Showing total 433 results

1. Water retention for agricultural resilience in the Vietnamese Mekong Delta: towards integrated 'grey–green' solutions.

Author

Tran, Thong Anh and Cook, Brian Robert

Subjects

*AGRICULTURE, *WATER shortages, *AGRICULTURAL development, *WATER supply, DEVELOPING countries

Abstract

Emerging climate-development processes jeopardize water supply, especially in the Global South. In the Vietnamese Mekong Delta, disrupted water flows driven by climate change and hydropower development have caused water scarcity, threatening agricultural systems in both upstream and coastal areas. Based on insights from desk reviews, stakeholder workshops and interviews with local informants, this paper argues that while grey (engineered) solutions take precedence in addressing water scarcity, securing water sustainability (water retention) for agricultural resilience demands integrated 'grey–green' (engineered-nature-based) solutions. This paper suggests demands for translating this approach into the water governance framework for the delta's agricultural development. [ABSTRACT FROM AUTHOR]

Published

2024

2. Drought influences habitat associations and abundances of birds in California's Central Valley.

Author

Goldstein, Benjamin R., Furnas, Brett J., Calhoun, Kendall L., Larsen, Ashley E., Karp, Daniel S., and de Valpine, Perry

Subjects

*DROUGHT management, *DROUGHTS, *HABITATS, *WATER supply, *AGRICULTURE, *FARMS, *ECOLOGICAL niche

Abstract

Aim: As climate change increases the frequency and severity of droughts in many regions, conservation during drought is becoming a major challenge for ecologists. Droughts are multidimensional climate events whose impacts may be moderated by changes in temperature, water availability or food availability, or some combination of these. Simultaneously, other stressors such as extensive anthropogenic landscape modification may synergize with drought. Useful observational models for guiding conservation decision‐making during drought require multidimensional, dynamic representations to disentangle possible drought impacts, and consequently, they will require large, highly resolved data sets. In this paper, we develop a two‐stage predictive framework for assessing how drought impacts vary with species, habitats and climate pathways. Location: Central Valley, California, USA. Methods: We used a two‐stage counterfactual analysis combining predictive linear mixed models and N‐mixture models to characterize the multidimensional impacts of drought on 66 bird species. We analysed counts from the eBird participatory science data set between 2010 and 2019 and produced species‐ and habitat‐specific estimates of the impact of drought on relative abundance. Results: We found that while fewer than a quarter (16/66) of species experienced abundance declines during drought, nearly half of all species (27/66) changed their habitat associations during drought. Among species that shifted their habitat associations, the use of natural habitats declined during drought while use of developed habitat and perennial agricultural habitat increased. Main Conclusions: Our findings suggest that birds take advantage of agricultural and developed land with artificial irrigation and heat‐buffering microhabitat structure, such as in orchards or parks, to buffer drought impacts. A working lands approach that promotes biodiversity and mitigates stressors across a human‐induced water gradient will be critical for conserving birds during drought. [ABSTRACT FROM AUTHOR]

Published

2024

3. Promoting sustainable growth and self‐production of energy through the water industry, as key elements for climate change action.

Author

Peral, David, Sánchez, Jorge, López, Paula, Vallés, Federico, and Fernández, Pascual

Subjects

*CLIMATE change mitigation, *ENERGY consumption, *CLIMATE change, *CANALS, *WATER supply, *AUTOPOIESIS, *EXTREME weather

Abstract

The paper focuses on climate actions through water activity and energy synergies supporting a water public operator—Canal de Isabel II—to fight against climate change in the region of Madrid. Actions for its mitigation such as the generation of electricity through water treatment activity are undoubtedly a great tool to face climate change and mitigate CO2 emissions. Led by the Strategic Plan of Canal, a water & energy cycle has been designed that, taking advantage of the different processes carried out, and thanks to the appropriate technologies, allows the generation of 100% renewable electrical energy. Through its solar energy plan, Canal is making an important technological effort to reduce energy consumption, taking advantage of the extensive area the water company has for its operations. At the same time, wastewater solutions ans possibilities are becoming more attractive. This paper explains how the Canal is transforming biogas from wastewater treatment plants into fuel for vehicles. On adaptation, this document describes measures for increasing the availability of resources, reducing water consumption, and preparing for new challenges, provided that water remains an essential resource affordable and accessible to all. In this sense, Canal's main contribution and responsibility is to ensure its availability in the event of water scarcity and to avoid the effects of extreme weather phenomena. In addition, the paper presents important projects related to such adaptations as the tariff structure to discourage high superfluous uses of water or the water reclaimed production. This integrated approach to water and energy production and consumption represents an unbeatable strategy that is recommended for dealing with this global problem in a sustainable way. Canal's activities prove that a water company can aspire to be more sustainable through the implementation of integrated projects on the water and energy nexus. [ABSTRACT FROM AUTHOR]

Published

2023

4. Review of climate change and drinking water supply systems: employee perspectives and potential tools for adaptation.

Author

Compaoré, S. M. Cynthia, Delpla, Ianis, Behmel, Sonja, and Rodriguez, Manuel

Subjects

*WATER supply, *EMPLOYEE attitudes, *WATER quality management, *DRINKING water, *WELLHEAD protection, *CLIMATE change

Abstract

Climate change (CC) causes extreme meteorological events such as floods, droughts, water scarcity, heat waves, wildfires, and extreme cold. CC may also damage public infrastructures such as drinking water systems (DWSs) and reduce water quality from source to tap. The objective of this review paper is to provide a critical analysis of (1) the impact of CC on the three components of the DWSs: source, treatment, and distribution; (2) the perspectives of DWS employees on CC impacts and adaptation solutions for maintaining water quality; and (3) decision support systems (DSSs) that could be used by DWS employees for CC adaptation. A bibliographic research was conducted using international databases and search engines. The search for scientific articles resulted in the selection of 5234 articles, 78 of which were analyzed in more detail for the elaboration of this scoping review. This review shows that the impacts of CC on water quality are significant, but DWS employees are not enthusiastic about developing adaption measures. This review also shows that DSSs can help DWS employees facilitate the CC adaptation process for the protection of source water, improve water treatment plant operations, and enhance routine management of water quality in the distribution system. Further research is needed to identify strategies that might increase the awareness of and interest in climate change impacts, adaptation, and the use of DSSs among DWS employees. [ABSTRACT FROM AUTHOR]

Published

2024

5. Icing and aufeis in cold regions I: the origin of overflow.

Author

Turcotte, B., Dubnick, A., McKillop, R., and Ensom, T.

Subjects

*WATER supply, *ICE streams, *CLIMATE change, *STREAMFLOW, COLD regions

Abstract

The process of icing involves the freezing of overflow layers, on ground or within streams, and results in ice bodies called "aufeis" that are common in most northern landscapes. Knowledge about aufeis is still limited despite the cold region engineering challenge they represent. Understanding the causes of overflow events leading to aufeis development represents a key for the prediction, mitigation, and management of this geohazard and can also support the planning and design of infrastructure in the North. This paper introduces a practical classification for the diverse range of overflow processes that generate aufeis, including under-represented processes, such as the instability of winter streamflow. Importantly, it distinguishes flow conveyance from water supply overflow processes and describes the temporal aspect of icing intensity. Finally, research topics are proposed to improve our understanding of aufeis, including their predictability, the impact of climate change on their occurrence and extent, and stream morphology–aufeis interaction. [ABSTRACT FROM AUTHOR]

Published

2024

6. SUSTAINABLE USE OF SOIL AND WATER RESOURCES IN ZÁVOI MUNICIPALITY, CARAȘ SEVERIN COUNTY IN THE CURRENT CONTEXT.

Author

DRĂGOI, Delia, MIHUȚ, A., VIDICI, Lavinia, MIHUȚ, Casiana, and CIOLAC, Valeria

Subjects

*SOIL moisture, *WATER supply, *FARMS, *FLUVISOLS, *CULTIVATED plants, *FORESTED wetlands, *POSIDONIA

Abstract

Soil and water resources represent some of the great wealth with which nature has endowed our planet. The purpose of the paper is the study of these resources (soil and water), from Zăvoi commune, Caraș Severin county, considering the recent climate changes, which tend to negatively influence this area as well, with repercussions on the entire evolution plant development. The health of the soil and the purity of the water are essential to be able to talk about the quality of life, environmental factors (soil, water, climate, air, etc.) can influence the well-being and health of people. For the preparation of the paper, data obtained both from observations in the field and data taken from previous researches, including OSPA Caraș Severin, were used. The town of Zăvoi has a total area of 39600 ha, of which 53.66% (21249 ha) are agricultural land and 43.30%, i.e. 17145 ha, is forest. The diversity of the relief units made the area divided: the area of the hills, where luvosol and eutricambosol soils are found and which offer the possibility of a more varied agriculture and obtaining large productions; the hilly floor, which includes a mixed agricultural area, thanks to various soils, represented by regosols, lithosols, districambosols, prepodzols and antrosols, here the largest area of land is forested and the meadow area, where we find alluvial soils, along with stagnosols and gleosols, the most common being soils with excess phreatic moisture and requiring drainage improvement works. In this area, a number of plants are cultivated such as: wheat, corn, sunflower, oats, orzoaica, up to vegetables, potatoes and beets. The general capacity of these soils in terms of agricultural production capacity is medium. [ABSTRACT FROM AUTHOR]

Published

2023

7. Applying the participatory approach to assess the Water-Energy-Climate Change nexus in South Africa.

Author

Mathetsa, Steven Matome, Simatele, Mulala Danny, and Rampedi, Isaac T.

Subjects

*WATER management, *POWER resources, *SUSTAINABLE development, *WATER supply, *PARTICIPATORY culture

Abstract

This paper uses a participatory approach to assess the level of understanding of the Water-Energy-Climate Change (WECC) nexus in South Africa. The aim is to initiate the development of well-coordinated, systematic, and holistic strategies to promote efficient management of the WECC and its implications in the country. The assessment follows the learnings from the Integrated Water Resource Management framework, which promotes a participatory approach in the administration of water resources. The paper reveals that, despite the reasonable level of understanding of WECC, it is still insufficient to promote an integrated approach mainly in policy development and planning for water and energy resources while averting climate impacts. This is exacerbated by limited coordination and consultation among various stakeholders. However, minimal efforts to promote an integrated approach in the management of the WECC sectors is observed. Despite these developments, the paper proposes that the participatory approach is feasible to promote holistic strategies and collaboration among stakeholders mandated to manage WECC sectors. Until approaches such as this are adopted within the institutional framework, this nexus will continue to impede the country's sustainable development endeavours. [ABSTRACT FROM AUTHOR]

Published

2023

8. CLIMATE CHANGE IMPACT ON CHLOROPHYLL CONTENT AND GRAIN YIELD OF BREAD WHEAT (TRITICUM AESTIVUM L.).

Author

BABOEVA, S. S., MATKARIMOV, F. I., USMANOV, R. M., TURAEV, O. S., TOGAEVA, M. A., BABOEV, S. K., and KUSHANOV, F. N.

