News Release

Optimal redistribution of nitrogen fertilizer among countries

Shifting some use of nitrogen from rich countries to poor countries would improve food security and environmental sustainability.

Peer-Reviewed Publication

PNAS Nexus

Redistributed nitrogen input map

image: 

Redistributed nitrogen input. Differences relative to current distribution by (a) maximized production of maize, rice, and wheat with current global nitrogen input (190 Tg/a) and (b) with the input reduced to within the proposed planetary boundary of 62 Tg/a, (c) with minimized input for current global production and (d) maximized production with the input reduced to within the upper boundary of the uncertainty zone of the proposed planetary boundary (82 Tg/a). 

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Credit: Kahiluoto et al

Shifting some use of nitrogen from rich countries to poor countries would improve food security and environmental sustainability, according to a study. Wealthy countries tend to use too much nitrogen fertilizer, which leads to climate change, water pollution, and biodiversity degradation. Poor countries lack sufficient nitrogen to attain proper crop yields. Helena Kahiluoto and colleagues quantified the optimal redistribution of nitrogen input for production of maize, rice, and wheat among countries and sub-national regions, using a set of nitrogen-yield response functions from an ensemble of empirically evaluated global gridded crop models. The authors modeled production for both the current level of nitrogen use and for lower levels deemed sustainable. In addition, the authors modeled the lowest possible use of nitrogen to achieve today’s level of food production. Optimal redistribution of today’s level of nitrogen use would increase global crop production by 12%. In this scenario, countries with moderate or severe food insecurity in more than half of the population would see eightfold increases in nitrogen use and 108–110% increases in food production. In eastern Asia, maximization of global production would reduce nitrogen input by half while production would decline only by 6%, with most of this decline occurring in China. The authors found that current levels of global maize, rice, and wheat production could be maintained with just 53–68% of the current nitrogen used, if the nutrient were redistributed. Reducing the optimally redistributed nitrogen use to 33–43% of the current input, as Earth system scientists advise, would entail a 7–16% drop in global production. According to the authors, this gap could be closed by supply-side measures such as spatial redistribution of cropland, nitrogen-efficient crops, production of seaweed and single-cell proteins, and by demand-side measures such as dietary shifts and food waste reduction. According to the authors, redistribution of nitrogen input has the potential to secure food availability and sovereignty while protecting the planet.


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