• 원예과학기술지
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• 제31권2호
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• pp.146-152
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• 2013

토마토 잎들의 엽위별 광합성 특성을 조사하고, 잎의 연령과 개화속도를 엽위별 광합성 특성과 비교분석하였다. 일중 광합성 속도 특성실험에서는 일출 전 2시간부터 일몰 후 3시간까지 1시간마다 4번째 화방의 하부엽 3매의 광합성 속도를 측정하였다. 3개체를 반복으로 총 2회 조사하였다. 토마토의 일중 광합성 속도는 일출 후 1시간 동안 급격히 증가한 후, 일몰 2시간 전까지 일정하게 유지되는 양상을 보여 급액의 시작과 마감시각을 결정하는데 적용할 수 있을 것으로 사료된다. 엽위별 광합성 속도 특성실험에서는 1화방부터 4화방까지 각 화방의 하부에 있는 본엽 3개씩을 대상으로 광합성 속도를 조사하였다. 또한 광합성 특성을 분석하는데 적용하기 위해 개화속도를 조사하였다. 광합성속도는 엽위에 관계없이 꽃이 만개하는 시기를 정점으로 지속적으로 감소하는 경향을 보였다. 이는 만개 이후에는 해당 화방 이하의 잎의 활력이 감소하고 생육단계가 노화단계로 이동하기 때문으로 사료된다. 따라서 토마토의 개화속도와 광합성 속도는 서로 밀접한 관련이 있는 것으로 나타났다. 연구결과, 생육단계(엽령)의 차이에 의해 각 화방별 광합성 속도는 차이가 있으나, 광합성 속도로 작물의 활력을 판단하려 할 때는 개화하고 있는 화방의 하부엽을 조사하는 것이 매우 효과적일 것으로 판단된다.

• 한국산림과학회지
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• 제100권4호
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• pp.733-737
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• 2011

실외 인위적 온난화 처리가 2년생 굴참나무(Quercus variabilis) 묘목의 엽록소 함량 및 순광합성률에 미치는 영향을 연구하였다. 4개씩의 $1m{\times}1m$ 크기 처리구와 대조구에 굴참나무 묘목 64본을 식재하고, 적외선등을 이용하여 처리구의 대기온도를 대조구보다 $3^{\circ}C$ 높였다. 엽록소 함량 및 순광합성률을 2011년 5월, 7월, 8월, 9월, 10월에 각각 측정하였는데, 5월, 9월, 10월에는 처리구에서 대조구보다 높은 경향을 보였으며, 7월과 8월에는 처리구와 대조구 간에 차이가 없었다. 5월에는 처리구에서 일찍 발달한 잎의 엽록소 함량이 높아 순광합성률이 증가된 것으로 보이며, 7월과 8월에는 엽록소 함량의 포화로 인해 순광합성률이 대조구와 유의적인 차이를 나타내지 않은 것으로 보인다. 그러나 9월과 10월은 온난화 처리에 의해 엽록소 합성이 촉진되고 이로 인하여 순광합성률이 증가된 것으로 판단된다.

• The Korean Journal of Ecology
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• 제18권1호
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• pp.137-146
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• 1995

Acer pseudo-sieboldianum, A. ginnala, A. negundo and A. saccharinum were selected as materials for the studies on the seasonal fluctuation of chlorophyll content and photosynthetic rates. In all the four species during the growing season except in October, the principal component that determined the total chlorophyll content was chlorophyll a. Content of chlorophyll b increased with leaf age, but that of chlorophyll a decreased. In contrast to A. saccharinum and A. pseudo-sieboldianum which showed their maximum chlorophyll content in June, A. negundo, which showed the highest chlorophyll content of the four species, exhibited its maximum chlorophyll content in July, whereas September in the case of A. ginnala. The fluctuation of chlorophyll content was similar to that of air temperature, and it increased till July. But chloprophyll content showed a significant relationship in early stage of leaf development, and there could be any interdependence between them in accordance with the seasonal change, no longer. In all four species light compensation points decreased in accordance with the seasonal change, and the maximum photosynthetic rates were obtained in August. Respiratory rates were shown no significant difference among species, and they decreased according to the adbance of season.

