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Sustainable Management of Water Resources in Arid Environments—Innovative Approaches
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Sustainable Management of Water Resources in Arid Environments—Innovative Approaches

A special issue of Sustainability (ISSN 2071-1050). This special issue belongs to the section "Sustainable Water Management".

Deadline for manuscript submissions: closed (31 January 2024) | Viewed by 9747

Special Issue Editors

Prof. Dr. Mirza Barjees Baig

E-Mail Website
Guest Editor
Prince Sultan Institute for Environmental, Water & Desert Research, King Saud University, Riyadh 11451, Saudi Arabia
Interests: sustainable management of natural resources - soil and water; food security; sustainable agriculture; agricultural extension; education and communication; food waste
Dr. Mohamed Behnassi

E-Mail Website
Guest Editor
1. Senior Environmentalist Expert at Economic, Social and Environmental Council (ESEC), Rabat, Morocco
2. Director of Center for Environment, Human Security and Governance (CERES), Professor at Ministry of Higher Education and Innovation, Rabat, Morocco
Interests: arid ecosystems; water resources; extension education; environment, human security and governance
Prof. Dr. Shahbaz Khan

E-Mail Website
Guest Editor
Director of UNESCO Beijing and Rep to China, DPRK, Japan, Mongolia and Republic of Korea
Interests: arid ecosystems; water resources; environmental issues; climate change; soil and water management
Special Issues, Collections and Topics in MDPI journals

Special Issue Information

Dear Colleagues,

Arid lands cover about 41% of the earth’s surface and sustain over 900 million people. These regions are faced with persistent issues such as water scarcity, frequent droughts, high climatic variability, and degradation in the form of desertification and biodiversity loss. Many inhabitants of arid and semi-arid regions are poor and rely on agriculture and natural resources to survive. However, issues such as a lack of water, intense heat, frequent droughts, bare and marginal soil, topography that is sensitive to natural disasters, and wind and rain erosion significantly impact agriculture in these areas.

Crop yields in these regions are low due to infertile soils with weak structure, frequent droughts, and low and unpredictable rainfall, and the typical yearly rainfall cannot meet farmers’ minimum water needs. Crops in these areas frequently experience acute water stress during sensitive and vulnerable stages of growth, such as flowering and grain filling, which has a disastrous impact on agricultural yields. Droughts are another frequent occurrence in these areas, severely impacting almost all of Somalia, Eritrea, Djibouti, Ethiopia, Kenya, and Sudan.

Studies have shown that the agriculture industry is extremely susceptible to droughts because it depends on water availability. In addition to the impacts of variables such as pests, frost, floods, and other natural catastrophes, crop yields may be negatively impacted by drought. When a mild drought turns severe, the danger of yield loss quickly increases. It has been noted that a severe drought could result in crop losses of more than 70% for soybean and maize, and up to 68% and 64% for wheat and rice, respectively.

Several factors can impact the quality, quantity, availability, and distribution of water in arid and semi-arid areas. For instance, these areas rely heavily on rainfall, which varies in terms of its timing, location, volume, and duration. In semi-arid lands, major crop failure is caused by a lack of rainfall or by brief intervals of rainfall during the various stages of crop production. The most frequent crop production constraints in arid and semi-arid regions are the delayed onset of rainfall or long dry spells after early sowing; long gaps between two successive rain showers in the vegetative stages; the early cessation of rainfall; and crop water stress in the mature stage. Droughts and frequent dry spells increase crop failure, which contributes to food insecurity and poverty.

Rainwater in these areas is often of little use for crop plants because it either does not penetrate the soil deeply enough, moves swiftly through porous sandy soils, or immediately runs off. In semi-arid environments, fast flooding is exacerbated by short-lived, high-intensity rainstorms with little surface vegetation cover. Additionally, rivers, lakes, and wells in dry and semi-arid areas may be of poor quality, particularly if there are too many minerals present. Using these water sources for irrigation could result in salt accumulation.

Salt accumulation in the soil could cause salinity or alkalinity in water used for irrigation, leading to restricted agricultural growth. The majority of salt-affected lands are dry, arid, or semi-arid lowland regions with insufficient or unreliable rainfall, hindering sustained agricultural production. The rapid rate of evaporation in these areas concentrates the mineral components in the irrigation water, which might increase the effects of alkalinity or salinity. Short-season heavy rainfall may also cause significant erosion and the annual loss of productive soil. Large surface runoff causes poor crop root condition in early crop stages and high soil loss and precipitation during high-intensity storms. The resulting decrease in crop yields and income make it difficult for farmers to make a living.

