Agricultural Breadbaskets Shift Poleward Given Adaptive Farmer Behavior Under Climate Change

Modern food production is spatially concentrated in global “breadbaskets”. A major unresolved question is whether these peak production regions will shift poleward as the climate warms, allowing some recovery of potential climaterelated losses. While agricultural impacts studies to date have focused...

Full description

Saved in:

Bibliographic Details
Published in:	Global change biology Vol. 28; no. 1; pp. 167 - 181
Main Authors:	Franke, James A, Minoli, Sara, Elliott, Joshua, Folberth, Christian, Gardner, Charles, Hank, Tobias, Izaurralde, R Cesar, Jaegermeyr, Jonas, Jones, Curtis D, Liu, Wenfeng, Olin, Stefan, Purgh, Thomas A M, Ruane, Alex C, Stephens, Haynes, Zabel, Florian, Moyer, Elizabeth J
Format:	Journal Article
Language:	English
Published:	Goddard Space Flight Center Wiley /American Geophysical Union 01-01-2022 Blackwell Publishing Ltd
Subjects:	Adaptation Adaptation, Psychological AgMIP Agricultural Science Agricultural Science, Forestry and Fisheries Agricultural Sciences Agriculture Annan lantbruksvetenskap Climate Change Climate models crop modeling Crop yield Crops, Agricultural Cultivars Earth Resources And Remote Sensing Environmental Sciences related to Agriculture and Land-use Farmers Food security Geography GGCMI Humans Intercomparison Jordbruksvetenskap Lantbruksvetenskap och veterinärmedicin Lantbruksvetenskap, skogsbruk och fiske Meteorology And Climatology Miljö- och naturvårdsvetenskap Other Agricultural Sciences Planting Productivity Regions Soybeans Agmip Crop Modeling Climate Change Ggcmi Adaptation adaptation crop modeling AgMIP GGCMI climate change
Online Access:	Get full text
Tags:	Add Tag No Tags, Be the first to tag this record!

Description
Summary:	Modern food production is spatially concentrated in global “breadbaskets”. A major unresolved question is whether these peak production regions will shift poleward as the climate warms, allowing some recovery of potential climaterelated losses. While agricultural impacts studies to date have focused on currently cultivated land, the Global Gridded Crop Model Intercomparison Project (GGCMI) Phase 2 experiment allows us to assess changes in both yields and the location of peak productivity regions under warming. We examine crop responses under projected end-of-century warming using 7 process-based models simulating 5 major crops (maize, rice, soybeans, and spring and winter wheat) with a variety of adaptation strategies. We find that in no-adaptation cases, when planting date and cultivar choices are held fixed, regions of peak production remain stationary and yield losses can be severe, since growing seasons contract strongly with warming. When adaptations in management practices are allowed (cultivars that retain growing season length under warming and modified planting dates), peak productivity zones shift poleward and yield losses are largely recovered. While most growing-zone shifts are ultimately limited by geography, breadbaskets studied here move poleward over 600 km on average by end of the century under RCP8.5. These results suggest that agricultural impacts assessments can be strongly biased if restricted in spatial area or in the scope of adaptive behavior considered. Accurate evaluation of food security under climate change requires global modeling and careful treatment of adaptation strategies.
Bibliography:	GSFC Goddard Space Flight Center Funding information NSF grant SES‐1463644, NSF NRT program (grant no. DGE‐1735359), NSF Graduate Research Fellowship Program (grant no. DGE‐1746045). NASA NNX16AK38G (INCA). European Research Council Synergy (grant no. ERC‐530 2013‐SynG‐610028 Imbalance‐P).
ISSN:	1354-1013 1365-2486
DOI:	10.1111/gcb.15868