• 한국작물학회지
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• 제53권1호
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• pp.93-101
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• 2008

The effects of $CO_2$ enrichment on growth of maize (Zea mays L.) were examined. Parameters analyzed include growth characteristics, yields, photosynthetic rates, evaporation rates and photosynthesis-related characteristics under elevated $CO_2$. The plants were grown in growth chambers with a 12-h photoperiod and a day/night temperature of $28/21^{\circ}C$ at the seedling stage and $30/23^{\circ}C$ from the silking stage. The plants were exposed to two elevated $CO_2$ of 500, 700ppm and ambient levels (350 ppm). Chalok 1 and GCB 70 germinated three days after seeding, and germination rates were faster in the elevated $CO_2$ than the control. Germination rates displayed significant differences among the $CO_2$ treatments. At the seedling stage, leaf area, top dry weight, and photosynthetic rates, and plant height indicated positive relationship with elevated $CO_2$ concentrations. At the $5{\sim}6$ leaf stage, $CO_2$ concentration also indicated positive relationship with plant height, leaf area, top dry weight, and photosynthetic rates. At the silking stage, increased plant height of Chalok 1 was noted in the $CO_2$ treatments compared to the control. No significant differences were noted for GCB 70, in which leaf area decreased but photosynthetic rates increased progressively with $CO_2$ concentration. Stomatal aperture was a little bigger in the elevated $CO_2$ than the control. $CO_2$ concentration was negatively related to stomatal conductance and transpiration rates, resulting in high water use efficiency.

• Journal of Plant Biology
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• 제36권2호
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• pp.133-140
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• 1993

The photosynthetic activities in relation to oxygen evolution rates, quantum yield, CO2 uptake rates and room temperature chlorophyll fluorescence were investigated in cotyledons of cucumber seedlings exposed to low temperature (at 4$^{\circ}C$) for 24 h. Light-chilling caused more inhibition on light-saturated maximum oxygen evolution rates, quantum yield, and CO2 uptake rates than dark-chilling did in the cucumber plant. Light-chilling induced more marked increase in Fo and decrease in (Fv)m/Fm than dark-chilling did in the room temperature chlorophyll induction kinetics. The above results affected by chilling in the light are considered to be associated with the partial damage of the reaction center of PS II and the decreased photosynthetic activities. There occurred a large decrease in qQ with little change in qNP in the light-chilling plant. When light- and dark-chilled plants were recovered at room temperature for 24 h and their chlorophyll fluorescences were induced with light doubling technique, light-chilled plants showed more smaller magnitude and rate of fluorescence relaxation than dark-chilled plants. These suggest that light-chilling might cause some alterations in transthylakoid pH formation, and that photosynthetic apparatus of cucumber cotyledons is more susceptible to light-chilling. In the fast fluorescence induction kinetics, FR was decreased by 60% in the light-chilled plants with reference to $25^{\circ}C$ light-grown plants, while the dark-chilled plants showed a decreased rate of only 20% with reference to $25^{\circ}C$ dark-treated plants for 24 h, indicating that cucumber seedling is very sensitive to chilling stress. So, it is certain that chilling injury to the photosynthetic apparatus is strongly dependent on the presence of light in cucumber seedlings.

• ALGAE
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• 제30권2호
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• pp.103-119
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• 2015

Photosynthetic rates of the large centric diatom Coscinodiscus granii were measured by means of multicolor variable chlorophyll fluorescence imaging, single cell $^{14}C$ assimilation, and optical $O_2$ sensor measurements during light acclimatization of cultures grown at five different irradiances: 50, 150, 235, 332, and $450{\mu}mol$ photons $m^{-2}\;s^{-1}$. Photo-acclimatization was evident from changes of cellular chlorophyll a content, growth rates, and light response curves. Each of the applied methods evaluates different parts and reactions in the photosynthetic apparatus, which makes a direct quantitative comparison of rates difficult, although a different degree of correlation were found between all three methods. However, when used in combination, they provide information about the internal relationship of photosynthetic pathways as well as the variation in photosynthetic capacity between individual cells within a single algal culture.

• ALGAE
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• 제17권2호
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• pp.83-87
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• 2002

Photosynthetic parameters of Scendesmus quadricauda, such as the maximum photosynthetic rate ($P_{max}$), photosynthetic efficiency (α) and the initial saturation intensity of irradiance for photosynthesis ($I_K$) were obtained using photosynthesis-irradiance (P-I) curve in a phosphorus-limited chemostat. S. quadricauda exhibitied no photoinhibition until at 200 μmol·$m^{-2}$ . $P_{max}$ (r=0.963, P=0.002) and $I_K$(r=0.904, P=0.013) showed linear relationships with growth rate. Chlorophyll-α concentration and cell dry weight decreased at higher growth rates, ut chlorophyll-α content per cell dry weight increased. The increase in photosynthetic rates at higher growth rates was due to the increase of $P_{max}$ and $I_K$ which was caused mainly by the increase in the absolute amount of chlorophyll-α rather than the increased photosynthetic efficiency of individual chlorphyll-α. The α did not show a significant relationship with growth rate (r=0.714, P=0.111). The cell quota of carbon (r=0.554, P=0.254) was not correlated with growth rate, but cell quota of nitrogen (r=0.818, P=0.047) and phosphorus (r=0.855, P=0.030) exhibited linear correlations with growth rate.