Scientific studies have been published and cultural practices updated to maintain agricultural output in the affected locations, and successful farming practices have been identified, including soil and water conservation, rainwater gathering and supplemental irrigation, the adoption of crops that can withstand stress, and the integration of various farming systems. However, agricultural constraints must still be addressed and management actions designed to resolve such persistent problems in agriculture. Affordable and practical solutions are imperative for the development of resilient and adaptive techniques to minimize the effects of drought on crop yields.

There is still a significant knowledge gap to be filled by scientists, and researchers, and academics in order for information to be exchanged among stakeholders.

  1. The aim of this Special Issue is to compile the experiences of scientists, researchers, and academics to facilitate the achievement of sustainable yields in arid and semi-arid regions.
  2. We hope that the information collected in this Special Issue will close the knowledge gap and act as a foundation for achieving sustainability, ensuring food security, and enhancing the standard of living of underprivileged people.
  3. We hope that this Special Issue will serve as a source of information for policy makers, planners, scientists, researchers, academics, students, extension workers, and innovative farmers.

We welcome original research and reviews, with possible research areas including:

Water Resources

  • Innovative methods for rain and runoff water modelling.
  • Assessment and control of radioactive contamination in groundwater.
  • Innovative methods for water production from non-traditional water resources.
  • Remote sensing and GIS applications for water resource management.
  • Water harvesting and groundwater recharge.

Water Conservation

  • Water conservation in the agricultural, industrial, and municipal sectors.
  • New technologies and methods for water conservation.

Arid Environments

  • Pollution of desert environments.
  • Climate change and its impact on desert environments.
  • Plant cover in arid environments.
  • Conservation of biodiversity in arid environments.
  • Strategies for combating desertification.

Utilization of New Technologies in the Study of Arid Environments and their Natural Resources

  • Remote sensing (systems and techniques).
  • Geographical information systems (GIS) and global positioning systems (GPS).
  • Modern measuring systems and devices.
  • Utilization of sustainable energy in water resource development.

We look forward to receiving your contributions.

Prof. Dr. Mirza Barjees Baig
Dr. Mohamed Behnassi
Prof. Dr. Shahbaz Khan
Guest Editors

Manuscript Submission Information

Manuscripts should be submitted online at www.mdpi.com by registering and logging in to this website. Once you are registered, click here to go to the submission form. Manuscripts can be submitted until the deadline. All submissions that pass pre-check are peer-reviewed. Accepted papers will be published continuously in the journal (as soon as accepted) and will be listed together on the special issue website. Research articles, review articles as well as short communications are invited. For planned papers, a title and short abstract (about 100 words) can be sent to the Editorial Office for announcement on this website.

Submitted manuscripts should not have been published previously, nor be under consideration for publication elsewhere (except conference proceedings papers). All manuscripts are thoroughly refereed through a single-blind peer-review process. A guide for authors and other relevant information for submission of manuscripts is available on the Instructions for Authors page. Sustainability is an international peer-reviewed open access semimonthly journal published by MDPI.

Please visit the Instructions for Authors page before submitting a manuscript. The Article Processing Charge (APC) for publication in this open access journal is 2400 CHF (Swiss Francs). Submitted papers should be well formatted and use good English. Authors may use MDPI's English editing service prior to publication or during author revisions.

Keywords

  • arid environments
  • water resources
  • technologies
  • crops
  • irrigation
  • water harvesting
  • GIS and remote sensing
  • salinity
  • enhancing WUE

Published Papers (4 papers)

