Methodologies for simulating impacts of climate change on crop production

► We reviewed 221 papers that used crop models to assess impacts of climate change. ► Crops most frequently assessed were wheat, maize, soybean and rice. ► Models predominantly used radiation use efficiency-based approaches. ► Assumed low baseline [CO 2] may exaggerate projected impacts of increased...

Full description

Saved in:
Bibliographic Details
Published in:Field crops research 2011-12, Vol.124 (3), p.357-368
Main Authors: White, Jeffrey W., Hoogenboom, Gerrit, Kimball, Bruce A., Wall, Gerard W.
Format: Article
Language:English
Subjects:
adaptation
Adaptation, Agricultural impacts, Climate change, Crop growth simulation, Global warming, Modeling
agricultural forecasts
canopy
carbon dioxide
climate
computer software
corn
crop models
crop production
crop rotation
crops
cultivars
food production
food security
global warming
greenhouse gas emissions
issues and policy
Oryza sativa
planting date
prediction
radiation use efficiency
researchers
rice
risk
risk factors
Ruta graveolens
soil resources
soybeans
stakeholders
stomatal conductance
temperature
tillage
Triticum aestivum
wheat
Zea mays
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:► We reviewed 221 papers that used crop models to assess impacts of climate change. ► Crops most frequently assessed were wheat, maize, soybean and rice. ► Models predominantly used radiation use efficiency-based approaches. ► Assumed low baseline [CO 2] may exaggerate projected impacts of increased [CO 2]. ► Coordinated data resources and model intercomparisons may enhance impact studies. Ecophysiological models are widely used to forecast potential impacts of climate change on future agricultural productivity and to examine options for adaptation by local stakeholders and policy makers. However, protocols followed in such assessments vary to such an extent that they constrain cross-study syntheses and increase the potential for bias in projected impacts. We reviewed 221 peer-reviewed papers that used crop simulation models to examine diverse aspects of how climate change might affect agricultural systems. Six subject areas were examined: target crops and regions; the crop model(s) used and their characteristics; sources and application of data on [CO 2] and climate; impact parameters evaluated; assessment of variability or risk; and adaptation strategies. Wheat, maize, soybean and rice were considered in approximately 170 papers. The USA (55 papers) and Europe (64 papers) were the dominant regions studied. The most frequent approach used to simulate response to CO 2 involved adjusting daily radiation use efficiency (RUE) and transpiration, precluding consideration of the interacting effects of CO 2, stomatal conductance and canopy temperature, which are expected to exacerbate effects of global warming. The assumed baseline [CO 2] typically corresponded to conditions 10–30 years earlier than the date the paper was accepted, exaggerating the relative impacts of increased [CO 2]. Due in part to the diverse scenarios for increases in greenhouse gas emissions, assumed future [CO 2] also varied greatly, further complicating comparisons among studies. Papers considering adaptation predominantly examined changes in planting dates and cultivars; only 20 papers tested different tillage practices or crop rotations. Risk was quantified in over half the papers, mainly in relation to variability in yield or effects of water deficits, but the limited consideration of other factors affecting risk beside climate change per se suggests that impacts of climate change were overestimated relative to background variability. A coordinated crop, climate and soil data resource w
ISSN:0378-4290
1872-6852
DOI:10.1016/j.fcr.2011.07.001