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Effect of Elevated Carbon Dioxide Concentration and Temperature on Yield and Fruit Characteristics of Tomato (Lycopersicon esculentum Mill.) (이산화탄소 및 온도 상승이 토마토 수량 및 과실특성에 미치는 영향)

  • Lee, In-Bog;Kang, Seok-Beom;Park, Jin-Myeon
    • Korean Journal of Environmental Agriculture
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    • v.27 no.4
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    • pp.428-434
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    • 2008
  • The objective of this study is to investigate the effect of the level of $CO_2$ (370 and $650{\mu}mol\;mol^{-1}$) and temperature (ambient and ambient+$5^{\circ}C$) on tomato growth and fruit characteristics as affected by the application rate of N-fertilizer (68 and $204\;N\;kg\;ha^{-1}$), for the purpose of evaluating the influence of elevated $CO_2$ and temperature on tomato crop. The elevated atmospheric $CO_2$ and temperature increased the plant height and stem diameter for tomato crop, while the differences among the nitrogen(N) application rates were not significantly different. Under the elevated $CO_2$, temperature, and a higher N application rate, the biomass of aerial part increased. The fruit yield showed the same result as the biomass except for the elevated temperature. The elevated temperature made the size of fruit move toward the small, but the elevated $CO_2$ and the application of N-fertilizer were vice versa. The sugar content and pH of fruit juice were affected by nitrogen application rate, but not by the elevated $CO_2$ and temperature. These results showed that both the elevated $CO_2$ and temperature stimulated the vegetative growth of aerial parts for tomato, but each effects on the yield of fruit showed an opposite result between the elevated temperature and $CO_2$. In conclusion, the elevated $CO_2$ increased tomato yield and the ratio of large size of fruit, but the elevated temperature did not. Therefore, to secure the productivity of tomato as nowadays in future environment, it will need to develop new breeder as high temperature-tolerable tomato species or new type of cropping systems.

Effects of the Elevated Temperature and Carbon Dioxide on Vine Growth and Fruit Quality of 'Campbell Early' Grapevines (Vitis labruscana) (온도와 이산화탄소의 상승처리가 포도 '캠벨얼리'의 수체생육과 과실품질에 미치는 영향)

  • Son, In Chang;Han, Jeom-Haw;Cho, Jung Gun;Kim, Seung Heui;Chang, Eun-Ha;Oh, Sung Il;Moon, Kyung-Hwan;Choi, In-Myung
    • Horticultural Science & Technology
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    • v.32 no.6
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    • pp.781-787
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    • 2014
  • The effects of elevated temperature and $CO_2$ concentration on vine growth and characteristics of fruits of three-year-old 'Campbell Early' grapevine were investigated. The treatment groups consisted of a control group (ambient temperature and $390{\mu}L{\cdot}L^{-1}\;CO_2$), an elevated temperature group (ambient temperature + $4.0^{\circ}C$ and $390{\mu}L{\cdot}L^{-1}\;CO_2$), an elevated $CO_2$ group (ambient temperature and $700{\mu}L{\cdot}L^{-1}\;CO_2$), and an elevated $CO_2$/temperature group (ambient temperature + $4.0^{\circ}C$ and $700{\mu}L{\cdot}L^{-1}\;CO_2$). The average shoot length was 312.6 cm in the elevated $CO_2$/temperature group, which was higher than the other groups; with 206.2 cm in the control group and 255.6 cm and 224.8 cm in the elevated temperature group and elevated $CO_2$ group respectively. However, the shoot diameter showed a tendency of decreasing in the elevated temperature and elevated $CO_2$/temperature groups. The equatorial diameter of berries was increased in the higher carbon dioxide concentration, and the soluble solid content was the highest in the elevated $CO_2$ group, with $14.6^{\circ}Brix$ among all treatment groups and the lowest in the elevated temperature group ($13.9^{\circ}Brix$). The harvest date was approximately 11 d earlier in the elevated $CO_2$/temperature group and 4 to 2 days earlier in the elevated $CO_2$ group and elevated temperature group, respectively. Regarding the rate of photosynthesis and transpiration during the growth period, higher photosynthetic rates were observed in the elevated $CO_2$ group and the elevated $CO_2$/temperature group during the early stage of growth; however the photosynthetic rate was reduced dramatically in summer, which was contrary to transpiration.