Subjects

*GRAIN yields, *WHEAT, *BREAD, *GENOTYPE-environment interaction, *CHLOROPHYLL, *CLIMATE change, *WATER supply, *SOIL moisture

Abstract

The paper presents the study of bread wheat's chlorophyll content and grain yield traits under changing environmental conditions -- optimal water supply and simulated water-deficit conditions. Selecting 15 wheat cultivars from different regions (Russia, Kazakhstan, Kyrgyzstan, Tajikistan, Turkey, and CIMMYT) based on economically valuable characteristics became the specimens for the presented study that evaluated the SPAD indicators in correlation with the grain yield in bread wheat and determined the vital role of genotypes, environments, and genotype by environment interaction effects. The relationship between chlorophyll content and yield parameters under different growing conditions was also well-defined. The results revealed that ecosystems had more influence on the chlorophyll content than the wheat genotypes. Several wheat cultivars with soil moisture tolerance have gained identification, along with the correlation coefficient between chlorophyll content and grain yield under varied environmental conditions of water supply. The study validated the role of genotypes and environments in the manifestation of responses to stress conditions. [ABSTRACT FROM AUTHOR]

Published

2023

9. Probabilistic modelling of interarrival time of drought for different operational drought indices used in Pakistan.

Author

Mohsin, Muhammad and Adnan, Shahzada

Subjects

*DROUGHT management, *DROUGHTS, *DROUGHT forecasting, *RANDOM variables, *CLIMATE change, *DISTRIBUTION (Probability theory), *WATER supply

Abstract

Adverse climate changes in Pakistan undermine the water resources and give rise to transient and permanent droughts in different parts of the country. The occurrence of drought cannot be prevented, but its detrimental impacts can be brought down by proper pre‐drought planning. Effective planning owes to using scientific and probabilistic approaches. In this paper, the interarrival time of drought for seven operational drought indices in Pakistan is modelled by using the modified distribution of convolution derived from the Bivariate Affine Linear Exponential (BALE) distribution. A new stochastic variable, interarrival time of drought, is generated from the data of drought indices from 1951 to 2016 used in Pakistan by applying the theory of runs. The proposed model identifies Palmer drought severity index (PDSI) and Reconnaissance drought index (RDI) as the most appropriate meteorological indices for the under‐study country. The quantiles of the model are computed that provide information about the interarrival time of drought and help to anticipate this phenomenon. In addition, return periods for all the seven indices are calculated to report the frequency and duration of drought over a certain period. Finally, some recommendations for the National Drought Monitoring Centre (NDMC) and Pakistan Council of Research in Water Resources (PCRWR) are stated for better future planning to avoid the adverse impacts of drought. [ABSTRACT FROM AUTHOR]

Published

2023

10. Bibliometric Overview of Research on Taste and Odor in Drinking Water during the 1980-2022.

Author

Ozgur, Cihan

Subjects

*ODORS, *BIBLIOMETRICS, *TASTE, *CLIMATE change, *WATER supply, *DRINKING water

Abstract

Due to the global climate change, water resources have been withdrawn and the pollutant loads have become concentrated, thus causing the taste and odor components of the waters to be felt globally, leading to an increase in research in this area. The goal of this study was to analyze the trends in research from 1980 to 2022 that concentrated on both the formation and removal of taste and odor components in surface water resources throughout the world. 965 papers were examined a systematic review and bibliometric analysis. The findings revealed a growth in research on taste and odor compounds as well as the popularity and applicability of novel purification techniques in addition to more traditional ways for removing these substances. Water Research was the journal with the highest impact in this area. The United States, China, Canada, Australia, and South Korea were the top 5 most productive nations. Studies on the speciation of taste and odor components are in the minority but demands for innovative treatment techniques such as advanced oxidation processes have been considered, and these compounds are an area of research with significant potential. This study can assist research with its worldwide findings on taste and odor compounds. [ABSTRACT FROM AUTHOR]

Published

2023

11. A Survey of the Bureau of Reclamation's Decree Accounting Reports in the Lower Colorado River Basin.

Author

McCoy, Amy L., Pitt, Jennifer, Keaton Wilson, J., Martin, Season, and Morton, Julia

Subjects

*WATER conservation, *WATER conservation projects, *WATERSHEDS, *CONTRACTS, *WATER supply, *STREAMFLOW, *CLIMATE change, *DROUGHTS

Abstract

From the Rocky Mountains in the US to the Sea of Cortez in Mexico, the Colorado River is one of the most managed and monitored rivers in the world. As decreasing river flows from drought and climate change continue to impact the Colorado River Basin, the US federal government, seven US states, and Mexico have signed agreements that would reduce deliveries, including a Drought Contingency Plan (DCP), an agreement among the US states and the Bureau of Reclamation, and Minute 323 (a treaty agreement between the US and Mexico). As part of the DCP, the US Bureau of Reclamation (Reclamation) committed to increasing conservation efforts to augment storage in Lake Mead. This paper presents an analysis of Reclamation's Decree Accounting Reports that record water deliveries and conservation savings from 1964 to 2019. Overall, this analysis illustrates that (1) the agency has implemented significant conservation actions over the last three decades, (2) the agency has responded to increased accounting needs as dictated by national and international management agreements, (3) some actions have resulted in environmental costs, and (4) future actions could be designed to avoid environmental harms while also augmenting Lake Mead levels. As climate change continues to constrain Colorado River water supply, detailed accounting may help reveal areas for potential efficiencies or demonstrate where the greatest levels of savings have been reached while ensuring that environmental and social benefits are preserved. Over the last 100 years, humans have changed the path and personality of the Colorado River by distributing water to cities, communities, and agricultural fields to support over 40 million people. Throughout the twentieth century, the US federal government, seven US, and Mexico signed agreements enabling development of Colorado River water. By the early 21st century, as it became evident that water demands and climate change were reducing available supplies, these same governments signed agreements to reduce pressure on the river. All these agreements have, in part, been tracked by the US federal agency that manages the river, the Bureau of Reclamation (Reclamation), through Decree Accounting Reports. Since 1964, these reports have recorded how water is or is not accounted for that might be important to the future of the river. This paper examines those reports and reveals four main findings: (1) Reclamation has implemented numerous water conservation projects, (2) they have responded to new management agreements, (3) some of their actions have impacted the environment, and (4) there are proactive ways they can reduce environmental impacts and bolster water supplies in the future. [ABSTRACT FROM AUTHOR]

Published

2023

12. Mass‐Conserving Downscaling of Climate Model Precipitation Over Mountainous Terrain for Water Resource Applications.

Author

Rugg, A., Gutmann, E. D., McCrary, R. R., Lehner, F., Newman, A. J., Richter, J. H., Tye, M. R., and Wood, A. W.

Subjects

*DOWNSCALING (Climatology), *ATMOSPHERIC models, *CLIMATE change models, *WATER supply, *RUNOFF models, *CLIMATE change

Abstract

A mass‐conserving method to downscale precipitation from global climate models (GCMs) using sub‐grid‐scale topography and modeled 700‐mb wind direction is presented. Runoff is simulated using a stand‐alone hydrological model, with this and several other methods as inputs, and compared to runoff simulated using historical observations over the western contiguous United States. Results suggest the mitigation of grid‐scale biases is more critical than downscaling for some regions with large wet biases (e.g., the Great Basin and Upper Colorado). In other regions (e.g., the Pacific Northwest) the new method produces more realistic sub‐grid‐scale variability in runoff compared to unadjusted GCM output and a simpler downscaling method. The presented method also brings the runoff centroid timing closer to that simulated with observations for all subregions examined. Plain Language Summary: Due to limitations in computing power which necessitates coarse spatial resolution, climate models do not include many details on mountains and their impact on precipitation. For this reason, it is difficult to estimate the impact of climate change on the availability of water for human consumption in places like the western United States, where mountain snowpack is an important source of water. This paper presents a way to adjust precipitation estimates from climate models by using some simple statistics about nearby mountains and valleys. The adjusted precipitation is then used in a hydrologic model to calculate the runoff that is simulated with different precipitation inputs. Results show that in most cases, the precipitation adjustment improves estimates of the resultant runoff relative to simulations with observed precipitation. The main exceptions are in very dry areas where the climate model produces far too much precipitation. With further work, the proposed adjustment may be integrated into the climate model itself to make it easier for those managing water resources (e.g., controlling reservoir levels) to use the model output to plan and adapt to climate change. Key Points: A mass‐conserving method for downscaling orographic precipitation improves modeled runoff from the CESM2Considering upwind topography further improves modeled runoff compared to simpler adjustmentsNot tuning to individual model grid points makes this method more generalizable than many existing statistical downscaling methods [ABSTRACT FROM AUTHOR]

Published

2023

13. WATER CRISIS IN BALOCHISTAN ITS IMPLICATIONS AND WAY FORWARD.

Author

Magsi, Hussan Ara

Subjects

*WATER shortages, *WATER supply, *SCARCITY, *WATER conservation, *WATER management

Abstract

A water crisis is an alarming issue in Balochistan. The persistent crises lead towards catastrophic future condition. Water is essential for human livelihood and other types of economic developments. A province that is situated in an arid zone where due to low rainfall is scarcity of water. The qualitative research methodology will be applied on this research paper. The data collection will take place through secondary sources i.e. books, magazines, journals and internet websites etc. The major causes for water crisis are shortage of rainfall, climate change, misuse of water, over-urbanization, global warming, non-availability of sufficient dams in Balochistan. There are severe implications and repercussions of water crisis in Balochistan. It leads towards agricultural crisis, loss of biodiversity, migration, drought condition, poor quality life and low income etc. There is a need to adopt a proper strategy that how to overcome the water crisis in Balochistan. The construction of dams, the public awareness, the re-cycling of water, aqueducts, desalination of water, improvement in sewerage system, rain water harvesting can enable us to overcome the water crisis. The sustainable water management approach will be applied to treat reuse and to control the wastage of water. The research will be conducted by keeping in view the socio-economic perspective. [ABSTRACT FROM AUTHOR]

