Publication Date:
2019-11-27
Description:
Wheat grain protein concentration is an important determinant of wheat quality for
human nutrition that is often overlooked in efforts to improve crop production. We
tested and applied a 32multimodel ensemble to simulate global wheat yield and
quality in a changing climate. Potential benefits of elevated atmospheric CO2 concentration
by 2050 on global wheat grain and protein yield are likely to be negated
by impacts from rising temperature and changes in rainfall, but with considerable disparities between regions. Grain and protein yields are expected to be lower and
more variable in most lowrainfall regions, with nitrogen availability limiting growth
stimulus from elevated CO2. Introducing genotypes adapted to warmer temperatures
(and also considering changes in CO2 and rainfall) could boost global wheat
yield by 7% and protein yield by 2%, but grain protein concentration would be
reduced by 1.1 percentage points, representing a relative change of 8.6%. Climate
change adaptations that benefit grain yield are not always positive for grain
quality, putting additional pressure on global wheat production.
Keywords:
Meteorology and Climatology
Type:
GSFC-E-DAA-TN64355
,
Global Change Biology (ISSN 1354-1013) (e-ISSN 1365-2486); 25; 1; 155-173
Format:
text
Permalink