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Research

43 pages, 2727 KiB  
Article
A Sustainable Water Resources Management Assessment Framework (SWRM-AF) for Arid and Semi-Arid Regions—Part 1: Developing the Conceptual Framework
by Badir S. Alsaeed, Dexter V. L. Hunt and Soroosh Sharifi
Sustainability 2024, 16(7), 2634; https://doi.org/10.3390/su16072634 - 22 Mar 2024
Viewed by 586
Abstract
The evaluation of water resources management practices is essential for water usage decisions in regions with limited water resources. The literature provides numerous assessment frameworks, but many ignore the unique characteristics and conditions of some special arid and semi-arid regions, such as the [...] Read more.
The evaluation of water resources management practices is essential for water usage decisions in regions with limited water resources. The literature provides numerous assessment frameworks, but many ignore the unique characteristics and conditions of some special arid and semi-arid regions, such as the Gulf Cooperation Council (GCC) countries, which lack any permanent rivers or lakes. Thus, this study, the first in a two-part series, seeks to develop a conceptual Sustainable Water Resources Management Assessment Framework (SWRM-AF). General and particular criteria explain how components and indicators were identified. The conceptual SWRM-AF provided here has four components (environment, economy, society, and infrastructure) and 24 indicators. Almost every indicator has been selected from the literature and is briefly explained and justified. This research presents, possibly for the first time, clear and straightforward directions for evaluating each indicator in colour-coded tables. To create a more holistic framework for arid and semi-arid regions, social indicators like “intervention acceptability” and environmental indicators for assessing the impacts of desalination treatment plants have been added to form a unique framework applicable to such regions. Therefore, the components and indicators of conceptual SWRM-AF could work collectively to aid the process of decision-making. The next phase is validating this framework using a participatory approach. Full article
(This article belongs to the Special Issue Sustainable Management of Water Resources in Arid Environments—Innovative Approaches)
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25 pages, 450 KiB  
Article
Sustainable Approaches for Wastewater Treatment: An Analysis of Sludge-Based Materials for Heavy Metal Removal from Wastewater by Adsorption
by R. M. A. S. Dhananjana Rajakaruna, B. G. N. Sewwandi, Mohamed M. M. Najim, Mirza Barjees Baig, Bader Alhafi Alotaibi and Abou Traore
Sustainability 2023, 15(20), 14937; https://doi.org/10.3390/su152014937 - 16 Oct 2023
Cited by 3 | Viewed by 1503
Abstract
A comprehensive study incorporating results from different findings related to heavy metal removals from wastewater using sludge as an absorbent will assist researchers and practitioners in planning wastewater treatment processes. This study aims to provide a comprehensive foundation on the potential of using [...] Read more.
A comprehensive study incorporating results from different findings related to heavy metal removals from wastewater using sludge as an absorbent will assist researchers and practitioners in planning wastewater treatment processes. This study aims to provide a comprehensive foundation on the potential of using sludge-based materials to remove heavy metals from wastewater based on recent studies. The physicochemical properties of sludge and the nature of metal ions have significantly contributed to the adsorption of heavy metals into sludge-based materials. Many researchers found the effects of pH, temperature, initial heavy metal concentrations, contact time, and adsorbent dose on the adsorption characteristics of heavy metals into sludge-based materials. Isotherm, kinetic, and thermodynamic studies have explained the mechanism of heavy metal adsorption by sludge-based materials. The effectiveness of regeneration of sludge-based adsorbents has been investigated by some researchers, providing an environmentally friendly solution to remove heavy metals from wastewater. It was found that less attention has been paid to metal recovery and recycling of sludge-based adsorbents, which indicates the need for future studies to enhance the reusability of sludge in wastewater treatment. Moreover, many studies have been conducted as lab-scale experiments on heavy metal adsorption from aqueous solutions using sludge-based adsorbents, leaving a research gap for future studies to focus on the removal of heavy metals from actual wastewater at field scale. Full article
(This article belongs to the Special Issue Sustainable Management of Water Resources in Arid Environments—Innovative Approaches)
16 pages, 4202 KiB  
Article
Mapping of Evapotranspiration and Determination of the Water Footprint of a Potato Crop Grown in Hyper-Arid Regions in Saudi Arabia
by Rangaswamy Madugundu, Khalid A. Al-Gaadi, ElKamil Tola, Salah El-Hendawy and Samy A. Marey
Sustainability 2023, 15(16), 12201; https://doi.org/10.3390/su151612201 - 09 Aug 2023
Cited by 1 | Viewed by 991
Abstract
Seasonal quantification of a crop’s evapotranspiration (ET) and water footprint (WF) is essential for sustainable agriculture. Therefore, this study was conducted to estimate the ET and WF of an irrigated potato crop using satellite imagery of Landsat and Sentinel-2 sensors. The Simplified Surface [...] Read more.
