Systematic review of current efforts to quantify the impacts of climate change on undernutrition

Revati K. Phalkey; Clara Aranda-Jan; Sabrina Marx; Bernhard Höfle; Rainer Sauerborn

doi:10.1073/pnas.1409769112

New Research In

Edited by Kristie L. Ebi, University of Washington, Seattle, WA, and accepted by the Editorial Board June 21, 2015 (received for review May 27, 2014)

Significance

The World Health Organization and the Intergovernmental Panel for Climate Change propose undernutrition as the most significant impact of climate change on child health. The question then arises: Where does the empirical evidence to back this claim come from? Current evidence for the impacts of climate on childhood undernutrition draws on a limited number of heterogeneous studies with methodological limitations and is based predominantly on secondary data. Establishing and validating causal pathways among complex confounding factors remain the main challenge in quantifying the climate-attributable fraction of undernutrition. Systematically generating evidence from long-term, high-quality primary data on a range of factors (agricultural, environmental, socioeconomic, and health) at the household level is critical for designing adaptation strategies, particularly for subsistence farmers.

Abstract

Malnutrition is a challenge to the health and productivity of populations and is viewed as one of the five largest adverse health impacts of climate change. Nonetheless, systematic evidence quantifying these impacts is currently limited. Our aim was to assess the scientific evidence base for the impact of climate change on childhood undernutrition (particularly stunting) in subsistence farmers in low- and middle-income countries. A systematic review was conducted to identify peer-reviewed and gray full-text documents in English with no limits for year of publication or study design. Fifteen manuscripts were reviewed. Few studies use primary data to investigate the proportion of stunting that can be attributed to climate/weather variability. Although scattered and limited, current evidence suggests a significant but variable link between weather variables, e.g., rainfall, extreme weather events (floods/droughts), seasonality, and temperature, and childhood stunting at the household level (12 of 15 studies, 80%). In addition, we note that agricultural, socioeconomic, and demographic factors at the household and individual levels also play substantial roles in mediating the nutritional impacts. Comparable interdisciplinary studies based on primary data at a household level are urgently required to guide effective adaptation, particularly for rural subsistence farmers. Systemization of data collection at the global level is indispensable and urgent. We need to assimilate data from long-term, high-quality agricultural, environmental, socioeconomic, health, and demographic surveillance systems and develop robust statistical methods to establish and validate causal links, quantify impacts, and make reliable predictions that can guide evidence-based health interventions in the future.

Footnotes

↵¹To whom correspondence should be addressed. Email: rphalkey{at}urz.uni-heidelberg.de.

Author contributions: R.K.P., S.M., B.H., and R.S. designed research; R.K.P. and C.A.-J. performed research; R.K.P., C.A.-J., and R.S. analyzed data; and R.K.P. wrote the paper.
The authors declare no conflict of interest.
This article is a PNAS Direct Submission. K.L.E. is a guest editor invited by the Editorial Board.
This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1409769112/-/DCSupplemental.

Freely available online through the PNAS open access option.