Ascorbic Acid

Background: Nutrient deficiencies limit human development and could be caused by the high cost of locally available foods needed to meet nutrient requirements. We aimed to identify the populations whose nutrient needs are most difficult to meet with existing global food systems.
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.