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      광조건에 따른 식물의 엽온 특성 = Leaf Temperature Characteristics being Affected by Light Regimes

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      https://www.riss.kr/link?id=A103956314

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      다국어 초록 (Multilingual Abstract)

      To evaluate heat environment surrounding plants diurnal change of leaf temperature in the broad-leaved deciduous and evergreen trees was measured with microclimatic environmental factors including global solar radiation, and upward and downward long w...

      To evaluate heat environment surrounding plants diurnal change of leaf temperature in the broad-leaved deciduous and evergreen trees was measured with microclimatic environmental factors including global solar radiation, and upward and downward long wave radiation. Maximum daily solar radiation was 961.2 and 976.3 w/m^2 in August 9 and 23, respectively. Upward long wave radiation was slightly higher than downward long wave radiation, showing 404.2 w/m^2 in August 9 and 394.5 w/m^2 in August 23. In addition, daily maximum vapor pressure deficit was 5.42 and 6.84 kPa in August 9 and 23, respectively, indicating high evaporative demand. Quercus glauca and Acer mono was differently responded to changing light regimes. On August 9, leaf temperature at the top-positioned leaves of Acer plants was higher than air temperature as well as those of Quercus plants in the morning. This indicates that stomata in Acer plants were closed by heat stress or water stress in the morning, while Quercus plant maintained active transpiration by opening stomata.
      These results indicated that improved light regimes such as gap opening in the closed forest may not always affect positively in the physiology of understory plants.

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      참고문헌 (Reference)

      1 Kim, J. W, "Vegetation of Northeast Qsia, On the syntaxonomy and syngeography of the oak and beech forests" Univesitat Wien 1992

      2 Brokaw, N. V. L, "Tree falls, regrowth, and community structure in tropical forests, in Natural Disturbance: The Patch Dynamics Perspective" Academic Press 81-104, 1985

      3 Turner, N. C., "The responses of stomata and leaf gas exchange to vapor pressure deficits and soil water content, I Species comparisons at high soil water contents" 63 : 338-342, 1984

      4 Chazdon, R. L, "Sunflecks and their importance to forest understory plants" 18 : 2-54, 1988

      5 Spitters, C. J. T, "Separating the diffuse and direct component of global radiation and its implications for modeling canopy photosynthesis, Part II. Calculation of canopy photosynthesis" 38 : 231-242, 1986

      6 Spitters, C. J. T, "Separating the diffuse and direct component of global radiation and its implications for modeling canopy photosynthesis, Part I. Components of incoming radiation" 38 : 217-229, 1986

      7 Bongers, F, "Response of Cordia megalantha seedlings to gap environment in tropical rain forest" 2 : 379-390, 1988

      8 Collatz, G. J., "Physiological and environmental regulation of tomatal conductance, photosyunthesis and transpiration: a model that includes a larminar boundary layer" 54 : 107-136, 1991

      9 Blackman, G. E, "Physiological and ecological studies in the analysis of plant environment XII. The role of the light factor in limiting growth" 23 : 131-145, 1959

      10 Larcher, W, "Physiological Plant Physiology" Springer 97-105, 1995

      1 Kim, J. W, "Vegetation of Northeast Qsia, On the syntaxonomy and syngeography of the oak and beech forests" Univesitat Wien 1992

      2 Brokaw, N. V. L, "Tree falls, regrowth, and community structure in tropical forests, in Natural Disturbance: The Patch Dynamics Perspective" Academic Press 81-104, 1985

      3 Turner, N. C., "The responses of stomata and leaf gas exchange to vapor pressure deficits and soil water content, I Species comparisons at high soil water contents" 63 : 338-342, 1984

      4 Chazdon, R. L, "Sunflecks and their importance to forest understory plants" 18 : 2-54, 1988

      5 Spitters, C. J. T, "Separating the diffuse and direct component of global radiation and its implications for modeling canopy photosynthesis, Part II. Calculation of canopy photosynthesis" 38 : 231-242, 1986

      6 Spitters, C. J. T, "Separating the diffuse and direct component of global radiation and its implications for modeling canopy photosynthesis, Part I. Components of incoming radiation" 38 : 217-229, 1986

      7 Bongers, F, "Response of Cordia megalantha seedlings to gap environment in tropical rain forest" 2 : 379-390, 1988

      8 Collatz, G. J., "Physiological and environmental regulation of tomatal conductance, photosyunthesis and transpiration: a model that includes a larminar boundary layer" 54 : 107-136, 1991

      9 Blackman, G. E, "Physiological and ecological studies in the analysis of plant environment XII. The role of the light factor in limiting growth" 23 : 131-145, 1959

      10 Larcher, W, "Physiological Plant Physiology" Springer 97-105, 1995

      11 Pearcy, R. W, "Photosynthetic utilization of lightflecks by understory plants" 15 : 223-238, 1988

      12 Poorter, L, "Photosynthetic induction responses of two rain forest tree species in relation to light environment" 96 : 193-199, 1993

      13 Sands, P. J., "Modelling canopy production, III. Canopy light utilisation efficiency and its sensitivity to physiological and environmental variables" 23 : 103-114, 1996

      14 Küppers, M, "Leaf gas exchange of beech (Fagus sylvatica L.) seedlings in lightflecks: effects of fleck length and leaf temperature in leaves grown in deep and partial shade" 7 : 160-168, 1993

      15 Pahwal, K., "Leaf gas exchange in lightflecks of plants of different successional range in the nderstory of a central European beech fo" 67 : 29-33, 1994

      16 Kamaluddin, M., "Growth and photosynthesis of tropical forest tree seedlings(Bischofia javanica blume) as influenced by a change in light availability" 13 : 189-201, 1993

      17 Brokaw, N. V. L, "Gap-phase regeneration in a tropical forest" 66 : 682-687, 1985

      18 Sapkota, I. P., "Gap characteristics and their effects on regeneration, dominance and early growth of woody species" 2 : 21-29, 2009

      19 Oberbauer, S. F, "Effects of light regime on the growth and physiology of Pentuclethra mucrolohu (Mimosaceae) in Costa Rica" 1 : 303-320, 1985

      20 Patterson, D. T, "Effects of itradiance during growth on adaptive photosynthetic characteristics of velvetleaf and cotton" 61 : 402-405, 1978

      21 Wilson, K. B., "Effects of carbon dioxide concentration on the interactive effects of temperature and water vapour on stomatal conductance in soybean" 20 : 230-238, 1997

      22 Pfitsch, W. A., "Daily carbon gain by Adenocaulon bicolor (Asteraceae), a redwood forest understory herb, in relation to its light environment" 80 : 465-470, 1989

      23 Gates, D. M, "Biophysical Ecology" Springer- Verlag 12-381, 1980

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      학술지 인용정보

      학술지 인용정보
      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.37 0.37 0.38
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.36 0.35 0.525 0.1
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