Changes of Plant Biomass and Proximate Composition of Radish Exposed to Elevated Temperature and $CO_2$ Concentration (온도 및 $CO_2$ 농도 상승에 따른 무의 건물생산 및 일반 영양성분 변화)

  • Seo, Tae-Cheol;Jang, Yoon-Ah;Nam, Chun-Woo;Oh, Sang-Seok;Um, Yeong-Cheol;Han, Jeom-Hwa
    • Journal of Bio-Environment Control
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    • v.21 no.1
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    • pp.20-27
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    • 2012
  • This experiment was conducted to evaluate the long-term effect of the elevated temperature and $CO_2$ concentration on the plant biomass, C/N ratio, and proximate composition of radish. Elevated temperature by 2~2.5 higher than ambient temperature decreased plant biomass by 39% in the spring and 26% in the autumn, respectively. Elevated $CO_2$ concentration by $220{\sim}230{\mu}mol\;mol^{-1}$ higher than ambient $CO_2$ concentration increased plant biomass especially in root. The elevated $CO_2$ concentration, however, could not compensate for the negative effect of elevated temperature on the plant biomass entirely. Elevated temperature increased T/R ratio by 86% in the spring and 60% in the autumn, respectively. Elevated temperature lowered C/N ratio and raised crude protein, crude fat, and ash content in radish root. On the contrary, elevated $CO_2$ concentration raised C/N ratio and lowered the crude protein, crude fiber, and ash contents. These results indicate that climate change affect the biomass yield and internal materials of radish depending on the extent of temperature and $CO_2$ concentration rise in the future.

A Field-test Study of the Design Standards of Elevated Structures for Rubber-wheeled Light Rail Transit: Braking Force (고무차륜형 경전철 고가구조물 설계기준에 관한 현장 계측 시험 연구(1): 제동하중)

  • Shin, Jeong-Ryol;Lee, An-Ho;Park, Jae-Im;Shin, In-Jo
    • Journal of the Korean Society for Railway
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    • v.17 no.2
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    • pp.133-139
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    • 2014
  • Due to the absence of design guidelines for elevated light-rail structures in Korea, most elevated light-rail structures have been designed and constructed based on the design codes of conventional railway bridges and on the codes recommended by foreign vehicle manufacturers. This is the main reason why most elevated light-rail structures are massive or over-designed or poorly constructed economically. In this paper, the authors carried out field tests to analyze the braking forces caused by braking a train running at speeds of 50km/h, 60km/h, and 70km/h, acting on the elevated structures of rubber-wheeled Light Rail Transit (LRT) trains. The authors also briefly describe the analyzed results of the braking force acting on the substructures of elevated light-rail structures. The test-results presented here in this paper can be referenced when establishing design guidelines or standards for elevated structures of LRT systems.

Effect of Elevated TEX>$CO_2$ and Temperature on Nitrogen Responses in Rice (수도의 질소반응에 미치는 고$CO_2$농도 및 온도의 영향)

  • 김한용
    • Korean Journal of Plant Resources
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    • v.11 no.2
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    • pp.119-123
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    • 1998
  • Effects of elevated CO2 and temperature on nitrogen (N) uptake , leaf N concentration, N partitioning , N use efficiency (NUE) and grain yield of pot and field grown rice (Oryza sativa. L.cv. Chukwangbyeo) under canopy-like conditions were studied over three years. Rice plants were grown in pots and in the field in temperature gradient chambers containing either ambient(350ppm) or elevated CO2 concentrations (690 or 650ppm) in conbination with either four or seven temperature regimes ranging form ambient temperature(AT) to AT plus 3$^{\circ}C$. There were three N supplies 94g or 6g m-2 to 20g or 48g m-2.Elevated CO2 increased N uptake in field-grown rice ; the magnitude of this effect was thelargest (+15%) at the highest N level. However, in pot-grown rice, N uptake was suppressed with the effect was the largest at high N levels. Leaf N concentration declined at elevated CO2 mainly due to a decrease in N partitiioning to the leaf blades. Air temperature had little effect on the N parameters mentioned previously, wherease NUE for spikelet production declined rapidly with increased temperature irrespective of CO2 concentration. The response of the biomass to elevated CO2 varied with N level, with the greatest response at 20g N m-2 (+30%) . At AT, where high temperature-induced sterility was generally not observed, elevated CO2 increased yield. However, the magnitude of this effect varied greatly (2-39%) with N level, and was mainly dependent on the magnitude of the increase in spikelet number.

