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P. Kramer (1942)
SPECIES DIFFERENCES WITH RESPECT TO WATER ABSORPTION AT LOW SOIL TEMPERATURESAmerican Journal of Botany, 29
A. Sakai, W. Larcher (1987)
Mechanisms of frost survivalEcological studies, 62
David Walker, R. Walker (1987)
The use of the oxygen electrode and fluorescence probes in simple measurements of photosynthesis
(1966)
Anatomical studies on the leaves of Camellia japonica and C . rusticana
S. Ishizawa (1978)
Climatic factors affecting the distribution of Snow-Camellia (Camellia rusticana Honda).
(1993)
Comparison of ecophysiological responses to heavy snow in two varieties of Aucuba japonica with different distributing areas. Ecological Research 8:111-121
W. Tranquillini (1982)
Encyclopedia of Plant Physiology, 12B
Y. Oshima (1961)
Ecological studies of Sasa communities. IV. Dry matter production and distribution of products among various organs in Sasa kurilensis community, 74
R. Pearcy (1988)
Photosynthetic Utilisation of Lightflecks by Understory PlantsAustralian Journal of Plant Physiology, 15
(1993)
Climatic Atlas of Japan 1990.
H. Jones (1976)
Crop Characteristics and the Ratio Between Assimilation and TranspirationJournal of Applied Ecology, 13
R. O. Slatyer (1967)
Plant Water Relationship.
Akira Fukuda, Satoshi Yamatani, T. Kobata, T. Imaki (1993)
Decrease of Leaf Water Potential and Leaf Injury of Tea Plant (Thea sinensis L.) Subject to Cold Winter Wind in Sanin Region of Japan : I. Response of leaf water potential and leaf injury under field conditionsJapanese Journal of Crop Science, 62
I. Cowan (1978)
Stomatal Behaviour and EnvironmentAdvances in Botanical Research, 4
(1968)
On some physiological aspects of the bush and snow camellia
W. Tranquillini (1982)
Frost-Drought and Its Ecological Significance
Y. Horikawa (1977)
Atlas of the Japanese Flora II. An Introduction to Plant Sociology of East Asia.Brittonia, 29
A. Sakai, W. Larcher (1987)
Ecological Studies, 62
Y. Horikawa (1972)
Atlas of the Japanese Flora I.
(1988)
Photosynthetic utilization of lightflecks by understorey plants
酒井 昭 (1979)
Freezing tolerance of evergreen and deciduous broad-leaved trees in Japan with reference to tree regions, 36
L. Bliss (1962)
Adaptations of Arctic and Alpine Plants to Environmental ConditionsArctic, 15
A. Sakai (1982)
Freezing Resistance of Ornamental Trees and ShrubsJournal of the American Society for Horticultural Science
M. Baig, W. Tranquillini (1976)
Studies on upper timberline: morphology and anatomy of Norway spruce (Picea abies) and stone pine (Pinus cembra) needles from various habitat conditionsBotany, 54
S. Ishizawa (1978)
Plant Ecology to the Memory of Dr. Kuniji Yoshioka
A. Fukuda, S. Yamatani, T. Kobata, T. Imaki (1993b)
Decrease of leaf water potential and leaf injury of tea plant (Thea sinensis L.) subject to cold winter wind in Sanin region of Japan. II. Increase of water flow resistance inside the plant contributes to decrease of leaf water potential, 62
R. Waring, B. Cleary (1967)
Plant Moisture Stress: Evaluation by Pressure BombScience, 155
(1963)
Zur sp~twinterlichen Erschwerung der Wasserbilanz yon Holzpflanzen an der Waldgrenze
(1956)
On some morphological features of Camellia japonica and C. rusticana
K. Hagiya, S. Ishizawa (1968)
Camellias of Japan
A. Sakai, N. Hakoda (1979)
Cold hardiness of the genus Camellia, 104
D. Elfving, M. Kaufmann, A. Hall (1972)
Interpreting Leaf Water Potential Measurements with a Model of the Soil‐Plant‐Atmosphere ContinuumPhysiologia Plantarum, 27
I. Cowan (1982)
Regulation of Water Use in Relation to Carbon Gain in Higher Plants
Professor Sakai, Professor Larcher (1987)
Frost Survival of Plants
(1993)
Comparison of eco - physiological responses to heavy snow in two varieties of Aucuba japonica with different distributing areas
The adaptation of Camellia rusticana, an evergreen broad‐leaved shrub found in areas of heavy snowfall in Japan, to heavy snowfall environments, and the mechanisms by which it is damaged in winter above the snow, were investigated. The stomatal response and photosynthetic characteristics of C. rusticana were compared to those of Camellia japonica found in areas of light snowfall. In field conditions, the mean net photosynthesis of C. rusticana at photon flux density (PFD) over 200 μmol m−2s−1 (Pn(>200). was 50% larger than that of C. japonica, but in both light saturated and CO2 saturated conditions, the O2 evolution rate (Pc) of C. rusticana was not different from that of C. japonica. Mean leaf conductance at PFD over 200 μmol m−2s−1 (gl(>200)) was about 100% larger than that of C. japonica in the field. The Pn(>200)) was 50% ratio of C. rusticana was 37% higher than that of C. japonica which suggests that C. rusticana's larger Pn(>200) can be explained by its larger gl(>200). When C. rusticana trees wintering underneath the snow were projected above it, the leaves of these plants showed serious drought within five days in non‐freezing conditions. Their Pc and the maximum stomatal conductance decreased by half and did not recover. The leaves of C. rusticana showed larger gl(>200) and a less sensitive stomatal response to the decrease of leaf water potential than that of C. japonica. The stomata characteristics of C. rusticana caused larger net photosynthesis than that of C. japonica during the no snow period, and caused the need for snow cover in winter as protector from winter drought.
Ecological Research – Wiley
Published: Aug 1, 1996
Keywords: ; ; ; ;
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