More than 820 million people in the world don’t have enough to eat, while climate change and increasing competition for land and water are further raising concerns about the future balance between food demand and supply. The results of a new study by Wageningen University and Research published in Nature Food can be used to benchmark global food security projections and inform policy analysis and public debate on the future of food.
Even though food supply has increased dramatically since the 1960s, the question of how to eradicate global hunger- one of the Sustainable Development Goals ̶ and feed the growing world population in years to come, remains a major challenge. Climate change and increasing competition for land and water are further exacerbating the problem. This makes the need for effective policies to ensure global food security and a better understanding of the underlying causes of global hunger ever more urgent.
Food demand and risk of hunger
Scientists typically use quantified global scenarios and projections to assess long-term future global food security under a range of socioeconomic and climate change scenarios. However, due to differences in model design and scenario assumptions, there is uncertainty about the range of future food demand and population at risk of hunger.
This study, which has been published in the journal Nature Food, focused on these two key food security indicators. Future food demand is a key driver of the required increase in food production and associated impacts on land use change, biodiversity and climate change. Population at risk of hunger ̶ is an indicator of the number of people that face chronic food insecurity. To address this uncertainty, Wageningen researcher Michiel van Dijk and colleagues conducted a systematic literature review and meta-analysis to assess the range of future global food security projections to 2050.
Range of future food demand
“Our study aimed to determine the range of future global food demand and population at risk of hunger projections to 2050. To answer this question, we analyzed 57 studies published between 2000 and 2018. We harmonized all projections and mapped them into the several highly divergent but plausible socioeconomic futures, including sustainable, business-as-usual and divided-world scenarios”, Van Dijk explains.
The study’s findings provide strong support for the view that food demand will increase by between 35% and 56% over the period 2010-2050. This is mainly due to population growth, economic development, urbanization, and other drivers. This range is somewhat lower than previous studies, which stated that food production must be doubled. Nonetheless, the expected increase in food demand may still have negative impacts on the environment and lead to biodiversity loss
In order to prevent such impacts, increases in food production would need to be accompanied by policies and investments that promote sustainable intensification, reduce food loss and waste and promote the shift towards a more plant-based diet.
Increase of hunger
In the most negative scenarios, the population at risk of hunger is expected to increase by 8% over the 2010-2050 period. This means that the Sustainable Development Goal of ending hunger and achieving food security will not be achieved. To prevent this, the researchers urge policymakers to work proactively to develop adequate long-term measures, including stimulating inclusive growth.
“Our study can fuel the public debate on the future of food by inviting every citizen to imagine and discuss a wider range of food future scenarios, rather than just a binary choice between business-as-usual and the universal adoption of organic agriculture or vegan diets. To think responsibility and creatively about the future, we need to envision multiple plausible scenarios and evaluate their consequences,” notes study co-author Yashar Saghai, a researcher at the University of Twente, Enschede, the Netherlands.
Covid impact on hunger
Although the study did not explicitly investigate the impacts of the COVID-19 pandemic, the researchers say that it is plausible that their range also includes the now more likely negative COVID-induced futures that are associated with an increase in the population at risk of hunger, instead of a decrease that was considered in the pre-COVID situation.
“While it is too early to oversee and understand the full impact and consequences of the coronavirus pandemic, current developments show some resemblance to the most negative archetype scenarios in our analysis, which is characterized by slow economic development, a focus on domestic security and national sovereignty, and increasing inequality. Recent developments underscore the need for (quantitative) scenario analysis and comparison as a tool to inform policy analysis, coordination, and planning for the future of food as well as wider societal issues,” Van Dijk concludes.