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Annals of the Association of American Geographers Volume 60, 1970 - Issue 2
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GLOBAL DISTRIBUTION OF NET RADIATION ACCORDING TO A NEW FORMULA

JEN-HU CHANG University of Hawaii, Honolulu, Hawaii
Pages 340-351 | Accepted 24 Feb 1969, Published online: 15 Mar 2010

  • 1 This study has been supported by U. S. Environmental Science Services Administration, Grant No. E-44–67 (G), and is Contribution No. 16, Water Resources Research Center, University of Hawaii.
  • 2 J. H. Chang, “On the Study of Evapotranspiration and Water Balance,”Erdkunde, Vol. 19 (1965), pp. 141 50.
  • 3 H. G. Houghton, “On the Annual Heat Balance of the Northern Hemisphere,”Journal of Meteorology, Vol. 11 (1954), pp. 1 9; S. I. Rasool and C. Prabhakara, “Heat Budget of the Southern Hemisphere,” in R. V. Garcia and T. F. Malone (Eds.) Problems of Atmospheric Circulation (London: McMillan Co., 1966), pp. 76–92.
  • 4 H. E. Penman, “Natural Evaporation from Open Water, Bare Soil, and Grass,”Proceedings, Royal Society, Series A, Vol. 193 (1948), pp. 120 45; M. I. Budyko, Teplovoi Balans Zemnoi Poverkhnosti (Leningrad: Gidrometeorologicheskoe Izdatel'stvo, 1956), 255 pp. Budyko's formula was later revised for the preparation of maps in the Atlas Teplovogo Balansa (Leningrad: Gidrometeorologicheskoe Izadatel'skoe, 1963).
  • 5 For example the correlation between solar radiation and duration of sunshine for 384 monthly values collected by Black et al, was only fair; see:J. N. Black, C. W. Bonython, and J. A. Prescott, “Solar Radiation and the Duration of Sunshine,”Quarterly Journal, Royal Meteorological Society, Vol. 80 (1954), pp. 231 35.
  • 6 R. Fleischer, “Der Jahresgang der Strahlungsbilanz und Ihrer Komponenten,”Annalen der Meteorologie, Vol. 6 (1953/1954), pp. 357 64; R. H. Shaw, “A Comparison of Solar Radiation and Net Radiation,”Bulletin, American Meteorological Society, Vol. 37 (1958), pp. 205 06; D. W. Scholte-Ubing, “Studies on Solar Radiation and Net Radiation and on Evapo-transpiration from Grass,”Mededelingen van de Landbouwhogeschool, Wageningen, No. 59 (1959), pp. 1–93; J. H. Chang, “Microclimate of Sugarcane,”Hawaiian Planters' Record, Vol. 56 (1961), pp. 195 223; Y. Nakagawa, “Studies on the Microclimate in the Cultivated Land and on the Plant Temperature,”Bulletin, National Institute of Agricultural Science (Japan), Series A, Vol. 10 (1963), pp. 127 65; P. C. Ekern, “The Fraction of Sunlight Retained as Net Radiation in Hawaii,”Journal of Geophysical Research, Vol. 70 (1965), pp. 785 93; J. A. Davies, “A Note on the Relationship Between Net Radiation and Solar Radiation,”Quarterly Journal, Royal Meteorological Society, Vol. 93 (1967), pp. 109 15.
  • 7 Davies, op. cit., footnote 6.
  • 8 S. E. Jensen and H. C. Aslyng, “Net Radiation and Net Long-wave Radiation at Copenhagen, 1962–1964,”Archiv für Meteorologie, Geophysik und Bioklimatologie, Series B, Vol. 15 (1967), pp. 127 40; J. P. Funk, “Radiation Observations at Aspendale, Australia, and Their Comparison with Other Data,”Archiv für Meteorologie, Geophysik und Bioklimatologie, Series B, Vol. 13 (1963), pp. 52 70; for Florida, G. M. Prine and K. D. Butson, “Daily Total Solar Radiation and Net Radiation,” Unpublished manuscript (1958), 4 pp.; for North Carolina, U. S. Weather Bureau Climatological Summary, 1955–1959.
  • 9 Reflection coefficients measured by airplane differ slightly from surface measurement. No firm albedo-height relationship has been established for the range from the surface to high flying altitudes; for the data on grasses in the tropics, see Chang, op. cit., footnote 6; L. S. Chia, “Albedoes of Natural Surfaces in Barbados,”Quarterly Journal, Royal Meteorological Society, Vol. 93 (1967), pp. 116 20; E. A. Fitzpatrick and W. R. Stern“Estimates of Potential Evaporation Using Alternative Data in Penman's Formula,”Agricultural Meteorology, Vol. 3 (1966), pp. 225 39. For data on the decrease at higher latitudes, see G. D. Thompson and J. P. Boyce, “Daily Measurements of Potential Evapotranspiration from Fully Canopied Sugarcane,”Agricultural Meteorology, Vol. 4 (1967), pp. 267 79; J. L. Monteith, “The Reflection of Shortwave Radiation by Vegetation,”Quarterly Journal, Royal Meteorological Society, Vol. 85 (1959), pp. 386 92; the data collected by L. Fritschen at Tempe, Arizona, cited by Davies, op. cit., footnote 6; R. G. Barry, “Albedo variations in Southern Hampshire and Dorset,”Weather, Vol. 21 (1966), pp. 60 65; H. C. Aslyng, “Evaporation, Evapotranspiration and Water Balance Investigations at Copenhagen 1955–64,”Acta Agriculturae Scandinavica, Vol. 15 (1965), pp. 284 300.
