual precipitation will increase in the ranges 4.0–7.8%, 7.8–12.5%, 7.9–19.9%, and 6.9–26.3%. The lower and upper limits of these change ranges for both precipitation and PET are, respectively, derived under SSP1-2.6 and SSP5-8.5 scenarios. Climate change will impact on PET or precipitation disproportionately across the WMZs. While the eastern WMZ (Kyoga) will experience the largest projected precipitation increase especially towards the end of the century, the southern WMZ (Victoria) exhibited the largest PET increase. Our findings are relevant for understanding hydrological impacts of climate change across Uganda, in the background of global warming. Thus, the water sector should devise and implement adaptation measures to impede future socioeconomic and environmental crises in the country.

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