1 |
Nilsen ET, Muller WH. 1981. Phenology of the drought-deciduous shrub Lotus scoparius: climatic controls and adaptive significance. Ecol Monogr 51: 323-341
DOI
ScienceOn
|
2 |
Ratchke B, Lacey EP. 1985. Phenological patterns of terrestrial plants. Ann Rev Ecol Syst 16: 179-214
DOI
|
3 |
Lindley AA, Newman JE. 1956. Use of official weather data in springtime temperature analysis of an Indiana phenological record. Ecol 37: 812-823
DOI
ScienceOn
|
4 |
Nuttonson MY. 1948. Some preliminary observation of phenological data as a tool in the study of phenoperiodic and thermal requirements of various plant materials. In: Vernalization and photoperiodism, (Mureek AE, Whyte RO eds). Chronica Botanika Wattham, Mass. pp 129-143
|
5 |
Opler PA, Frankie GW, Baker HG. 1980. Comparative phenological studies of threelet and shrub species in tropical wet and dry forests in the lowlands of Costa Rica. J Ecol 68: 167-188
DOI
ScienceOn
|
6 |
Yim YJ, Rim MK, Shim JK. 1983. The thermal climate and phenology in Korea. Kor J Bot 26: 101-117
|
7 |
Schirone B, Leone A, Mazzoleni S, Spada F. 1990. A new method of survey and data analysis in phenology. J Vegetation Sci 2: 27-34
DOI
ScienceOn
|
8 |
Taylor FG. Jr. 1974. Phenodynamics of production in a mesic deciduous forest. In: Phenology and Seasonality Modeling, (Lieth H ed). Springer-Verlag, New York, pp 23-54
|
9 |
Wright SJ. 1991. Seasonal drought and the phenology of understory shrubs in a tropical moist forest. Ecol 72: 1643-1657
DOI
ScienceOn
|
10 |
Yim YJ. 1986. The effects of thermal climate on the flowering dates of plants in South Korea. Kor J Apiculture 1: 67-84
|
11 |
Yim YJ. 1987. The effects of thermal climate on the flowering dates of plants in South Korea. - For the exploitation of honey and pollen resource plants-. Kor J Apiculture 2: 9-28
|
12 |
Kudo G. 1992. Pre-flowering and fruiting periods of alpine plants inhabiting a snow-bed. J Phytogeogr Taxon 40: 99-106
|
13 |
Korea Meteorological Administration. 1991. Climatological standard normals of Korea. Dongjinmoonwhasa, Seoul. p 14
|
14 |
Lieth H. 1974. Penology and seasonality modeling. Springer-Verlag, New York, 444 p
|
15 |
Brown DS. 1953. Climate in relation to deciduous fruit production in California. Ⅵ. The apparent efficiencies of different temperatures for the development of apricot fruit. Proc Am Soc Hort Sci 62: 173-183
|
16 |
Diekmann M. 1996. Relationship between flowering phenology of perennial herbs and meteorological data in deciduous forests of Sweden. Can J Bot 74: 528-537
DOI
|
17 |
Fleming TH, Williams CF, Bonaccorso FJ, Herbst LH. 1985. Phenology, seed dispersal, and colonization in Muntigia Calabura, a neotropical pioneer tree. Amer J Bot 72: 383-391
DOI
ScienceOn
|
18 |
Gill DS, Mahall BE. 1986. Quantitative phenology and water relations of an evergreen and a deciduous chaparral shrub. Ecol Monogr 56: 127-143
DOI
ScienceOn
|
19 |
Flint HL. 1974. Phenology and genecology of woody plants. In: Phenology and Seasonality Modeling, (Lieth H ed). Springer-Verlag, New York, pp 83-97
|
20 |
Garner WW, Allard HA. 1920. Effect of the relative length of the day and night and other factors of the environment on growth and reproduction in plant. J Agri Res 18: 553-606
|
21 |
Hegarty EE. 1990. Leaf life-span and leafing phenology of lianes and associated trees during a rainforest succession. J Ecol 78: 300-312
DOI
ScienceOn
|
22 |
Hopkins AD. 1920. The bioclimatic law. J Wash Acad Sci 10: 34-40
|
23 |
Jackson LE, Bliss LC. 1984. Phenology and water relations of three plant life forms in a dry tree-line meadow. Ecol 65: 1302-1314
DOI
ScienceOn
|