This study analyses on a global scale (considering more than 10,000 sub-basins) potential impacts of nitrate pollution on drinking water scarcity in 2010 and under different future climate and socio-economic scenarios in the 2050 horizon.

Most research on scarcity focuses exclusively on the quantity of the resource. This work underlines the enormous importance of considering water quality in future water management policies for sustainable development. It will therefore contribute to raising awareness of the need to advance policies aimed at improving water status in order to preserve this vital resource. In Europe, the entry into force of the European Water Framework Directive (2000) was an important step in the consideration of quality and quantity aspects in water resources management policies in member states, although much remains to be done. As this study shows, drinking water scarcity has an important component due to nitrate pollution and will be exacerbated in the future.

To analyse the effect of pollution on scarcity, the article focuses exclusively on the study of nitrates, which is the primary cause of poor chemical status or risk of achieving it in most surface and groundwater bodies. Agriculture is the main consumptive use of water resources in most countries, and the main driver of nitrate pollution (in this work it was estimated that 69 % of nitrate pollution in 2010 was of agricultural origin). Necessary agricultural use is therefore one of the main drivers of scarcity in most of the basins studied. Although nitrates are the main cause of the poor status of water bodies, there are many other pollutants (chlorides, emerging pollutants, etc.), which make the water undrinkable. Therefore, the effect of quality on scarcity is even greater than that analysed in this work, which is limited to the analysis of nitrate impacts.

Work such as this, with a global-scale modelling, allows us to focus on the need to consider quality in general policies, and to identify hotspots, critical areas where more detailed analysis is needed. Here, the use of hydrological and management models appropriate to the scale of the study will help to move towards more rational and transparent decision-making in the current context of climate change. In this regard, a comprehensive analysis of conjunctive use strategies in which groundwater can play a strategic role for adaptation should be undertaken. 

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