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Title: Temperature and solar radiation effects on potential maize yield across locations

Journal Article · · Agronomy Journal; (USA)
 [1]; ;  [2]
  1. CSIRO, St. Lucia, Queensland (Australia)
  2. Univ. of Florida, Gainesville (USA)
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The objective of this analysis was to use a simple, mechanistic crop growth model to examine the effects of variation in solar radiation and temperature on potential maize (Zea mays L.) yield among locations. Crop phenology and leaf growth were calculated from daily mean temperature data obtained at the five locations studied. Daily biomass accumulation was calculated by estimating the amount of radiation intercepted and assuming maximum crop radiation use efficiency of 1.6 g MJ{sup {minus}1}. Grain yield accumulation was simulated using a linear increase in harvest index during grain filling. Observed and simulated grain yields were compared for several sowings at each of five locations ranging from latitude 14{degree}S to 40{degree}N lat. Averaged across sowings, respective observed and simulated oven-dry grain yields (g m{sup {minus}2}) were 816 and 830 at Katherine, Australia; 953 and 908 at Gainesville, FL; 1059 and 1106 at Quincy, FL; 1091 and 1119 at Champaign, IL; and 1580 and 1626 at Grand Junction, CO. Temperature primarily affected growth duration with lower temperature increasing the length of time that the crop could intercept radiation. The solar radiation response was related to the amount of incident radiation and to the fraction of radiation intercepted by the crop. In the tropics (Katherine), high temperature decreased the duration of growth and grain yield, despite high levels of radiation. Only at locations with low temperature and consequent long growth duration, and with high radiation were maize yields simulated to be more than 1,600 g m{sup {minus}2} (300 bushels per acre at 15.5% moisture).

OSTI ID:
5923499
Journal Information:
Agronomy Journal; (USA), Vol. 82:2; ISSN 0002-1962
Country of Publication:
United States
Language:
English

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Related Subjects

63 RADIATION, THERMAL, AND OTHER ENVIRON. POLLUTANT EFFECTS ON LIVING ORGS. AND BIOL. MAT.
60 APPLIED LIFE SCIENCES
99 GENERAL AND MISCELLANEOUS//MATHEMATICS, COMPUTING, AND INFORMATION SCIENCE
09 BIOMASS FUELS
PLANT GROWTH
MATHEMATICAL MODELS
AMBIENT TEMPERATURE
GREENHOUSE EFFECT
MAIZE
SOLAR RADIATION
THERMAL RADIATION
CEREALS
ELECTROMAGNETIC RADIATION
GRASS
GROWTH
LILIOPSIDA
MAGNOLIOPHYTA
PLANTS
RADIATIONS
STELLAR RADIATION
560200* - Thermal Effects
553000 - Agriculture & Food Technology
990200 - Mathematics & Computers
090000 - Biomass Fuels