Published

2023

14. Surya-shakti-sharir: Embodying India's solar energy transition.

Author

Stock, Ryan

Subjects

*ECOFEMINISM, *CLIMATE change, *SOLAR power plants, *WATER supply, *POLITICAL ecology

Abstract

Aspiring to India's COP26 pledge of attaining 500 gigawatts of non-fossil energy capacity by 2030 will entail nothing short of a colossal transformation of rural spaces. Solar park development has already disrupted the lives and livelihoods of marginalized peasants through land dispossession, uneven provisioning of electricity and water resources, dislocation of fuelwood and grazing access, and the diminution of labor opportunities. However, it remains unclear how affected peasants internalize the burdens of decarbonization. The aim of the paper is to address the following questions: How are the geographies of solar energy transitions embodied? How do dispossessed peasants respond affectively? Drawing on feminist political ecology literature and fieldwork that included household surveys and semi-structured interviews, the author finds that the dispossessed embody a range of affective responses, including emotional geographies and embodied resistance, that enable or constrain the place-making of equitable alternative sites of solar energy generation. The author concludes that as India rapidly erects large-scale solar infrastructures—indisputably imperative efforts to confront the climate crisis—the embodiment of injustices suffered by the dispossessed will haunt low-carbon futures. [ABSTRACT FROM AUTHOR]

Published

2023

15. The MOCAST+ Study on a Quantum Gradiometry Satellite Mission with Atomic Clocks.

Author

Migliaccio, Federica, Reguzzoni, Mirko, Rosi, Gabriele, Braitenberg, Carla, Tino, Guglielmo Maria, Sorrentino, Fiodor, Mottini, Sergio, Rossi, Lorenzo, Koç, Öykü, Batsukh, Khulan, Pivetta, Tommaso, Pastorutti, Alberto, and Zoffoli, Simona

Subjects

*ATOMIC clocks, *OPTICAL measurements, *ICE sheets, *MICHELSON interferometer, *WATER supply, *CLIMATE change, *GRAVITATIONAL potential, *GLACIAL drift

Abstract

In the past twenty years, satellite gravimetry missions have successfully provided data for the determination of the Earth static gravity field (GOCE) and its temporal variations (GRACE and GRACE-FO). In particular, the possibility to study the evolution in time of Earth masses allows us to monitor global parameters underlying climate changes, water resources, flooding, melting of ice masses and the corresponding global sea level rise, all of which are of paramount importance, providing basic data on, e.g. geodynamics, earthquakes, hydrology or ice sheets changes. Recently, a large interest has developed in novel technologies and quantum sensing, which promise higher sensitivity, drift-free measurements, and higher absolute accuracy for both terrestrial surveys and space missions, giving direct access to more precise long-term measurements. Looking at a time frame beyond the present decade, in the MOCAST+ study (MOnitoring mass variations by Cold Atom Sensors and Time measures) a satellite mission based on an "enhanced" quantum payload is proposed, with cold atom interferometers acting as gravity gradiometers, and atomic clocks for optical frequency measurements, providing observations of differences of the gravitational potential. The main outcomes are the definition of the accuracy level to be expected from this payload and the accuracy level needed to detect and monitor phenomena identified in the Scientific Challenges of the ESA Living Planet Program, in particular Cryosphere, Ocean and Solid Earth. In this paper, the proposed payload, mission profile and preliminary platform design are presented, with end-to-end simulation results and assessment of the impact on geophysical applications. [ABSTRACT FROM AUTHOR]

Published

2023

16. Research Progress on the Evaluation of Water Resources Carrying Capacity.

Author

Weizhi Li, Shanshan Liu, Wenjuan Chang, Xin Zhang, Chenhao Li, and Tianling Qin

Subjects

*WATER supply, *ECOSYSTEMS, *CAPACITY building, *CLIMATE change, *EVALUATION methodology, RESEARCH evaluation

Abstract

The imbalanced, maladjusted, and uncontrolled phenomenon in the regional water resources system is caused by the combined disturbances of climate change and human activities. The socio-economic and ecological systems are restricted, and the combined carrying capacity also changes accordingly. In order to explore the above changes, based on the influence mechanism of climate change, socio-economic system and ecosystem on water resources system, this paper systematically reviews the relevant research progress in water resources carrying capacity (WRCC), from the basic theory of water resources carrying capacity, the construction of evaluation index system, the classification criteria and evaluation methods, etc. This review provides basic theoretical and technical support for the study of generalized water resources carrying capacity considering the interlinked climate-ecology-society system, which is conducive to the promotion of water resources carrying capacity and the synergistic development of socio-economic and ecological environment under a changing climate. [ABSTRACT FROM AUTHOR]

Published

2023

17. Future hydrology of the Upper Blue Nile River basin and its impact on the Grand Ethiopian Renaissance Dam water resource system: a review.

Author

Shitu Mulat, Kasye and Hymiro Tegegne, Adibar

Subjects

*WATER supply, *HYDROLOGY, *WATERSHEDS, *DAMS, *CLIMATE change

Abstract

This review paper focuses on the question of what will happen to the future water resource system of Grand Renaissance Dam of Ethiopia based on the projected hydrology of the Upper Blue Nile River basin. For this, the hydrological extremes, the baseline hydrological trends, and projected hydrological extremes of the Upper Blue Nile River basin were reviewed from various published and unpublished sources. Changes in the future hydrology of the Upper Blue Nile River basin due to climate change or any other natural or manmade modification of the river basin deserve concerted attention in the future water resources system of the Grand Renaissance Dam of Ethiopia, because the water resources of the dam mainly depend on the water potential nature of the Upper Blue Nile River basin. [ABSTRACT FROM AUTHOR]

Published

2023

18. A review of the risks to shared water resources in the Murray–Darling Basin.

Author

Pittock, Jamie, Corbett, Samantha, Colloff, Matthew J., Wyrwoll, Paul, Alexandra, Jason, Beavis, Sara, Chipperfield, Kate, Croke, Barry, Lane, Patrick, Ross, Andrew, and Williams, John

Subjects

*WATER supply, *ENVIRONMENTAL infrastructure, *WATER quality, *CLIMATE change, *RISK assessment, *FOREST policy

Abstract

Risks to shared water resources in the Murray–Darling Basin are reviewed after the report by CSIRO on the same topic in 2006. CSIRO outlined six major risks to shared water resources in the Basin. Herein, six groups of researchers have reviewed the risks of climate change, forest growth, groundwater, water infrastructure, water quality, and governance. These reviews bring an updated understanding of risk assessment and management that can contribute to the forthcoming reviews of the Water Act and Basin Plan in 2024–26. Drawing on these six papers, the authors synthesise knowledge of the risks to shared water resources and identify policy and management options and information gaps. We find that few risk factors have decreased in significance. Most risks remain and new risks are identified. Water managers must plan for a significant decrease in water availability and governments need to actively manage these risks under conditions of increasing uncertainty. [ABSTRACT FROM AUTHOR]

Published

2023

19. Drought mitigation through a hedging-based model of reservoir-farm systems considering climate and streamflow variations.

Author

Anvari, Sedigheh, Moghaddasi, Mahnoosh, and Bagheri, Mohammad Hossein

Subjects

*CLIMATE change, *WATER shortages, *STREAMFLOW, *WATER supply, *DROUGHTS, *PARTICLE swarm optimization, *IRRIGATION scheduling

Abstract

For an effective reservoir operation during drought, the variations of both water supply and water demand which depend on hydrological and meteorological conditions need to be dealt with. This paper aimed to consider these variations in the Aharchay basin (Iran) by coupling a hedging rule (HR)-based reservoir operation model (HRROM) with a climate-based irrigation scheduling model (CBISM) at the farm level. Through the HRROM, optimal long-term decisions for Sattarkhan reservoir were made by considering the probable streamflow scenarios in the system. Given the variable agricultural demands (VAD) in the CBISM, the irrigation water was optimally allocated to the crops using several evapotranspiration (ET) scenarios. The CBISM employs three sub-models including linear programming (LP), nonlinear programming (NLP), and particle swarm optimization (PSO) to maximize the total income of the Aharchay agricultural network as a function of the climate factors and the supplied water. To this end, the daily weather and discharge data from 1990 to 2015 were used in this study. The standardized precipitation-evapotranspiration index (SPEI) and the streamflow drought index (SDI) were used to detect the meteorological and hydrological droughts, respectively. The SPEI was calculated based on the high-resolution-gridded datasets of the Climatic Research Unit (CRU). The findings demonstrated that the HRROM-CBISM generally managed to increase the time-based (αt) and volume-based (αv) reliability indices by 20% and 44%, respectively, compared with the conventional standard operation policy (SOP). For more investigations, the three major droughts of 2000–2002, 2004–2006, and 2008–2014 were separately analyzed. The average values of αt, αv, and vulnerability (V) for SOP were 0.33, 0.51, and 0.48, respectively. With the HRROM-CBISM, these values were about 0.5, 0.55, and 0.45, respectively. Among these indices, αt had the highest variations, while αv had the lowest variations in both the SOP and HRROM-CBISM approaches. The average water shortage for the mentioned droughts was significantly decreased from 89 (SOP) to 75 MCM (HRROM-CBISM). [ABSTRACT FROM AUTHOR]

Published

2023

20. Water resources of Afghanistan and related hazards under rapid climate warming: a review.

Author

Shokory, Jamal A. N., Schaefli, Bettina, and Lane, Stuart N.