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Influence of Elevated CO2 and Air Temperature on Photosynthesis, Shoot Growth, and Fruit Quality of 'Fuji'/M.9 Apple Tree (CO2 및 기온 상승이 '후지'/M.9 사과나무의 광합성, 신초생장 및 과실품질에 미치는 영향)

  • Kweon, Hun-Joong;Sagong, Dong-Hoon;Park, Moo-Yong;Song, Yang-Yik;Chung, Kyeong-Ho;Nam, Jong-Chul;Han, Jeom-Hwa;Do, Gyung-Ran
    • Korean Journal of Agricultural and Forest Meteorology
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    • v.15 no.4
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    • pp.245-263
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    • 2013
  • This study was conducted to find out the influence of elevated atmospheric $CO_2$ concentrations and air temperature on photosynthesis and fruit quality of 'Fuji'/M.9 apple trees and to investigate these to the effects of climate change during the last four years (2009-2012). The treatments employed were: 'Ambient' (ambient temperature + ambient $CO_2$ concentration); 'High $CO_2$' (ambient temperature + elevated $CO_2$ concentration); 'High Temp'. (elevated temperature + ambient $CO_2$ concentration); and 'High $CO_2$ + High Temp'. (elevated temperature + elevated $CO_2$ concentration). The elevated temperature plots were maintained at $4^{\circ}C$ higher than ambient air temperature, while the elevated $CO_2$ plots were maintained at 700 ${\mu}mol{\cdot}mol^{-1}$. Annual treatment period was applied from end of April to beginning of November for four years. Results showed that elevated $CO_2$ decreased stomatal conductance and leaf SPAD value, but increased photosynthetic rate, intercellular $CO_2$ concentration (Ci), and starch content of mesophyll tissue. In the vegetative growth, elevated temperature increased total number of shoot and total shoot growth per tree, but elevated $CO_2$ decreased average shoot length. In the fruit quality, elevated $CO_2$ increased soluble solid content, fruit red color, and ethylene production. In conclusion, elevated $CO_2$ increased photosynthetic rate of apples during the early growth, but effect of increased photosynthetic rate due to elevated $CO_2$ was decreased during latter growth stage. Elevated temperature, on the other hand, tended to decrease photosynthetic rate of apples during the early growth, but that tended to increase during latter growth stage. Both elevated $CO_2$ and temperature tended to decrease the degree of decreased photosynthetic rate due to each factor.

Photosynthetic Characteristics and Cellular Tissue of Chinese Cabbage are Affected by Temperature and $CO_{2}C$ Concentration (온도와 $CO_{2}C$ 농도에 따른 배추의 광합성특성 및 세포조직의 변화)

  • Lee, Sang-Gyu;Moon, Ji-Hye;Jang, Yoon-Ah;Lee, Woo-Moon;Cho, Ill-Hwan;Kim, Seung-Yu;Ko, Kwan-Dal
    • Journal of Bio-Environment Control
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    • v.18 no.2
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    • pp.148-152
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    • 2009
  • Numerous studies have presented evidence that global atmospheric carbon dioxide ($CO_{2}$ ) concentration and temperature is increasing every year. Both of the $CO_{2}$ and temperature are important components for photosynthesis activity of plants and thusgrowth and yield. However, little information is available in terms of the reaction of vegetable plants to increased $CO_{2}$ concentration and temperature, and also the reaction to a complex condition of both increased $CO_{2}$ concentration and temperature. The aim of this research was therefore to investigate changes in growth, photosynthetic activity and ultra-cellular structure of leaf tissue of Chinese cabbage. Plants were grown under either of elevated $CO_{2}$ concentration (elevated $CO_{2}$, 2-fold higher than atmospheric $CO_{2}$ ) or elevated temperature (elevated temp, 4$^{\circ}C$ higher than atmospheric temperature), under both of elevated $CO_{2}$ concentration and elevated temperature (elevated temp+$CO_{2}$), and under atmospheric $CO_{2}$ concentration and temperature (control). The treatment of 'elevated temp' negatively affected leaf area, fresh weight, chlorophyll and starch content. However, when the treatment of 'elevated temp' was applied coincidently with the treatment of 'elevated $CO_{2}$', growth and photosynthetic performance of plants were as good as those in the treatment of 'elevated $CO_{2}$', Microscopic study resulted that the highest starch content and density of cells were observed in the leaf tissue grown at the treatment of 'elevated $CO_{2}$', whereas the lowest ones were observed in the leaf tissue grown at the treatment of 'elevated temp'. These results suggest that when Chinese cabbage grows under a high-temperature condition, supplement of $CO_{2}$ would improve the growth and yield. In our knowledge, it is the first time to determine the effect of a complex relationship between the increased $CO_{2}$ concentration and temperature on the growth of Chinese cabbage.

