Quantifying the interactive impacts of global dimming and warming on wheat yield and water use in China

Quantifying the interactive impacts of global dimming and warming on wheat yield and water use in China

•Wheat growth and yield was simulated under changing solar radiation levels in China.•Simulated yields remained unchanged or increased under dry climate and high solar radiation.•Simulated yields declined with declining solar radiation under wet condition and low solar radiation.•Evapotranspiration...

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Bibliographic Details
Published in:Agricultural and forest meteorology Vol. 182-183; pp. 342 - 351
Main Authors: Yang, Xiaoya, Asseng, Senthold, Wong, Mike Ting Fook, Yu, Qiang, Li, Jun, Liu, Enmin
Format: Journal Article
Language:English
Published: Elsevier B.V 01-12-2013
Subjects:
aerosols
APSIM-Nwheat
Atmospherics
China
Climate change
Dimming
Evapotranspiration
grain yield
Grains
industrialization
production technology
rain
Simulation
Solar radiation
temperature
Triticum aestivum
Water use
Water use efficiency
Wheat
Wheat yield
China, People's Rep., Beijing
Water use efficiency
Solar radiation
Wheat yield
APSIM-Nwheat
Evapotranspiration
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Summary:•Wheat growth and yield was simulated under changing solar radiation levels in China.•Simulated yields remained unchanged or increased under dry climate and high solar radiation.•Simulated yields declined with declining solar radiation under wet condition and low solar radiation.•Evapotranspiration always decreased with declining solar radiation. Solar radiation has been declining across many parts of the world over the last 50 years as a consequence of industrialization increasing atmospheric aerosols, known as ‘global dimming’. This study evaluates the impact of ‘global dimming’ and climate change on wheat yield and water use in China during the past decades using the Agricultural Production Systems Simulator. Three regions, Beijing, Chengdu and Urumqi were selected to represent three different patterns of climate-light environments in China. The decline in solar radiation was in conjunction with a warming trend during the past decades. Solar radiation during the wheat season declined by 20, 27 and 10% at Beijing, Chengdu and Urumqi, respectively, during the past four decades. Minimum temperature increased during the same period by 3.9, 1.5 and 2.3°C, respectively. The reduction in solar radiation had no significant impact on simulated wheat yields in the Beijing region while simulated grain yields in the Chengdu region decreased by 32%. Variation of solar radiation explained 74% of changes in grain yield at Chengdu. Simulated grain yields in the Urumqi region increased by 24% during the last decades due to increasing minimum temperature and rainfall. Simulated evapotranspiration declined with the decline of solar radiation. Water use efficiency increased at Beijing and Urumqi, with no significant change at Chengdu. Declining solar radiation from high radiation levels had no effect on wheat yield but improved water use efficiency, while under low radiation levels grain yields decreased significantly.
Bibliography:http://dx.doi.org/10.1016/j.agrformet.2013.07.006
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0168-1923
1873-2240
DOI:10.1016/j.agrformet.2013.07.006