Subjects

*GLOBAL warming, *WATER supply, *SNOW accumulation, *CLIMATE change, *MICROWAVE heating, *CRYOSPHERE, *GLACIERS, *STREAMFLOW, *MELTWATER

Abstract

Rapid climate change is impacting water resources in Afghanistan. The consequences are poorly known. Suitable mitigation and adaptation strategies have not been developed. Thus, this paper summarizes current status of knowledge in relation to Afghan water resources. More than 130 scientific articles, reports and data sources are synthesized to review the potential impacts of climate change on the cryosphere, streamflow, groundwater and hydrological extremes. The available information suggests that Afghanistan is currently witnessing significant increases in temperature, less so precipitation. There is evidence of shifts in the intra-annual distribution of streamflow, with reduced summer flows in non-glaciated basins and increased winter and spring streamflow. However, in the short-term there will be an increase in summer ice melt in glaciated basins, a "glacial subsidy", which sustains summer streamflow, despite reduced snow accumulation. The future prognosis for water resources is likely to be more serious when this glacier subsidy ends. [ABSTRACT FROM AUTHOR]

Published

2023

21. The Role of Space-Based Observations for Groundwater Resource Monitoring over Africa.

Author

Springer, Anne, Lopez, Teodolina, Owor, Michael, Frappart, Frédéric, and Stieglitz, Thomas

Subjects

*CLIMATE change mitigation, *GROUNDWATER monitoring, *WATER supply, *GROUNDWATER management, *REMOTE sensing, *EVIDENCE gaps

Abstract

Africa is particularly vulnerable to climate change impacts, which threatens food security, ecosystem protection and restoration initiatives, and fresh water resources availability and quality. Groundwater largely contributes to the mitigation of climate change effects by offering short- to long-term transient water storage. However, groundwater storage remains extremely difficult to monitor. In this paper, we review the strengths and weaknesses of satellite remote sensing techniques for addressing groundwater quantity issues with a focus on GRACE space gravimetry, as well as concepts to combine satellite observations with numerical models and ground observations. One particular focus is the quantification of changes in groundwater resources in the different climatic regions of Africa and the discussion of possible climatic and anthropogenic drivers. We include a thorough literature review on studies that use satellite observations for groundwater research in Africa. Finally, we identify gaps in research and possible future directions for employing satellite remote sensing to groundwater monitoring and management on the African continent. Article Highlights: Overview on the distribution and characteristics of African groundwater resources including future projections Combination of satellite and in situ observations with numerical models allows us to obtain a synoptic view of groundwater-related processes Summary of current concepts and achievements of satellite remote sensing-based groundwater monitoring and decision making over Africa [ABSTRACT FROM AUTHOR]

Published

2023

22. Analysis of precipitation extremes related to agriculture and water resources sectors based on gridded daily data in Romania.

Author

Horvath, Csaba and Croitoru, Adina-Eliza

Subjects

*AGRICULTURAL water supply, *WATER in agriculture, *WATER supply, *SPATIAL resolution, *CLIMATE change

Abstract

Climate change is one of the most frequent topics in climatic literature over the last three decades. One of the significant concerns with a potential change in climate is that extreme events will occur with a higher frequency. This paper focuses on spatial distribution and changes that occurred in extreme precipitation indices in Romania over a 53-yr period: 1961–2013. Gridded daily precipitation data have been used at a spatial resolution of 0.1° × 0.1° (about 11 km × 11 km). A set of 14 indices established by the Expert Team for Sector-Specific Indices for agriculture and water resources sectors has been calculated. They are both frequency and intensity indices: four are fixed threshold indices (R10, R20, CDD, and CWD), four are station-related thresholds (R95p, R99p, R95pTOT, R99pTOT), and six indices were detected without using a threshold (Rx1day, Rx3days, PRECPTOT, SDII, SPI, SPEI). The study's main finding is that most of the indices registered increasing trends but not statistically significant at the country level. The only exceptions are the drought-related indices (CDD, SPI, and SPEI), for which we found a dominant decreasing trend. In the northern half of the country, increasing trends were prevailing, and in the southern one, those decreasing registered a broader spatial coverage. SPI and SPEI recorded mainly significant changes: SPI trends are almost equally divided between increasing and decreasing. For SPEI, more than 70% of the country was characterized by a significant decrease. [ABSTRACT FROM AUTHOR]

Published

2023

23. Reforming for resilience: delivering 'multipurpose hydropower' under water and energy risks.

Author

Wyrwoll, Paul R. and Grafton, R. Quentin

Subjects

*WATER security, *WATER supply, *FLOOD control, *CLIMATE change, *REFORMS

Abstract

Multipurpose hydropower reservoirs are regularly framed as water security and climate change solutions. Although multipurpose projects can and do deliver a range of water services, 'win-win' outcomes are not guaranteed. Emerging water and energy risks are altering the net benefits from operating reservoirs to deliver hydropower generation, water supply, flood control, or other purposes. This paper shows that new hydropower governance approaches are needed to efficiently and fairly reallocate water under risks. We demonstrate that dynamic water reallocation is fundamental to the resilience of multipurpose reservoir systems and examine three potential reforms: periodic relicensing, water tariffs, and hydropower sustainability performance bonds. [ABSTRACT FROM AUTHOR]

Published

2022

24. Meeting the Challenges Facing Wheat Production: The Strategic Research Agenda of the Global Wheat Initiative.

Author

Langridge, Peter, Alaux, Michael, Almeida, Nuno Felipe, Ammar, Karim, Baum, Michael, Bekkaoui, Faouzi, Bentley, Alison R., Beres, Brian L., Berger, Bettina, Braun, Hans-Joachim, Brown-Guedira, Gina, Burt, Christopher James, Caccamo, Mario Jose, Cattivelli, Luigi, Charmet, Gilles, Civáň, Peter, Cloutier, Sylvie, Cohan, Jean-Pierre, Devaux, Pierre J., and Doohan, Fiona M.

Subjects

*WHEAT breeding, *AGRICULTURAL scientists, *WATER supply, *WHEAT, *FOOD security, GROUP of Twenty countries

Abstract

Wheat occupies a special role in global food security since, in addition to providing 20% of our carbohydrates and protein, almost 25% of the global production is traded internationally. The importance of wheat for food security was recognised by the Chief Agricultural Scientists of the G20 group of countries when they endorsed the establishment of the Wheat Initiative in 2011. The Wheat Initiative was tasked with supporting the wheat research community by facilitating collaboration, information and resource sharing and helping to build the capacity to address challenges facing production in an increasingly variable environment. Many countries invest in wheat research. Innovations in wheat breeding and agronomy have delivered enormous gains over the past few decades, with the average global yield increasing from just over 1 tonne per hectare in the early 1960s to around 3.5 tonnes in the past decade. These gains are threatened by climate change, the rapidly rising financial and environmental costs of fertilizer, and pesticides, combined with declines in water availability for irrigation in many regions. The international wheat research community has worked to identify major opportunities to help ensure that global wheat production can meet demand. The outcomes of these discussions are presented in this paper. [ABSTRACT FROM AUTHOR]

Published

2022

25. Recycled water for non-potable use: Understanding community perceptions and acceptance in Malaysia.

Author

Bachi', Nur Aina, Mohtar, Wan Hanna Melini Wan, Zin, Wan Zawiah Wan, Takeuchi, Haruka, and Hanafiah, Zarimah Mohd

Subjects

*WATER management, *COMMUNITIES, *WATER use, *WATER supply, *WATER reuse

Abstract

Sustainable water supply is one of the key issues for water resources management. The future demand for clean water is putting pressure on the Malaysian government to find alternative supplies and best management practices in managing water resources, such as the use of reclaimed water. This paper evaluates the perceptions and acceptance of the use of treated water for non-drinking purposes in Malaysia from the responses of 1,004 participants. The results show that age and level of education play an important role in the level of community acceptance. Females tend to be more selective than males in their acceptance to use reclaimed water. To guarantee that the public receives accurate information about reclaimed water, social media can be used for disseminating information, especially to younger generations. [ABSTRACT FROM AUTHOR]

Published

2023

26. Modeling Sea Level Rise Impact on Coot Bay Hammock, Florida Everglades.

Author

Xin Yi Kh'ng, Su Yean Teh, and Hock Lye Koh

Subjects

*SALTWATER encroachment, *MANGROVE plants, *SEA level, *HAMMOCKS, *DRINKING water, *CLIMATE change, *WATER supply

Abstract

The low-lying Florida Everglades ecosystem maintains a delicate dynamic balance between freshwater and seawater. Hence, the Everglades is vulnerable to sharp salinity alterations induced by climate variations. The associated increase in surface seawater inundation and subsurface saltwater intrusion will reduce the availability of fresh groundwater. This would pose a risk to the Floridan surficial aquifer that provides potable water supply for millions of inhabitants in Florida. The increased salinity and decreased freshwater inputs will also alter coastal ecosystems by facilitating the establishment and encroachment of plants with higher salinity and flooding tolerance. In the Florida Everglades, coastal hardwood hammocks are particularly vulnerable to saltwater intrusion induced by sea level rise (SLR). This paper aims to project a possible change in the Coot Bay Hammock of Florida Everglades subject to gradually rising sea level. For this purpose, the simulation model MANTRA is enhanced to simulate the vegetation zonation pattern at a cross section of Coot Bay Hammock in this paper. MANTRA couples two USGS models MANHAM and SUTRA. Model simulation reveals SLR could cause a regime shift from the glycophytic hardwood hammocks to the halophytic mangroves. [ABSTRACT FROM AUTHOR]

Published

2021

27. A NEAR FUTURE CLIMATE CHANGE IMPACTS ON WATER RESOURCES IN THE UPPER CHAO PHRAYA RIVER BASIN IN THAILAND .

Author

YOOBANPOT, Naphol and PRATOOMCHAI, Weerayuth

Subjects

*ARTIFICIAL groundwater recharge, *WATER supply, *CLIMATE change, *GROUNDWATER recharge, *WATERSHEDS, *RAINFALL, *ATMOSPHERIC models

Abstract

This paper focused on regional climate change impacts on hydro-meteorological variables in the Upper Chao Phraya River basin located in northern Thailand. The five global climate models were used with a number of 15 experiments to assess near future water resources over the period 2026-2040. The impacts of climate change were quantified in percentages relative to a retrospective period (1986- 2000). On average, the surface temperature tends to increase by 1.45, 1.48, and 1.80 °C under the lowest (RCP2.6), intermediate (RCP4.5), and highest (RCP8.5) CMIP5 greenhouse gas emission scenarios, respectively. Mathematical model called H08 was used, the coupling of three modules did a very good job on mimicking river discharge with high Nash-Sutcliffe and Index of Agreement. The projections of rainfall and its response to surface runoff and groundwater recharge exhibit relatively uneven distributions. The upper basin tends to face extremely heavy rainfall and taking place of serious flood, while the lower areas are expected to cope with drought. Based upon ensemble averages over the entire area, relative changes of -1.7% (-6.4%), -0.1% (-5.2%), and -2.0% (-9.3%) in the mean annual rainfall (groundwater recharge) are shown under the RCP2.6, RCP4.5, and RCP8.5 scenarios, respectively. This study included a groundwater recharge assessment indicating potential available groundwater use, which is considered to be a key resource for climate change adaptation. Based on these findings, implementing such an artificial groundwater recharge system is needed in order to harvest surplus water and making for coping with water stress in the dry season. [ABSTRACT FROM AUTHOR]