  • 10 R. J. List, “Smithsonian Meteorological Tables, Smithsonian Miscellaneous Collections, Vol. 114 (1966), pp. 417 19; F. S. Johnson, “The Solar Constant,”Journal of Meteorology, Vol. 11 (1954), pp. 431 39. One langley is defined as one gram-calorie per square centimeter.
  • 11 W. M. Elsasser and M. F. Culbertson, “Atmospheric Radiation Tables,”Meteorological Monographs, Vol. 4, No. 23 (1960).
  • 12 W. D. Sellers, Physical Climatology (Chicago: University of Chicago Press, 1965), pp. 54–56.
  • 13 Davies, op. cit., footnote 6.
  • 14 G. O. G. Löf, J. A. Duffie, and C. O. Smith, “World Distribution of Solar Radiation,”University of Wisconsin Engineering Experiment Station Report No. 21 (Madison: University of Wisconsin, 1966); M. K. Gavrilova, Radiation Climate of the Arctic (Leningrad: Gidrometeorologicheskoe Izatel'stvo, 1963); C. C. Wallen, “Global Solar Radiation and Potential Evapotranspiration in Sweden,”Tellus, Vol. 18 (1966), pp. 786 800; L. A. Ramdas and S. Yegnanarayanan, “Solar Energy in India,” in Wind and Solar Energy, UNESCO, Proceedings of the New Delhi Symposium, 1956, pp. 188–95; B. W. Thompson, The Climate of Africa (Nairobi: Oxford University Press, 1965); T. K. Tso, Y. X. Wang, and C. X. Chen, “Characteristics of the Distribution of Total Radiation in China,”Acta Meteorologica Sinica, Vol. 33 (1963), pp. 78 95.
  • 15 E. C. Kung, R. A. Bryson, and D. H. Lenschow, “Study of a Continental Surface Albedo on the Basis of Flight Measurements and Structure of the Earth's Surface Cover over North America,”Monthly Weather Review, Vol. 92 (1964), pp. 543 64.
  • 16 S. S. Hwang, “Basic Factors Determining the Main Features of the General Circulation of the Atmosphere,”Acta Meteorologica Sinica, Vol. 26 (1955), pp. 35 64.
  • 17 J. R. Mather and C. W. Thornthwaite, “Micro-climatic Investigations at Point Barrow, Alaska, 1957–1958,”Publications in Climatology, Vol. 11, No. 2 (Centerton, New Jersey: Laboratory of Climatology, 1958).
  • 18 M. I. Budyko, “Heat Balance of the Earth's Surface,”Soviet Geography, Vol. 6 (1965), p. 311.
  • 19 Thompson, op. cit., footnote 14. Also see: H. E. Landsberg, “Solar Radiation at the Earth's Surface,”Solar Energy, Vol. 5 (1961), pp. 95 98.
  • 20 G. D. Thompson, “The Relationship of Potential Evapotranspiration of Sugarcane to Environmental Factors,”Proceedings of the 12th International Society of Sugarcane Technologists (Amsterdam: Elsevier Publishing Co., 1967), p. 7.
  • 21 A. J. Dyer, “A Combined Water and Energy Balance Study at Katherine, Northern Territory,”Australian Meteorological Magazine, Vol. 15 (1967), pp. 148 55; J. L. Monteith, “An Empirical Method for Estimating Long-wave Radiation Exchanges in the British Isles,”Quarterly Journal, Royal Meteorological Society, Vol. 87 (1961), pp. 171 79.
  • 22 Budyko, 1956, op. cit., footnote 4.
  • 23 Cited in:F. R. Fosberg, B. J. Garnier, and A. W. Küchler, “Delimitation of the Humid Tropics,”Geographical Review, Vol. 51 (1961), p. 344.
  • 24 Ekern, op. cit., footnote 6.
  • 25 G. Stanhill, “The Relationship Between Climate and the Transpiration and Growth of Pastures,”Proceedings, Eighth International Grassland Congress (1960), pp. 293–96.
  • 26 J. L. Monteith and G. Szeicz, “The Radiation Balance of Bare Soil and Vegetation,”Quarterly Journal, Royal Meteorological Society, Vol. 87 (1961), pp. 159 70.
  • 27 For instance: G. Stanhill, G. T. Hofstede, and J. D. Kalma, “Radiation Balance of Natural and Agricultural Vegetation,”Quarterly Journal of the Royal Meteorological Society, Vol. 92 (1966), pp. 128 40.

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