Water and sanitation

Water and sanitation are pivotal elements of the Sustainable Development Goals (SDGs), primarily encapsulated in SDG 6 (Clean Water and Sanitation). This goal seeks to ensure the availability and sustainable management of water and sanitation for all by 2030. This objective directly addresses the current global water crisis, where nearly 2.2 billion people live without access to safe water, and about 4.2 billion lack access to adequate sanitation.

By focusing on improving water quality, increasing water-use efficiency, implementing integrated water resources management at all levels, and protecting and restoring water-related ecosystems, SDG 6 addresses not only direct human needs but also the broader ecological health of the planet. Furthermore, efforts towards achieving SDG 6 indirectly promote several other SDGs.

For instance, water and sanitation are crucial to achieving SDG 3 (Good Health and Well-being), as clean water and proper sanitation facilities reduce the spread of water-borne diseases and significantly lower child and maternal mortality rates. Likewise, they are foundational to SDG 4 (Quality Education), given that the provision of water and sanitation facilities in schools significantly impacts the attendance and performance of students, particularly for girls.

SDG 2 (Zero Hunger) also intersects with water and sanitation, as sustainable and efficient water management is critical for agriculture, which remains the largest global water consumer. The necessity of water for food production and the potential impact of improved water management on crop yields and livestock health makes SDG 6 integral to achieving zero hunger.

SDG 6 contributes to SDG 1 (No Poverty) and SDG 8 (Decent Work and Economic Growth) as well. Access to clean water and sanitation can enhance economic productivity by reducing time spent gathering water, reducing healthcare costs due to water-related diseases, and even creating jobs in water and sanitation services sectors.

In terms of environmental impact, the sustainable management of water resources is essential for SDG 13 (Climate Action), as water is a key factor in managing climate change due to its role in agriculture and energy production.

Focussing on SDGs 9 (industry, innovation and infrastructure) and 11 (sustainable cities and communities), BEYOND 2020 endeavours to link the built environment sector to the SDGs.
This study supports SDGs 3 and 6 by identifying passive chlorination at the point of collection as an effective and scalable strategy for reducing diarrhoea in children and improving access to safe and affordable drinking water in a low-income urban setting.
This study supports SDG 1, 3, and 6 and by assessing socioeconomic determinants of leprosy risk in over 33 milion Brazilian individuals and providing a robust assessment of the contribution of deprivation to the risk of leprosy, which is classified as a rare disease.
SDG 6: Clean Water and Sanitation graphic showing key metrics for research into clean water and sanitation
The latest analysis of SDG-supporting research focusses on SDG 6: Clean Water and Sanitation. This graphic shows key metrics for research into clean water and sanitation.
RELX,

Environmental Challenge, August 2019.

RELX, a global provider of information-based analytics and decision tools for professional and business customers, has announced the winners of the 2019 RELX Environmental Challenge. The Challenge supports innovative solutions to improve SDG 6 (clean water and sanitation).
Linking to SDGs 6 (clean water and sanitation), 12 (responsible consumption and production) and 17 (partnerships for the goals), this website catalogues and facilitates water stewardship projects in river basins and regions around the world.
Elsevier,

Encyclopedia of Environmental Health (Second Edition), 2019, Pages 436-455

This chapters focuses on the consequences mining on river contamination in Bolivia. An unintended consequence of mining has been widespread contamination of riverine environments by toxic trace metals and metalloids. (e.g., arsenic, antimony, cadmium, mercury, lead, and zinc). The type, magnitude, and extent of contamination differ significantly between the humid to hyperhumid tropical rainforests in the north and the semiarid, heavily impacted, rivers in the south.
Elsevier, Current Opinion in Green and Sustainable Chemistry, Volume 18, August 2019
In the last couple of years, deep eutectic solvents (DESs) have been raising a lot of attention mainly due to their versatility and their easy and speedy preparation without the need of further purification. Moreover, the vast array of very different compounds that can be selected for their preparation has led to the full tailoring of their relevant properties as solvents.
This paper relates to remote sensing of water use and water stress in the African savanna ecosystem at a local scale, as well as the development and validation of a monitoring tool.
This event primarily focusses on SDG 9 (industry, innovation and infrastructure), exploring the technical and engineering challenges of addressing all 17 Sustainable Development Goals.

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