Published

2022

28. Controls on Alpine Lake Dynamics, Tien Shan, Central Asia.

Author

Zhang, Qifei, Chen, Yaning, Li, Zhi, Fang, Gonghuan, Xiang, Yanyun, and Li, Yupeng

Subjects

*GLACIERS, *GLACIAL lakes, *ALPINE glaciers, *LAKES, *WATER supply, *METEOROLOGICAL observations, *REMOTE-sensing images

Abstract

The number and area of alpine lakes in Tien Shan (TS) are rapidly growing in response to a warming climate and retreating glaciers. This paper presents a comparative analysis of lake classification and changes by dividing alpine lakes (within a 10 km buffer of the glacier margins) into four types (supraglacial lakes, proglacial lakes, extraglacial lakes and non-glacial lakes), and subsequently determining the driving forces of change across the TS region from 1990 to 2015. The analysis utilized multiple satellite images and climatic data from gridded data sets and meteorological station observations. The results indicate that the total number and area of glacial lakes continuously increased during the study period, whereas non-glacial lakes intermittently expanded. Specifically, the total number and area of all glacial lakes (supraglacial lakes, proglacial lakes and extraglacial lakes) increased by 45.45% and 27.08%, respectively. Non-glacial lakes, in contrast, increased in quantity and area by 23.92% and 19.01%, respectively. Alpine lakes are closer to glaciers at high altitudes; in fact, some (e.g., proglacial lakes) are connected to glacier termini, and these show the highest expansion speed during the study period. The area of proglacial lakes expanded by 60.32%. Extraglacial lakes expanded by 21.06%. Supraglacial lakes, in marked contrast to the other types, decreased in area by 3.74%. Widespread rises in temperature and glacier wastage were the primary cause of the steady expansion of glacial lakes, particularly those linked to small- and medium-sized glaciers distributed in the Eastern TS where glacial lakes have rapidly increased. Both proglacial and extraglacial lakes expanded by 6.47%/a and 2%/a, respectively, from 1990 to 2015. While these proglacial and extraglacial lakes are located in largely glacierized areas, lakes in the Central TS exhibited the slowest expansion, increasing in area by 1.44%/a and 0.74%/a, respectively. Alterations in non-glacial lake areas were driven by changes in precipitation and varied spatially over the region. This study has substantial implications for the state of water resources under the complex regional changes in climate in the TS and can be used to develop useful water-resource management and planning strategies throughout Central Asia. [ABSTRACT FROM AUTHOR]

Published

2022

29. Evaluation of Surface Water Resource Availability under the Impact of Climate Change in the Dhidhessa Sub-Basin, Ethiopia.

Author

Merga, Damtew Degefe, Adeba, Dereje, Regasa, Motuma Shiferaw, and Leta, Megersa Kebede

Subjects

*CLIMATE change, *WATER supply, *WATER resources development, *ATMOSPHERIC models, *HYDROLOGIC cycle, *STREAMFLOW

Abstract

Climate change, with its reaching implications, has become a popular topic in recent years. Among the many aspects of climate change, one of the most pressing concerns has been identified as the impact on the terrestrial water cycle, which has a direct impact on human settlement and ecosystems. The paper begins by reviewing previous studies, and then identifies their flaws and future research directions. The effects of climate change on surface water resources in the Dhidhessa Sub-basin, Abbay Basin, Ethiopia, were studied as practices. For future potential climate change, the results of global climate models (GCMs) and high-resolution regional climate models (RCMs) from multiple climate models were combined with data from Representative Concentration Pathways (RCPs) prepared by the Intergovernmental Panel on Climate Change from the CCAFS Data Distribution Center web page. To evaluate the impacts on water resources, various distributed hydrologic models based on local underlying surfaces were developed. The future potential climate change of the Dhidhessa Sub-basin Province was evaluated by integrating RCP outputs, whereas the climate change of the Dhidhessa River was directly derived from the results of different RCP. Dhidhessa stream flow will decrease in the future compared to the baseline era. The predictions of future discharge (stream flow) were based on climate scenarios data from 1991 to 2020 and for the future with two time windows, 2044 (2030–2059) and 2084 (2070–2099), on a monthly time-step after bias correction to both precipitation and temperature in the future climate described in the under each RCP. According to model results, the quantity of surface water resources in the Dhidhessa river region will decrease over the next 100 years, the percent decrease in mean annual stream flow by 10%, in 2044, and 6.3% in 2084, respectively, making the impact of temperature increase on runoff greater than that of precipitation. The distribution of runoff would be more even across years but more uneven across years in the long-term window, implying a higher possibility of drought and flooding. In general, this study discovered that any effect on this river that results in a decrease in flow will have a direct impact on the area's ongoing water resource development and socioeconomic development. [ABSTRACT FROM AUTHOR]

Published

2022

30. Assessing future intra-basin water availability in madagascar: Accounting for climate change, population growth, and land use change.

Author

Harifidy, Rakotoarimanana Zy, Hiroshi, Ishidaira, Harivelo, Rakotoarimanana Zy Misa, Jun, Magome, Kazuyoshi, Souma, and Keiichi, Masutani

Subjects

*LAND use, *WATER supply, *WATER shortages, *RURAL population, *FARMS, *CLIMATE change

Abstract

• A novel approach is proposed for evaluating future intra-basin water resources. • Under the SSP2–4.5 scenario, the MRBM is projected to face water scarcity by 2050. • Population and land use imbalance upstream/downstream reduce the PWR by 37 % and 69 %. • Precipitation, ET, population, agricultural land, and PWR increase downstream. • The upstream areas are expected to have greater PWR per capita and agriculture area. The Major River Basins in Madagascar (MRBM) play a crucial role in providing water to the Malagasy population as well as the ecosystem. Little is known about the impact of climate change on these basins, and it is not clear what factors have the most significant impact on them. There are two central objectives of this study: 1. To assess the future potential water available for daily life and agriculture use across the MRBM. 2. To compare the projected change within the MRBM with the historical trends analysis and identify the water-stressed basins. In this paper, a new method for assessing the future available Intra-basin water resources combined with the impacts of climate change, land use, and population is proposed. Three imbalance indicators are introduced to quantify the spatial availability (indicator N°1), distribution (indicator N°2), and variability (indicator N°3) of the Potential Water Resources (PWR) available and have been applied to the MRBM. Under the SSP2–4.5 scenario, results showed a decreasing trend of the PWR in most of the basins by 2050 with a rise in evapotranspiration and a decline in precipitation. The increasing trend and uneven distribution of the population and agricultural land upstream/downstream are found to cause the reduction of the PWR available per capita (by 37 %) and agriculture area (by 69 %) across the MRBM. This study predicts water scarcity for most of the basins by 2050, especially in the Mangoro and Onilahy Basins. Upstream populations are expected to grow in Mahajamba, Mahavavy, Betsiboka, Manambolo, Tsiribihina, Mangoro, Onilahy, Mananara, and Mandrare basins, along with an expansion of the downstream agricultural land in Sofia, Betsiboka, Manambolo, Mangoky, and Mandrare basins. These findings enhance the cause-effect relationship between climate change, land use change, population growth, and water scarcity in the MRBM. Urgent action is therefore needed for an efficient and sustainable management of these water-stressed basins. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

31. Exploring the food-energy-water nexus in coupled natural-human systems under climate change with a fully integrated agent-based modeling framework.

Author

Zhang, Jiaorui, Yang, Y.C. Ethan, Abeshu, Guta W., Li, Hongyi, Hung, Fengwei, Lin, Chung-Yi, and Leung, L. Ruby

Subjects

*WATER consumption, *HYDROLOGIC cycle, *SUSTAINABILITY, *HYDROLOGIC models, *WATER supply, *CALORIC content of foods, *CLIMATE change

Abstract

• Integrating an agent-based model into a large-scale distributed hydrologic model. • Evaluating the co-evolution of the CNHS at multiple spatial scales. • Demonstrating the trade-off among FEW sectors under climate change. Managing water resources to meet increasing energy and food demands while maintaining environmental sustainability under climate change is a major challenge, especially when this nexus occurred in a coupled natural–human system (CNHS), where heterogeneous human activities affect the natural hydrologic cycle and vice versa. The relevant research has been limited by the lack of models that can effectively integrate human dynamics and hydrologic conditions with spatial details to examine co-evolutionary systems. To address this challenge, this paper develops a modeling framework that integrates an agent-based model (ABM; human behavior model) into a large-scale, process-based distributed hydrologic model to simulate human decisions endogenously in the hydrologic cycle. We then apply the Decision Scaling approach, an ex-post scenario analysis method, with our integrated model to study the bidirectional feedback of the CNHS under future changing climate conditions. With the Columbia River Basin (CRB) selected as the case study area, the calibration results show that the integrated model can simultaneously capture the historical irrigated water consumption and streamflow dynamics. Modeling results show that the trade-off between irrigated water consumption, hydropower generation, and streamflow will become more pronounced under hotter and wetter climate conditions at both the entire basin and regional (states and provinces) levels. Special attention should be given to "temperature thresholds" of different regions when the trade-off pattern started. The trade-off results can potentially inform the Columbia River Treaty renegotiation and provide insights for long-term water management policies. [ABSTRACT FROM AUTHOR]

Published

2024

32. Ecosystem-Based Adaptation for the Impact of Climate Change and Variation in the Water Management Sector of Sri Lanka.

