Base temperature for the application of the growing-degree-day model to field-grown alfalfa

Abstract Base temperature ( T b ) selection for the field application of the growing-degree-day ( gdd ) model for predicting alfalfa ( Medicago sativa L.) harvest under a three-cutting management system was investigated, because current usage is based upon extrapolation of growth-chamber data and employs a constant T b despite microclimatic and physiological changes that take place during the growing season. Three methods of analysis and 11 station-years of climatic and alfalfa one-tenth-flower data from Rosemount and St. Paul, Minnesota, were used for successive growth periods to estimate T b . The best estimate of T b in the spring growth period, 3.5°C, was significantly less than the 5°C value currently used. For the succeeding summer periods, T b estimates were 7.5° and 10.0°C, the latter being significantly higher than the current T b . The gdd requirement, computed using the best estimates of T b , were 585, 425 and 425 for alfalfa to reach one-tenth flower in each successive period. When a constant T b was used, the gdd requirement to flower differed between growth periods, with the late summer period having a greater requirement.

[1]  I. S. Selirio,et al.  Soil moisture-based simulation of forage yield , 1979 .

[2]  M. Y. Nuttonson Wheat-climate relationships and the use of phenology in ascertaining the thermal and photo-thermal requirements of wheat , 1953 .

[3]  C. Sheaffer,et al.  Climatic effect on alfalfa dry matter production. Part I. Spring Harvest , 1986 .

[4]  J. Etherington,et al.  Physiological Plant Ecology. , 1977 .

[5]  C. Sheaffer,et al.  Climatic effect on alfalfa dry matter production Part II. Summer harvests , 1987 .

[6]  K. Christian Effects of The Environment on The Growth of Alfalfa , 1977 .

[7]  E. T. Kanemasu,et al.  Corn Growth Response to Temperature and Photoperiod II. Leaf-Initiation and Leaf-Appearance Rates1 , 1983 .

[8]  D. D. Wolf,et al.  Leaf Development of Alfalfa at Several Temperatures1 , 1971 .

[9]  M. A. Sprague The Influence of Rate of Cooling and Winter Cover on the Winter Survival of Ladino Clover and Alfalfa. , 1955, Plant physiology.

[10]  Yale H. Katz,et al.  The Relationship Between Heat Unit Accumulation and the Planting and Harvesting of Canning Peas1 , 1952 .

[11]  J. Nath,et al.  Anatomical study of freezing injury in hardy and nonhardy alfalfa varieties treated with cytosine and guanine. , 1971, Cryobiology.

[12]  J. S. Mckenzie,et al.  THE IMPORTANCE OF LEAF FROST RESISTANCE TO THE WINTER SURVIVAL OF SEEDLING STANDS OF ALFALFA , 1982 .

[13]  H. Chiang,et al.  Base temperature selection for the prediction of European corn borer instars by the growing degree day method , 1984 .

[14]  L. M. White Relationship between meteorological measurements and flowering of index species to flowering of 53 plant species , 1979 .

[15]  H. Z. Cross,et al.  Prediction of Flowering Dates in Maize Based on Different Methods of Estimating Thermal Units1 , 1972 .

[16]  Jen-Yu Wang,et al.  A Critique of the Heat Unit Approach to Plant Response Studies , 1960 .

[17]  Gary W. Fick,et al.  Simple Simulation Models for Yield Prediction Applied to Alfalfa in the Northeast 1 , 1984 .

[18]  Gary W. Fick,et al.  Quantifying Morphological Development of Alfalfa for Studies of Herbage Quality , 1981 .

[19]  C. Campbell,et al.  THE EFFECT OF TEMPERATURE, MOISTURE AND NITROGEN ON THE RATE OF DEVELOPMENT OF SPRING WHEAT AS MEASURED BY DEGREE DAYS , 1983 .