Abstract

PIP: 4 types of water scarcity exist. Aridity and intermittent droughts consist of the natural types while land desiccation and water stress are man-made types. Climatic aridity, intermittent droughts, land degradation, and population growth link to create growing critical water scarcity conditions. Specifically, in arid lands where only a limited growing season exists anyhow, increased and nonsustaining activities spurred on by population growth degrade soils resulting in interference with water recharge of the root zone. This combination precipitates intermittent droughts upsetting the water supply for plants and people. This occurs now in Africa to the degree that by 2025, 66% of people will experience severe water shortages. Policymakers in developing countries and bilateral and multilateral development agencies providing technical assistance need to understand these relationships. They must develop a new strategy which includes water resource assessments followed by upgraded water plans for optimal use of available water resources and by the creation of best land use criteria. Their challenge is to balance the acute needs of people with conserving the productivity of the resource base. Experience shows that maximizing agricultural production per unit of water instead of per unit of land can increase income and employment. For example, in India, a semiarid area produced, with a given amount of water, as much as 30 times the amount of crops if the crops had a low water demand (e.g., grapes and potatoes) rather than those with a high water demand (e.g., sugarcane). This microscale approach and other such approaches could help semiarid Africa. Yet decision makers must seriously consider the transferability of these approaches to the African cultural and geographical environment. More essential than that, however, is the very high levels of water stress caused by the rapid population growth in famine-prone African countries.

Similar articles

• Regional water scarcity -- a widely neglected challenge.

  Falkenmark M.Falkenmark M.People Planet. 1993;2(2):10-1.People Planet. 1993.PMID:12287007
• Population crisis and desertification in the Sudano-Sahelian region.

  Milas S.Milas S.Environ Conserv. 1984 Summer;11(2):167-9. doi: 10.1017/s0376892900013850.Environ Conserv. 1984.PMID:12285854
• Water in India with reference to agriculture and population: some issues and patterns -- dynamic approaches needed for development.

  Roy BK.Roy BK.GeoJournal. 1990 Mar;20(3):271-84. doi: 10.1007/BF00642992.GeoJournal. 1990.PMID:12317929
• The Impact of Climate Change on Raw and Untreated Wastewater Use for Agriculture, Especially in Arid Regions: A Review.

  Faour-Klingbeil D, Todd ECD.Faour-Klingbeil D, et al.Foodborne Pathog Dis. 2018 Feb;15(2):61-72. doi: 10.1089/fpd.2017.2389.Foodborne Pathog Dis. 2018.PMID:29446666Review.
• Global-scale water security and desertification management amidst climate change.

  Jain S, Srivastava A, Khadke L, Chatterjee U, Elbeltagi A.Jain S, et al.Environ Sci Pollut Res Int. 2024 Oct;31(49):58720-58744. doi: 10.1007/s11356-024-34916-0. Epub 2024 Sep 25.Environ Sci Pollut Res Int. 2024.PMID:39322930Review.

Cited by

• The effect of trees on preferential flow and soil infiltrability in an agroforestry parkland in semiarid Burkina Faso.

  Bargués Tobella A, Reese H, Almaw A, Bayala J, Malmer A, Laudon H, Ilstedt U.Bargués Tobella A, et al.Water Resour Res. 2014 Apr;50(4):3342-3354. doi: 10.1002/2013WR015197. Epub 2014 Apr 22.Water Resour Res. 2014.PMID:25641996Free PMC article.
• Assessing the sustainability of freshwater systems: A critical review of composite indicators.

  Vollmer D, Regan HM, Andelman SJ.Vollmer D, et al.Ambio. 2016 Nov;45(7):765-780. doi: 10.1007/s13280-016-0792-7. Epub 2016 Jun 1.Ambio. 2016.PMID:27250097Free PMC article.Review.
• Population-based study of intra-household gender differences in water insecurity: reliability and validity of a survey instrument for use in rural Uganda.

  Tsai AC, Kakuhikire B, Mushavi R, Vořechovská D, Perkins JM, McDonough AQ, Bangsberg DR.Tsai AC, et al.J Water Health. 2016 Apr;14(2):280-92. doi: 10.2166/wh.2015.165.J Water Health. 2016.PMID:27105413Free PMC article.
• Variations in household water affordability and water insecurity: An intersectional perspective from 18 low- and middle-income countries.

  Shah SH, Harris LM, Menghwani V, Stoler J, Brewis A, Miller JD, Workman CL, Adams EA, Pearson AL, Hagaman A, Wutich A, Young SL; Household Water Insecurity Experiences Research Coordination Network (HWISE RCN).Shah SH, et al.Environ Plan F Philos Theory Models Method Pract. 2023 Sep;2(3):369-398. doi: 10.1177/26349825231156900. Epub 2023 Mar 15.Environ Plan F Philos Theory Models Method Pract. 2023.PMID:38707600Free PMC article.
• Fog-to-Water for Water Scarcity in Climate-Change Hazards Hotspots: Pilot Study in Southeast Asia.

  Ismail Z, Go YI.Ismail Z, et al.Glob Chall. 2021 Mar 1;5(5):2000036. doi: 10.1002/gch2.202000036. eCollection 2021 May.Glob Chall. 2021.PMID:33976904Free PMC article.Review.

MeSH terms

• Administrative Personnel
• Africa
• Agriculture*
• Climate*
• Conservation of Natural Resources*
• Demography
• Developing Countries*
• Disasters*
• Environment
• Evaluation Studies as Topic*
• Organization and Administration*
• Population
• Population Dynamics
• Population Growth*
• Water Supply*

Related information

• Cited in Books

LinkOut - more resources

• Medical

  • MedlinePlus Health Information