Author

Khaniya, Bhabishya, Gunathilake, Miyuru B., and Rathnayake, Upaka

Subjects

*CLIMATE change, *WATER management, *WATER supply, *WATER quality, *KNOWLEDGE gap theory

Abstract

The climate of Sri Lanka has been fluctuating at an alarming rate during the recent past. These changes are reported to have pronounced impacts on the livelihoods of the people in the country. Water is central to the sustainable functioning of ecosystems and wellbeing of mankind. It is evident that pronounced variations in the climate will negatively impact the availability and the quality of water resources. The ecosystem-based adaptation (EbA) approach has proved to be an effective strategy to address the impact of climate change on water resources in many parts of the world. The key aim of this paper is to elaborate the wide range of benefits received through implementation of EbAs in field level, watershed scale, and urban and coastal environments in the context of Sri Lanka. In addition, this paper discusses the benefits of utilizing EbA solutions over grey infrastructure-based solutions to address the issues related to water management. The wide range of benefits received through implementation of EbAs can be broadly classified into three categories: water supply regulation, water quality regulation, and moderation of extreme events. This paper recommends the utilization of EbAs over grey infrastructure-based solutions in adaptation to climate change in the water management sector for the developing region due its cost effectiveness, ecofriendliness, and multiple benefits received on long-term scales. The findings of this study will unequivocally contribute to filling existing knowledge and research gaps in the context of EbAs to future climate change in Sri Lanka. The suggestions and opinions of this study can be taken into account by decision makers and water resources planning agencies for future planning of actions related to climate change adaptation in Sri Lanka. [ABSTRACT FROM AUTHOR]

Published

2021

33. How Bayesian networks are applied in the subfields of climate change: Hotspots and evolution trends.

Author

Shi, Huiting, Li, Xuerong, and Wang, Shouyang

Subjects

*BAYESIAN analysis, *ATMOSPHERIC sciences, *ENVIRONMENTAL sciences, *ENVIRONMENTAL health, *WATER supply, *INDUSTRIAL hygiene

Abstract

The ability of Bayesian networks (BNs) to model complex systems and uncertainties makes it a perfect tool for the research on subfields related to climate change. In fact, in the past 30 years, BNs have been widely used in this field, with 1502 articles in total. Quantitatively understanding influential researchers, institutions, mainstream topics and research trends will help us quickly go deeper into this field. Thus, a scientometric method was conducted. In this paper, we identified the influential authors, journals, countries, institutions, topics and disciplines, key articles and research trends by collaboration network analysis, keyword co-occurrence network and document co-citation network analysis. As a result, we found that environmental sciences technology and water resources were the most popular research subfields, followed by energy fuels and meteorological atmospheric sciences. While as time goes on, research focuses have gradually shifted. Public environmental occupational health will become one of the most popular research subfields in the future. • We review papers of Bayesian networks in the subfields of climate change. • Influential journals, institutions, landmark papers, citation bursts are identified. • Recent topics focus on environmental sciences technology. • Public environmental occupational health will become new hot issues. [ABSTRACT FROM AUTHOR]

Published

2024

34. Current Conditions and Projected Changes in Crop Water Demand, Irrigation Requirement, and Water Availability over West Africa.

Author

Gbode, Imoleayo Ezekiel, Diro, Gulilat Tefera, Intsiful, Joseph Daniel, and Dudhia, Jimy

Subjects

*WATER supply, *WATER management, *IRRIGATION, *IRRIGATION farming, *ATMOSPHERIC models

Abstract

Climate variability and change greatly affect agricultural and water resource management over West Africa. This paper presents the current characteristics and projected change in regional crop water demand (CWD), irrigation requirement (IR), and water availability (WA) over West Africa. Observed and simulated daily rainfall, minimum temperature, maximum temperature, and evapotranspiration are used to derive the above agro-meteorological and hydrological variables. For future periods, high-resolution climate data from three regional climate models under two different scenarios, i.e., representative concentration pathway (RCP) 4.5 and 8.5, are considered. Evaluation of the characteristics of present-day CWD, IR, and WA indicated that the ensemble mean of the model-derived outputs reproduced the prevailing spatial patterns of CWD and IR. Moreover, the wetter part of the domain, especially along the southern coast, was correctly delineated from the drier northern regions, despite having biases. The ensemble model also simulated the annual cycle of water supply and the bimodal pattern of the water demand curves correctly. In terms of future projections, the outcomes from the study suggest an average increase in the CWD by up to 0.808 mm/day and IR by 1.244 mm/day towards the end of the twenty-first century, compared to the baseline period. The hot-spot areas, where there is higher projected increment in CWD and IR, are over Senegal, Southern Mali, and Western Burkina Faso. In most cases, WA is projected to decrease towards the end of the twenty-first century by −0.418 mm/day. The largest decline in WA is found to be over Guinea and most of the eastern parts of West Africa. Despite the current under-utilization of the existing groundwater resources, the threat of global warming in reducing future WA and increasing CWD suggested caution on the scale of irrigation schemes and management strategies. The outcomes from the study could be a crucial input for the agricultural and water managers for introducing effective measures to ensure sustainability of irrigated farm lands. [ABSTRACT FROM AUTHOR]

Published

2022

35. Agriculture and water resources: UNFCCC influence on Peruvian adaptation regulations to increase resilience against climate change...

Author

Arana-Ruedas, Del Piero R. and Moggiano, Nabilt

Subjects

*AGRICULTURAL water supply, *WATER supply, *WATER in agriculture, *CLIMATE change, PARIS Agreement (2016)

Abstract

Agriculture and water resource are highly threatened due to climate change, increasing the probability of backsliding on almost every aspect of sustainable development worldwide. For instance, water resource distribution throughout the Peruvian territory is not homogeneous. Hydrometeorological phenomena also threaten it, so it is crucial for the agriculture sector and water management to increase resilience against climate change. The study aims to understand the Peruvian conduct under the United Nations Framework Convention on Climate Change (UNFCCC) regime. Its influence in the Peruvian adaptation regulation and public institutions over the years and the interaction with the latest commitment to the UNFCCC related to climate change agriculture - water resources. The methodology used for the study was qualitative, delivered throughout a documentary analysis, and narrative design among scientific papers, UNFCCC documentation, and Peruvian regulation to weave the experience occurred and the sequences of the events to set up a general narrative. The results show that Peru has active participation in the UNFCCC, particularly under a neoliberalism approach. The convention pushed institutional and regulatory development of the Peruvian Government constantly. Also, after the Paris Agreement, one of the most important influences was the implementation of Law N° 30754 on climate change, which articulates all the regulations related to it, providing a national, more substantial legally-binding commitment. Finally, it is important for Peru to analyze the achievement of current adaptation actions and keep studying the impacts of climate change at a local level to develop a bottom-up approach for an effective policy formulation-implementation. [ABSTRACT FROM AUTHOR]

Published

2022

36. Iran's Water Security: An Emerging Challenge.

Subjects

*WATER security, *WATER management, *WATER consumption, *WATER supply, *CLIMATE change, *INTERNATIONAL relations

Abstract

Water and water management are no longer related to environmental studies. There is a very strong link between water and a state's security, as well as its survival and development. A decline in water availability may lead to a collapse or even the extinction of a whole civilization. Sometimes referred to as a "water‐bankrupt" state, Iran is a case that underlines the close relation between water and security, from the perspective of survival and opportunities for development. Without a doubt, the Islamic Republic of Iran is among those countries that are the most affected by climate change and low water levels. The main goal of this paper is to analyze challenges related to water in Iran, including the political, security, economic, and social dimensions. [ABSTRACT FROM AUTHOR]

Published

2022

37. Evaluation and promotion strategy of resilience of urban water supply system under flood and drought disasters.

Author

Li, Zhijie, Zhao, Hui, Liu, Jinning, Zhang, Jingqi, and Shao, Zhiguo

Subjects

*DISASTER resilience, *MUNICIPAL water supply, *CLIMATE change, *WATER supply, *SYSTEMS theory, *HAZARD mitigation, *URBANIZATION, *DROUGHTS

Abstract

With global climate change and the rapid urbanization, urban flood and drought disasters are frequent and urban water supply systems are facing a sea of serious challenges. It is crucial to assess the resilience of urban water supply systems and develop corresponding disaster mitigation and improvement strategies. Urban water supply systems include many subsystems, but existing researches generally focus on a single subsystem. Therefore, this paper proposes a correlation analysis method and a factor analysis method for the resilience evaluation index system of urban water supply systems by combining each subsystem and applying grey system theory. The method can reflect the four dimensions of the water supply process (water source, water plant, supply and distribution network and users) and the five dimensions of the urban management system (society, natural environment, economy, physics and organization). Taking Qingdao as an example, a multi-level integrated evaluation model based on a cloud model is applied to simulate and analyze the resilience of Qingdao's water supply system. As a result, decision support is provided for planning and building resilience systems for urban water systems in the short and long term, based on four main factors. [ABSTRACT FROM AUTHOR]

Published

2022

38. Meteorological drought risk in the Daqing River Basin, North China: current observations and future projections.

Author

Mu, Wenbin, Yu, Fuliang, Han, Yuping, Ma, Weixi, and Zhao, Yong

Subjects

*WATERSHEDS, *METEOROLOGICAL stations, *CLIMATE change, *NONPROFIT sector, *WATER supply

Abstract

Drought is a major natural hazard that can have devastating impacts on regional agriculture, water supply, ecological environment and social economy. Extreme events, including droughts, are expected to be severer and more frequent because of climate warming. This paper presents an analysis of observed changes and future projections of meteorological drought in the Daqing River Basin (DRB), North China, based on the modified Standardized Precipitation Index (SPImod). Observed changes of meteorological drought are analyzed based on the precipitation series of 26 meteorological stations from 1971 to 2011, and future projections are made under two representative concentration pathways (RCPs 4.5 and 8.5) from 2021 to 2050. The result shows a change from wet to dry detected in most areas of the DRB in summer, winter and annual series. The drought risk is higher under the condition of "OR" and "AND" return period during the observation period, and the high-risk regions cover a large area. The drought risk from 2021 to 2050 will increase across the basin under RCP 4.5 and RCP 8.5, compared with which in the base period from 1971 to 2000. Most regions will be at a higher drought risk under the condition of "OR" return period, and the area with high-risk under RCP 4.5 is slightly larger than that under RCP 8.5. Under the condition of "AND" return period, the high-risk regions will cover the area from the northwest to the northeast, while the area of high-risk regions under RCP 8.5 will be larger than that under RCP 4.5. The result of this paper will be helpful for performing an efficient water resource management in the DRB under the impacts of global warming and climate change. [ABSTRACT FROM AUTHOR]

Published

2020

39. Review: The influence of global change on Europe's water cycle and groundwater recharge.

Author

Riedel, Thomas and Weber, Tobias K. D.