Analytical assessment of elevated tank natural period considering soil effects

  • Maedeh, Pouyan Abbasi;Ghanbari, Ali;Wu, Wei
    • Coupled systems mechanics
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    • v.5 no.3
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    • pp.223-234
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    • 2016
  • The main purpose of current study is to find the soil effects on natural period of elevated tank. The coupled analytical method is used to assess in this study. The current study presented models which are capable to consider the soil dynamic stiffness changes and fluid- structure interaction effects on natural period of elevated tanks. The basic of mentioned models is extracted from elastic beam and lumped mass theory. The finite element is used to verify the results. It is observed that, external excitation can change the natural period of elevated tanks. Considering the increase of excitation frequency, the natural period will be decreased. The concluded values of natural period in case of soft and very soft soil are more affected from excitation frequency values. The high range of excitation frequency may reduce the natural period values. In addition it is observed that the excitation frequency has no significant effect on convective period compare with impulsive period.

Seismic evaluation of fluid-elevated tank-foundation/soil systems in frequency domain

  • Livaoglu, R.;Dogangun, A.
    • Structural Engineering and Mechanics
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    • v.21 no.1
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    • pp.101-119
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    • 2005
  • An efficient methodology is presented to evaluate the seismic behavior of a Fluid-Elevated Tank-Foundation/Soil system taking the embedment effects into accounts. The frequency-dependent cone model is used for considering the elevated tank-foundation/soil interaction and the equivalent spring-mass model given in the Eurocode-8 is used for fluid-elevated tank interaction. Both models are combined to obtain the seismic response of the systems considering the sloshing effects of the fluid and frequency-dependent properties of soil. The analysis is carried out in the frequency domain with a modal analysis procedure. The presented methodology with less computational efforts takes account of; the soil and fluid interactions, the material and radiation damping effects of the elastic half-space, and the embedment effects. Some conclusions may be summarized as follows; the sloshing response is not practically affected by the change of properties in stiff soil such as S1 and S2 and embedment but affected in soft soil. On the other hand, these responses are not affected by embedment in stiff soils but affected in soft soils.

Probabilistic analysis of seismically isolated elevated liquid storage tank using multi-phase friction bearing

  • Moeindarbari, Hesamaldin;Malekzadeh, Masoud;Taghikhany, Touraj
    • Earthquakes and Structures
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    • v.6 no.1
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    • pp.111-125
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    • 2014
  • Multiple level performance of seismically isolated elevated storage tank isolated with multi-phase friction pendulum bearing is investigated under totally 60 records developed for multiple level seismic hazard analysis (SLE, DBE and MCE). Mathematical formulations involving complex time history analysis have been proposed for analysis of typical storage tank by multi-phase friction pendulum bearing. Multi-phase friction pendulum bearing represent a new generation of adaptive friction isolation system to control super-structure demand in different hazard levels. This isolator incorporates four concave surfaces and three independent pendulum mechanisms. Pendulum stages can be set to address specific response criteria for moderate, severe and very severe events. The advantages of a Triple Pendulum Bearing for seismic isolation of elevated storage tanks are explored. To study seismic performance of isolated elevated storage tank with multi-phase friction pendulum, analytical simulations were performed with different friction coefficients, pendulum radii and slider displacement capacities.