Seasonal quantification of a crop’s evapotranspiration (ET) and water footprint (WF) is essential for sustainable agriculture. Therefore, this study was conducted to estimate the ET and WF of an irrigated potato crop using satellite imagery of Landsat and Sentinel-2 sensors. The Simplified Surface Energy Balance (SSEB) algorithm was used to evaluate the crop water use (ETa) for potato fields belonging to the Saudi Agricultural Development Company, located in the Wadi-Ad-Dawasir region, Saudi Arabia. Normalized difference vegetation index (NDVI), soil-adjusted vegetation index (SAVI), and land surface temperature (LSD) were computed for Landsat and Sentinel-2 datasets, which were used as inputs for mapping the potato tuber yield and, subsequently, the WF. The results indicated that the NDVI showed the best accuracy for the prediction of the potato tuber yield (R2 = 0.72, P > F = 0.021) followed by the SAVI (R2 = 0.64, P > F = 0.018), compared to the field harvested actual yield (YA). A comparison between the satellite-based ETa and the actual amount of water applied (WA) for irrigation showed a good correlation (R2 = 0.89, RMSE = 4.4%, MBE = 12.9%). The WF of the potatoes in the study area was estimated at values between 475 and 357 m3 t−1 for the early (September–December) and late (December–April) growing periods, respectively. A major portion (99.2%) of the WF was accounted for from irrigation with variations of 18.5% and 3.5% for early- and late-planted potatoes, respectively, compared to the baseline (crop planted in season). In conclusion, the results showed the possibility of satisfactorily estimating the WF using the SSEB algorithm by integrating the Landsat-8 and Sentinel-2 datasets. In general, the high rates of ET in the early planting season led to higher WF values compared to the in-season and late planting dates; this will help in selecting suitable planting dates for potato crops in the study area and areas with similar environments, which enhances the opportunities for sustainable management of irrigation water. Full article
(This article belongs to the Special Issue Sustainable Management of Water Resources in Arid Environments—Innovative Approaches)
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16 pages, 1026 KiB  
Article
Water Scarcity Management to Ensure Food Scarcity through Sustainable Water Resources Management in Saudi Arabia
by Bader Alhafi Alotaibi, Mirza Barjees Baig, Mohamed M. M. Najim, Ashfaq Ahmad Shah and Yosef A. Alamri
Sustainability 2023, 15(13), 10648; https://doi.org/10.3390/su151310648 - 06 Jul 2023
Cited by 8 | Viewed by 5218
Abstract
Saudi Arabia (SA) faces a water shortage, and it further challenges sustainable agriculture, industrial development and the well-being of people. SA uses more than 80% of its water resources for agricultural purposes. Groundwater extractions account for most of this demand, which is not [...] Read more.
Saudi Arabia (SA) faces a water shortage, and it further challenges sustainable agriculture, industrial development and the well-being of people. SA uses more than 80% of its water resources for agricultural purposes. Groundwater extractions account for most of this demand, which is not sustainable. Hence, this study aims to analyze water management practices used in SA to propose viable and workable solutions to achieve sustainable management of scarce water resources. This study is based on a critical evaluation of information available on the water sector in SA. About 89% of the water demand in the Kingdom is non-sustainably met through over-pumping from groundwater resources and 9.3% by energy-intensive desalination. SA invested in dams and developed rainwater harvesting to enhance surface water availability and increase the recharge capacity of renewable aquifers. As there is a huge demand–supply gap, water demand management tools are the viable solutions leading to sustainability compared to supply enhancement that is capital intensive. A national agricultural policy, together with a water policy, can make agricultural systems more input efficient with higher productivity. Region-specific sustainable water resources management plans need to be implemented to match the demand–supply gap. Conjunctive water uses utilizing and prioritizing different water sources viz. harvested rainwater, treated wastewater, desalinized water, and groundwater, is vital in sustainable water resources management. In addition, climate change has exerted pressure on the available water resources and water uses as well as users, leading to adaptation for measures that are more sustainable in terms of water management. The most pressing problem SA faces in water resources management is the depletion and degradation of surface and subsurface water sources. SA has to implement many technological and legislative changes in addition to service management, conservation measures, paying a reasonable and justifiable price for water, and strengthening state agencies that will make water resources management in SA sustainable. Full article
(This article belongs to the Special Issue Sustainable Management of Water Resources in Arid Environments—Innovative Approaches)
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