Ocean desalination as a solution to water crisis

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About ocean desalination technology-

• The centuries-old concept uses thermal distillation or a reverse osmosis membrane to separate salt from the sea.
• The technique is now being utilized globally, with well over 20,000 desalination plants currently operating in over 170 countries — the 10 largest in Saudi Arabia, the United Arab Emirates (UAE) and Israel. 

• Around 47% of the world’s desalinated water is produced in the Middle East and North Africa alone, Manzoor Qadir, deputy director of the United Nations University Institute for Water, Environment and Health, told DW.
• These arid regions have few other options since they generate less than 500 cubic meters of water per capita through rainfall or river runoff — which is half the upper limit of water scarcity as defined by the UN. The United States, by contrast, produces 1,207 cubic meters of freshwater per person.
• Water poverty is set to worsen as populations increase along with temperatures, with Sub-Saharan Africa predicted to become a hotspot of water scarcity by 2050.
• It is a great option in terms of enhancing water resources & costs have “decreased tremendously” from around $5 ($4.69) per cubic meter (1,000 liters) in the 2000s to 50 cents today.
• For countries like Cyrpus, there’s no other option if they want to maintain this living standard. The hottest and driest nation in the EU, Cyprus relies on desalination for 80% of its drinking water.

Impacts of desalination on the marine and climate-

• Before becoming a magic bullet for water scarcity, desalination presents some serious environmental trade-offs in its current guise.
• Firstly, separating salt from water is highly energy intensive.
• A 2021 study on the environmental consequences of removing salt from seawater in Cyprus co-authored by Kuepper showed that the four desalination plants in the country generate around 2% of its total greenhouse gas emissions. The plants also accounted for 5% of the total electricity consumption in Cyprus, representing one of the largest shares by sector of electricity consumption, according to the study.
• Furthermore, the report notes that desalinated water produced generated around 103 million cubic meters of toxic, high-salinity brine effluent that impacted the Mediterranean seagrass ecosystem in the region of the discharge pipes.
• Increased salinity, combined with climate-driven temperature rise, can cause a decrease in the dissolved oxygen content, resulting in conditions called hypoxia.
• This hypersaline water can sink to the ocean bed and kill marine microorganisms that are vital to the entire food chain. 
• In addition, chemical compounds such as copper and chloride are also observable in the desalination pre-treatment process and can be toxic to organisms in the receiving water, according to the report.

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