Subjects

*HYDROLOGIC cycle, *GROUNDWATER recharge, *CLIMATE extremes, *WATER supply, *CLIMATE change, *FOREST management

Abstract

Roughly a third of Europe's water demand is satisfied by groundwater abstraction. Understanding how future changes in climate, weather, vegetation and land use will affect the transport of atmospheric water to the subsurface is critical for successful implementation of Europe's Water Framework Directive and to maintain groundwater as a high-quality water resource. This paper summarizes the known drivers of trends and variations in groundwater recharge (precipitation, evapotranspiration and vegetation, land use) in Central Europe and how they have changed in recent decades. From past observations and future climate projections, the foreseeable consequences for groundwater recharge under a changing climate are discussed. The paper focuses on the complex role of soils and vegetation at the interface between atmosphere and groundwater, and addresses open questions and possible new directions for research. Summarizing the evidence, land use and land-use change have a large control on recharge, but the influence of climate change is increasingly recognized. Central Europe's current transition from a temperate and relatively moist climate towards a more variable and Mediterranean-like climate may shift recharge patterns and increase the ratio of focused-to-diffusive recharge as precipitation patterns change and the frequency and intensity of climatic extremes (e.g., heavy rainfall, heatwaves, droughts, floods and wild fires) increase. However, uncertainty remains with regard to the dynamic response of Europe's vegetation to climate change as well as to human modifications of the water cycle (e.g., through irrigation, forest management, artificial recharge or urbanization), which currently challenges model-based predictions of future recharge. [ABSTRACT FROM AUTHOR]

Published

2020

40. Coupling reconstruction of atmospheric hydrological profile and dry-up risk prediction in a typical lake basin in arid area of China.

Author

Wang, Jie, Liu, Dongwei, Tian, Songni, Ma, Jiali, and Wang, Lixin

Subjects

*WATERSHEDS, *WATER consumption, *CLIMATE change, *WATER supply, *EMERGENCY management, *HAZARD mitigation, *RUNOFF analysis

Abstract

Arid area is very sensitive to global warming and are extremely vulnerable to climate change. Moreover, the water resources system in the arid area is fragile and will undergo tremendous changes with climate change. Therefore, the interaction of climate and hydrology in arid area has an important impact on the formation of regional microclimate and hydrological changes. Daihai Lake is a typical closed inland lake in arid area of China, and a key area for ecological protection in North China. In this paper, WRF-Hydro model is used to simulate the climate hydrological coupling situation of Daihai Basin from 1980 to 2020, and the coupling results are verified and calibrated by meteorological statistics, runoff calculation and remote sensing analysis. Based on the synopsis of climate and hydrology in the past 40 years, the causes and future trends of the hydrological elements in Daihai Basin are analyzed. Through the analysis, it is found that the interannual variation of precipitation in Daihai Basin is sharp, with 401.75 mm as the average from 1980 to 1994; and drastic fluctuations from 1995 to 2011, with a difference of nearly 400 mm between the interannual maximum and minimum; From 2012 to 2020, the fluctuation is small. Although the interannual variation of evaporation fluctuated, it showed an upward trend with a slope of 8.855 mm/year. The annual average temperature showed an obvious upward trend with a slope of 0.040 °C/year. From 1980 to 2020, the inflow of Daihai Lake shows a downward trend; Since 2013, the runoff into the lake has tended to be flat. Climate change and human activities are the decisive factors leading to the change of water quantity in Daihai, among which human activities play a greater role. Cultivated land irrigation and industrial water use are highly correlated with the lake discharge, and these two factors have a great influence on the lake discharge. If the current agricultural and industrial water consumption does not increase, Daihai still has a lifespan of nearly 120 years. If human activities do not change and any protective measures are not taken in time, under the background of global climate change, the flow of the Daihai Lake into the lake will be reduced to zero in 2025, and the Daihai Lake will completely dry up in 2031–2033. The study of climate hydrological coupling of long time series in Daihai Basin can not only make up for the lack of runoff data, but also provide the basis for water resources management, disaster prevention and mitigation. [ABSTRACT FROM AUTHOR]

Published

2022

41. Coupling reconstruction of atmospheric hydrological profile and dry-up risk prediction in a typical lake basin in arid area of China.

Author

Wang, Jie, Liu, Dongwei, Tian, Songni, Ma, Jiali, and Wang, Lixin

Subjects

*WATERSHEDS, *WATER consumption, *CLIMATE change, *WATER supply, *EMERGENCY management, *HAZARD mitigation, *RUNOFF analysis

Abstract

Arid area is very sensitive to global warming and are extremely vulnerable to climate change. Moreover, the water resources system in the arid area is fragile and will undergo tremendous changes with climate change. Therefore, the interaction of climate and hydrology in arid area has an important impact on the formation of regional microclimate and hydrological changes. Daihai Lake is a typical closed inland lake in arid area of China, and a key area for ecological protection in North China. In this paper, WRF-Hydro model is used to simulate the climate hydrological coupling situation of Daihai Basin from 1980 to 2020, and the coupling results are verified and calibrated by meteorological statistics, runoff calculation and remote sensing analysis. Based on the synopsis of climate and hydrology in the past 40 years, the causes and future trends of the hydrological elements in Daihai Basin are analyzed. Through the analysis, it is found that the interannual variation of precipitation in Daihai Basin is sharp, with 401.75 mm as the average from 1980 to 1994; and drastic fluctuations from 1995 to 2011, with a difference of nearly 400 mm between the interannual maximum and minimum; From 2012 to 2020, the fluctuation is small. Although the interannual variation of evaporation fluctuated, it showed an upward trend with a slope of 8.855 mm/year. The annual average temperature showed an obvious upward trend with a slope of 0.040 °C/year. From 1980 to 2020, the inflow of Daihai Lake shows a downward trend; Since 2013, the runoff into the lake has tended to be flat. Climate change and human activities are the decisive factors leading to the change of water quantity in Daihai, among which human activities play a greater role. Cultivated land irrigation and industrial water use are highly correlated with the lake discharge, and these two factors have a great influence on the lake discharge. If the current agricultural and industrial water consumption does not increase, Daihai still has a lifespan of nearly 120 years. If human activities do not change and any protective measures are not taken in time, under the background of global climate change, the flow of the Daihai Lake into the lake will be reduced to zero in 2025, and the Daihai Lake will completely dry up in 2031–2033. The study of climate hydrological coupling of long time series in Daihai Basin can not only make up for the lack of runoff data, but also provide the basis for water resources management, disaster prevention and mitigation. [ABSTRACT FROM AUTHOR]

Published

2022

42. Growing impact of wildfire on western US water supply.

Author

Park Williams, A., Livneh, Ben, McKinnon, Karen A., Hansen, Winslow D., Mankin, Justin S., Cook, Benjamin I., Smerdon, Jason E., Varuolo-Clarke, Arianna M., Bjarke, Nels R., Juang, Caroline S., and Lettenmaier, Dennis P.

Subjects

*WATER supply, *DROUGHT management, *FIRE management, *ATMOSPHERIC models, *WILDFIRES, *STREAMFLOW, *FOREST fires

Abstract

Streamflow often increases after fire, but the persistence of this effect and its importance to present and future regional water resources are unclear. This paper addresses these knowledge gaps for the western United States (WUS), where annual forest fire area increased by more than 1,100% during 1984 to 2020. Among 72 forested basins across the WUS that burned between 1984 and 2019, the multibasin mean streamflow was significantly elevated by 0.19 SDs (P < 0.01) for an average of 6 water years postfire, compared to the range of results expected from climate alone. Significance is assessed by comparing prefire and postfire streamflow responses to climate and also to streamflow among 107 control basins that experienced little to no wildfire during the study period. The streamflow response scales with fire extent: among the 29 basins where >20% of forest area burned in a year, streamflow over the first 6 water years postfire increased by a multibasin average of 0.38 SDs, or 30%. Postfire streamflow increases were significant in all four seasons. Historical fire–climate relationships combined with climate model projections suggest that 2021 to 2050 will see repeated years when climate is more fire-conducive than in 2020, the year currently holding the modern record for WUS forest area burned. These findings center on relatively small, minimally managed basins, but our results suggest that burned areas will grow enough over the next 3 decades to enhance streamflow at regional scales. Wildfire is an emerging driver of runoff change that will increasingly alter climate impacts on water suppliesand runoff-related risks. [ABSTRACT FROM AUTHOR]

Published

2022

43. Scanning climate change impacts on water resources of the largest African river basins.

Author

Shamseddin, Ahmed Musa and Chaibi, Thameur

Subjects

*WATERSHEDS, *CLIMATE change, *WATER supply, *CLIMATE change models, *STREAMFLOW

Abstract

Besides existing challenges to water management under scarcity in Africa, climate change has the potential to impose additional pressures on water resources. This study aims at reviewing and identifying the climate change signals presented in 61 peer reviewed papers with respect to seven largest African river basins, viz. Nile, Senegal, Volta, Niger, Congo, Zambezi and Limpopo. Thirty percent of the reviewed papers focussed on the Nile basin while only 13% reported on the Congo basin. The climate change signals were segregated into decreasing, increasing and uncertain trends. Results stated the overwhelming tendency for using unmitigated future emission pathways. The use of ensemble models superiors the individual and synthetic scenarios. While projected temperature showed robust increasing trends, rainfall dominated by uncertain trends. The hydrological impacts were assessed through 19 hydrological models with accepted considerations of land uses at 52% of the cases. Modellers managed to understand and build robust rainfall-runoff relationships in Zambezi, Limpopo, Senegal and partially in Niger but failed in Congo and Nile. Climate change impacts on runoff, stream flows and evapotranspiration should be interpreted cautiously. Further researches are recommended to incorporate the effects of human interventions (e.g. dams) and land use changes in climate change-hydrological modelling. [ABSTRACT FROM AUTHOR]

Published

2020

44. The impact of the 2015-16 El Nino drought on the irrigated home gardens of the Komati downstream development project, Swaziland.

