The tolerance of wheat to high temperatures during reproductive growth. I. Survey procedures and general response patterns

Selected cultivars of wheat from both a wide geographic and genetic background were examined under controlled conditions in the Canberra phytotron, for their response to high temperature at three stages of development: booting (late ear development), anthesis (pollination and fertilization) and grain growth (from 6 days after anthesis to maturity). The overall response to temperature, based on 28 cultivars from Afghanistan, Australia, Europe, India, Mexico, the Middle East and north Africa, demonstrated the sensitivity ofgrain number to high temperature during booting and the sensitivity of weight per grain to high temperature after anthesis. The data indicate a general reduction in yield per ear of 3-4% for each 1°C rise in temperature above a mean of 15°C. The response to temperature varied with the stage of development, and some cultivars sensitive to high temperature at booting were amongst the least sensitive during grain development. Also, the temperature response was found to be dependent on light, with an enhanced sensitivity to high temperature at low irradiance (<lo MJ m-2 day-'). The data did not reveal any clear relationship between the response to temperature, and weight per grain, the number of grains in a head, or grains per spikelet of control (1 81 13°C) plants.

[1]  Rf Williams,et al.  The effect of temperature stress on grain development in wheat , 1965 .

[2]  I. Wardlaw The Early Stages of Grain Development in Wheat: Response to Water Stress in a Single Variety , 1971 .

[3]  H. Rawson,et al.  Contrasting Responses of Morphologically Similar Wheat Cultivars to Temperatures Appropriate to Warm Temperature Climates With Hot Summers: a Study in Controlled Environment , 1977 .

[4]  R. Gleadow,et al.  Effects of Drought and High Temperature on Grain Growth in Wheat , 1984 .

[5]  J. J. Chinoy Correlation between Yield of Wheat and Temperature during Ripening of Grain , 1947, Nature.

[6]  R. Fischer Physiological limitations to producing wheat in semitropical and tropical environments and possible selection criteria , 1985 .

[7]  C. Wiegand,et al.  Duration of Grain Filling and Kernel Weight of Wheat as Affected by Temparature1 , 1980 .

[8]  R. Fischer,et al.  Effect of environment and cultivar on source limitation to grain weight in wheat , 1978 .

[9]  R. Fischer Yield Potential in a Dwarf Spring Wheat and the Effect of Shading1 , 1975 .

[10]  I. Wardlaw The early stages of grain development in wheat: response to light and temperature in a single variety. , 1970 .

[11]  H. Saini,et al.  Abnormal Sporogenesis in Wheat (Triticum aestivum L.) Induced by Short Periods of High Temperature , 1982 .

[12]  H. Rawson High-temperature-tolerant wheat: A description of variation and a search for some limitations to productivity , 1986 .

[13]  I. Wardlaw,et al.  The influence of nutrition on the response of wheat to above-optimal temperature , 1984 .

[14]  L. Evans,et al.  THE PATTERN OF GRAIN GROWTH WITHIN THE EAR OF WHEAT , 1970 .

[15]  R. Fischer,et al.  Yield potential in a dwarf spring wheat and response to crop thinning , 1976, Journal of Agricultural Sciences.

[16]  If Wardlaw,et al.  Factors Limiting the Rate of Dry Matter Accumulation in the Grain of Wheat Grown at High Temperature , 1980 .

[17]  L. T. Evans,et al.  Factors Influencing the Rate and Duration of Grain Filling in Wheat , 1977 .

[18]  E. Kanemasu,et al.  Yield and Development of Winter Wheat at Elevated Temperatures1 , 1983 .

[19]  If Wardlaw,et al.  The effect of temperature on kernel development in cereals , 1978 .

[20]  H. Marcellos,et al.  The influence of cultivar, temperature and photoperiod on post-flowering development of wheat , 1972 .

[21]  Glenn K. McDonald,et al.  The effect of time of sowing on the grain yield of irrigated wheat in the Namoi Valley, New South Wales , 1983 .