A method of smoothing solar data by beta probality distributions is applied to process daily sunshine duration data recorded at thirty-three meteorological stations in Algeria for eleven year periods or more. Knowing the sunshine duration data
of frost damage, iii) Number of sunshine hours during growth season, and iv) Soil drainage. A two-step method based on GIS and already existing climate, soil, and topographic data is implemented. First the most suitable areas in Denmark for vine growing
are located on the basis of nation-wide climatic data on the sum of degree days and risk of frost. Within the most suitable areas a detailed survey of the amount of sunshine, topography, drainage and soil is carried out on the Røsnæs peninsula in north western
increasing, relative humidity and sunshine hours were significantly decreasing, and wind speed greatly oscillated without a significant trend. Total precipitation was significantly decreasing in corn season (from June to September), but it was increasing
in wheat season (from October to next May). Sensitivity analysis showed that mean air temperature was the first key factor for ETo change in the past 60 years, followed by relative humidity and sunshine hours; the less sensitivity factors were wind speed
Anacardiacea (W. Meijer). Apocynaceae (H. Huber). Asclepiadaceae (H. Huber). Avicenniaceae (H. N. and A. L. Moldenke). Begoniaceae (A. H. M. Jayasuriya). Burmanniaceae (L. H. Cramer). Campanulaceae (L. H. Cramer). Lobeliaceae (L. H. Cramer
). Nyctanthaceae (H. N. and A. L. Moldenke). Periplocaceae (H. Huber). Sphenocleaceae (L. H. Cramer). Symphoremaceae (H. N. and A. L. Moldenke). Verbenaceae (H. N. and A. L. Moldenke). Zingiberaceae (B. L. Burtt and R. M. Smith).