Author

Terry, Alan Keith

Subjects

*GARDENS, *DROUGHTS, *FOOD security, *SUGAR, *WATER supply, *CLIMATE change

Abstract

Swaziland was affected severely by the 2015–16 El Nino drought, which severely affected agriculture and food security. Of special interest to this paper is its impact on irrigated home gardens on the Komati Downstream Development Project. This project was designed to extend irrigated sugar cane onto customary tenured Swazi Nation Land, with a secondary objective to improve food security by enabling farmers to convert some land from rain-fed to irrigated maize and vegetable production. A random questionnaire survey was undertaken on three farmers' associations of the KDDP which have adopted irrigated home gardens, sampling approximately 50 per cent of those eligible. In addition, in-depth interviews were conducted with committee members of the associations. The paper concludes that unlike previous droughts where the gardens enabled farmers to produce food at a time when rain-fed production had collapsed, in the 2015–16 drought, the impact on water supplies was so great that the irrigated gardens also failed, compromising the food security of the farmers and their neighbours. It also appears that a significant number of farmers are beginning to question the long-term viability of their current farm system in the face of what many perceive as long-term changes in the regional climate. [ABSTRACT FROM AUTHOR]

Published

2020

45. THE IMPACT OF CLIMATE CHANGES ON THE VILLAGES NEAR COMANA PROTECTED AREA, GIURGIU COUNTY, ROMANIA.

Author

SPÂNU, Simona and FLOREA, Marin

Subjects

*CLIMATE change, *ATMOSPHERIC temperature, *METEOROLOGICAL precipitation, *WATER supply, *DRINKING (Physiology)

Abstract

The main atmospheric climate parameters are important for the daily and seasonal variation of the parameters of the Comana Puddle aquariums. The anomalous variation of temperatures, precipitation and evaporation induces a fluctuation in the volume of water from the pond and the river Neajlov. Atmospheric temperature and precipitation directly affect winter phenomena and breakdown processes during the summer period, with significant effects on the agriculture, the most vulnerable domain on climate changes. In the hilly or hill area, the amount of rainfall decreases, thus influencing the water intake in these aquariums. The high warming time of the heat season leads to an increase in evaporation values, so that a water deficit is recorded in the hillside, hillside and plain areas, which also entails a loss in the volume of water in the lagoons. These seasonal fluctuations directly affect the limbic or aquatic fauna, but also the agriculture. In the cold season winter phenomena (ice bridge, ice on the shore, slopes, snowballs) and blocking water as snow, creates a deficiency in the water supply of lakes, ponds, puddles and swamps. This paper analysed the impact of climatic changes but also the possibilities of the recovery a part of the gloss of water, a gloss that existed years ago and which was greatly diminished after the work done downstream changed the hydrological balance of the area. This effect adds to the fact that climate change has made it possible for the volume of evaporation to be increased and sometimes to exceed the volume of precipitation. [ABSTRACT FROM AUTHOR]

Published

2019

46. Water Vulnerability in Arctic Households: A Literature-based Analysis.

Author

Sohns, Antonia, Ford, James D., Riva, Mylene, Robinson, Brian, and Adamowski, Jan

Subjects

*HOUSEHOLDS, *WATER supply, *WATER, *META-analysis, *CLIMATE change

Abstract

There is an urgent need to understand the contextual factors that influence water vulnerability of households in the Arctic. To evaluate the existing knowledge of Arctic household water vulnerability, this paper presents the results of a narrative review with a systematic search. The review identified 112 documents, including peer-reviewed articles, reviews, book chapters, proceedings papers, and meeting abstracts. The documents were analyzed for the main factors affecting water vulnerability in Arctic households, which fell into two categories: biophysical factors and anthropogenic factors. Within the biophysical category, the majority of documents noted climate change impacts on freshwater supplies and water systems, followed by attention to extreme weather and the seasonality of water supplies. Within the anthropogenic category, the vast majority highlighted infrastructure as the primary issue affecting water access, followed by economic, governance, socio-cultural, and demographic factors. Through these diverse influencing factors, this review situates the discussion of household water vulnerability in the Arctic in a more nuanced light. The categories illuminate patterns between factors, which can worsen, assuage, or mitigate water vulnerability. The complex relationships between these factors influence the degree and nature of water vulnerability in Arctic households. In order to successfully address household water vulnerability in the Arctic, these factors and their dynamic relationships must be considered in freshwater policy and management frameworks. [ABSTRACT FROM AUTHOR]

Published

2019

47. Influence of large-scale climate indices and regional meteorological elements on drought characteristics in the Luanhe River Basin.

Author

Li, Min, Feng, Zilong, Zhang, Mingfeng, and Yao, Yuhang

Subjects

*DROUGHT management, *DROUGHTS, *WATERSHEDS, *EMERGENCY management, *HAZARD mitigation, *WATER supply, *CLIMATE change

Abstract

Frequent drought disasters have significant impacts on socio-economic and ecosystems, and it is crucial to explore the propagation characteristics of drought for disaster prevention and mitigation. In this paper, based on 0.25° × 0.25° grid-point Meteorological hydrological and large-scale climate factor data, the start-to-start, peak-to-peak, and end-to-end drought propagation times, and the periods and rates of drought development and recovery were estimated for 11 regions in the Luanhe River Basin under stationary and non-stationary conditions. The Generalized Additive Model for Location, Scale and Shape (GAMLSS) framework was used to construct stationary and non-stationary models to capture the stationary and non-stationary drought characteristics respectively, and then the drought development and recovery patterns, and drought propagation times were assessed. The results showed that under the influence of climate factors, severe drought events occurred in most study areas, the duration of meteorological drought was prolonged by 0.1–0.6 months, and the peak intensity was increased by about 0.05. The severity of hydrological drought increased by 0.2–0.8, and the peak intensity decreased by 0.1–0.2. The rate of development and recovery of hydrological drought was accelerated by 0.1–0.2 per month. The propagation time of start-to-start was shortened by 0.2 months, and the propagation time of end-to-end was extended by 1–2 months. These mean that water resource control authorities need to propose responses to droughts more quickly. • The non-stationary drought indices considering climatic factors were constructed. • The drought propagation time was calculated from start to start, peak to peak, and end to end. • Quantification of the effects of climate change on drought propagation [ABSTRACT FROM AUTHOR]

Published

2024

48. Debris-covered glacier systems and associated glacial lake outburst flood hazards: challenges and prospects.

Author

Racoviteanu, A.E., Nicholson, L., Glasser, N.F., Miles, Evan, Harrison, S., and Reynolds, J.M.

Subjects

*GLACIERS, *GLACIAL lakes, *ABSOLUTE sea level change, *FLOOD warning systems, *WATER supply, *HAZARDS, *CLIMATE change

Abstract

Glaciers respond sensitively to climate variability and change, with associated impacts on meltwater production, sea-level rise and geomorphological hazards. There is a strong societal interest in understanding the current response of all types of glacier systems to climate change and how they will continue to evolve in the context of the whole glacierized landscape. In particular, understanding the current and future behaviour of debris-covered glaciers is a 'hot topic' in glaciological research because of concerns for water resources and glacier-related hazards. The state of these glaciers is closely related to various hazardous geomorphological processes which are relatively poorly understood. Understanding the implications of debris-covered glacier evolution requires a systems approach. This includes the interplay of various factors such as local geomorphology, ice ablation patterns, debris characteristics and glacier lake growth and development. Such a broader, contextualized understanding is prerequisite to identifying and monitoring the geohazards and hydrologic implications associated with changes in the debris-covered glacier system under future climate scenarios. This paper presents a comprehensive review of current knowledge of the debris-covered glacier landsystem. Specifically, we review state-of-the-art field-based and the remote sensing-based methods for monitoring debris-covered glacier characteristics and lakes and their evolution under future climate change. We advocate a holistic process-based framework for assessing hazards associated with moraine-dammed glacio-terminal lakes that are a projected end-member state for many debris-covered glaciers under a warming climate. [ABSTRACT FROM AUTHOR]

Published

2022

49. Murky waters: the impact of privatizing water use on environmental degradation and the exclusion of local communities in the Caribbean.

Author

Herrera Arango, Johana, Senent-De Frutos, Juan Antonio, and Molina, Elías Helo

Subjects

*WATER use, *ENVIRONMENTAL degradation, *WATER supply, *CLIMATE change, *ECOSYSTEMS, *WATER shortages, TROPICAL climate

Abstract

The effects of climate change on tropical ecosystems cannot be interpreted based on physical variables alone. Severe water shortages and deterioration of ecosystems are most acute in places where historical inequalities occur, such as unequal access to land and other goods and rights necessary for the livelihood of marginalized populations. This paper explores environmental transformations and their repercussions on water resources based on spatial analysis and fieldwork carried out in the Colombian Caribbean. We have engaged with peasant and Afro-descendant populations who have been excluded from water use and now face problems in sustaining their way of life. [ABSTRACT FROM AUTHOR]

Published

2022

50. Origins of Values Differences: A Two-Level Analysis of Economic, Climatic and Parasite Stress Explanations in the Value Domain.

Author

Fischer, Ronald

Subjects

*LABELING theory, *SOCIAL values, *SELF-perception, *ECOLOGY, *COGNITION, *TRANSCENDENCE (Philosophy), *SOCIOECONOMIC factors, *ECONOMICS, *WATER supply, *INCOME, *PARASITIC diseases, *VALUES (Ethics), *STATISTICAL models, *CULTURAL values, *CLIMATE change, *EDUCATIONAL attainment

Abstract

What variables are associated with cross-cultural differences in values at the individual level? In this study, the statistical effect of variables associated with ecological demands and available economic and cognitive resources on self-reported values are investigated in two independent samples to test the replicability of effects. Values are operationalized using a 10-item version inspired by Schwartz' value theory. The effects of national wealth, climatic demands, availability of cool water, and parasite stress at the national level are used to predict value scores of individuals within nations using nationally representative data from all inhabited continents (k = 49 and k = 58; N s = 64,491 and 81,991). Using mixed-effect models, new insights into individual- and nation-level dynamics in value scores are provided. First, the paper extends previous cultural theories to the individual level by investigating the effects of education and personal income as individual-level resources. Both personal income and education have strong direct effects on value scores. Second, higher education acts as a cognitive resource which turns climatic demands into challenges, effectively unpackaging nation-level theorizing with individual level dynamics. Third, contrary to previous nation-level research, parasite stress was not a significant predictor of individual-level values. Forth, supporting recent theorizing, individuals located in cool water regions reported significantly higher self-transcendence values. Fifth, the effects of wealth on openness values were convergent and reinforcing across levels (higher wealth is associated with more openness values), but operated in opposing directions for self-transcendence values (national wealth is associated with self-transcendent values, individual wealth is associated with self-enhancing values). The current patterns suggest that cultural research needs to pay more attention to individual versus nation-level dynamics and increase replication efforts with independent samples. [ABSTRACT FROM AUTHOR]

Published

2021