Toward a more resilient agriculture
MetadataShow full item record
Bennett B, Carpenter SR, Gordon LJ, Ramankutty N, Balvanera P, Campbell B, Cramer W, Foley J, Folke C, Karlberg L, Liu J, Lotze-Campen H, Mueller ND, Peterson GD, Polasky S, Rockström J, Scholes RJ, Spierenburg M. 2014. Toward a more resilient agriculture. Solutions 5(5):65-75.
Permanent link to cite or share this item: https://hdl.handle.net/10568/68167
External link to download this item: http://www.thesolutionsjournal.com/node/237202
Agriculture is a key driver of change in the Anthropocene. It is both a critical factor for human well-being and development and a major driver of environmental decline. As the human population expands to more than 9 billion by 2050, we will be compelled to find ways to adequately feed this population while simultaneously decreasing the environmental impact of agriculture, even as global change is creating new circumstances to which agriculture must respond. Many proposals to accomplish this dual goal of increasing agricultural production while reducing its environmental impact are based on increasing the efficiency of agricultural production relative to resource use and relative to unintended outcomes such as water pollution, biodiversity loss, and greenhouse gas emissions. While increasing production efficiency is almost certainly necessary, it is unlikely to be sufficient and may in some instances reduce long-term agricultural resilience, for example, by degrading soil and increasing the fragility of agriculture to pest and disease outbreaks and climate shocks. To encourage an agriculture that is both resilient and sustainable, radically new approaches to agricultural development are needed. These approaches must build on a diversity of solutions operating at nested scales, and they must maintain and enhance the adaptive and transformative capacity needed to respond to disturbances and avoid critical thresholds. Finding such approaches will require that we encourage experimentation, innovation, and learning, even if they sometimes reduce short-term production efficiency in some parts of the world.
CGIAR Author ORCID iDs
Bruce M Campbellhttps://orcid.org/0000-0002-0123-4859
- CCAFS Journal Articles