• 한국자원식물학회지
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• 제29권4호
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• pp.393-399
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• 2016

한국특산식물 벌개미취의 재배환경에 따른 생리적 반응과 최적 재배조건의 설정을 통해 생산성을 향상하기 위하여 연구를 수행하여 얻어진 결과를 요약하면 다음과 같다. 생육시기별 광합성률은 정식 후부터 급격히 증가하였다가 7월 이후 감소하였으며 정식 2년차에서는 생육 후기로 갈수록 저하되는 경향이었고 광보상점은 생육 초기에 높았다가 후기에 감소하였다. 세포내 CO₂ 농도가 증가할수록 광합성률은 증가하였으나 일정 수준 이상에서는 정체 혹은 감소하는 경향이었고 생육시기별 CO₂ 보상점은 5월에 가장 낮았다. 차광처리에서 엽록소 함량은 무처리에 비해 높았으며 잎 형태의 유의한 변화가 관찰되었다. 무차광 또는 50% 차광수준에서 광합성률이 높았다.  토양수분 조건에 따라서 잎의 형태적 변화는 거의 없었으나 엽충실도가 변화하였고 −25 kPa 이상의 토양수분조건에서는 광합성률, 순양자 수율은 증가하였으며 이에 따라 암호흡속도도 증가하였고 수분 이용효율은 감소하였다.

• ALGAE
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• 제19권3호
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• pp.207-216
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• 2004

Characteristics of photosynthesis-light and photosynthesis-temperature relationships were seasonally compared among 4 species, two temperate Sargassurn (S. ringgoldianum and S. spathulophyllum) and two temperate kelp (Ecklonia cava and Eisenia bicyclis), growing in the same habitat in Oura Bay, Shimoda, central Japan. The photosynthesis-irradiance (P-I) curve of each species at the in situ temperature and the photosynthesis-temperature (P-T) curve at near saturation irradiance (400μmol·m^(-2)·s^(-1)) were determined by using differential gas-volumeters. Maximum photosynthetic rates (Prnax) for P-I curves of the two Sargassurn species were higher from summer to autumn than from winter to spring, while those of the two kelp species showed little difference among seasons. Net photosynthetic rates (Pn) at 100-400μmol·m^(-2)·s^(-1) of the Sargassurn species were higher than those of the kelp species in autumn, spring and summer, while in winter the rates were about the same between the Sargassurn and kelp species. Among seasons, the light saturation index (1k) values, dark respiration rates and light compensation points of Sargassurn species differed more than those of kelp species. Optimum temperature for P-T curves of Sargassurn species was 29℃ and that of kelp species was 27℃ in summer, while in winter the former was 27℃ and the latter was 25℃. Pn at 400 μmol·m^(-2)·s^(-1) at 10-33℃ of Sargassurn species were considerably higher than those of kelp species from spring to summer, while from autumn to winter the rates at 5-27℃ were about the same between the two. At supra-optimum temperatures, Pn of kelp species decreased more sharply than those of Sargassurn species in each season. These facts indicate that the two temperate Sargassurn species have a higher potential photosynthetic performance under warmer conditions than the two temperate kelp species even though they grow in the same habitat.

• Journal of Photoscience
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• 제1권2호
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• pp.95-105
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• 1994

Experiments were carried out to investigate whether P, deficiency in detached 25 mM mannose-feeding led to a decline of the photosynthetic electron transport rates through acidification of the thylakoid lumen. With increasing mannose-feeding time, the maximal CO2 exchange rates and the maximal quantum yields of photosynthesis decreased rapidly up to 6 h by 73% then with little decrease up to 12 h. The ATP/ADP ratio declined by 54% 6 h after the treatment and then recovered to the control level at 12 h. However, the NADPH/NADP~ ratio was not significantly altered by mannose treatment. Electron transport rates of thylakoid membranes isolated from 6 h treated leaves did not change, but they decreased by 30% in 12 h treated leaves. The quenching analysis of Chl fluorescence in mannose-treated leaves revealed that both the fraction of reduced plastoquinone and the degree of acidification of thylakoid lumen remained higher than those of the control. The reduction of PSI in mannose fed leaves was inhibited due to acidification of thylakoid lumen (high qE). The reduction of primary quinone acceptor of PSII was inhibited by mannose feeding. Mannose treatment decreased the efficiency of excitation energy capture by PSII. Fo quenching was induced when treated with mannose more than 6 h, and had a reverse linear correlation with (Fv)m/Fm ratio. These results suggest that Pi deficiency in Chinese cabbage leaves reduce photosynthetic electron transport rates by diminishing both PSII function and electron transfer from PSII to PSI through acidification ofthylakoid lumen, which in turn induce the modification of photosynthetic apparatus probably through protein (de)phosphorylation.