• Horticultural Science & Technology
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• v.16 no.1
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• pp.25-26
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• 1998

Nutrient supplying by a metering pump often produces the inaccuracy in the rate of inflow than expected. In this study, we developed the transpiration estimation system using the metering pump to measure the continuous supplying rate as well as to estimate the accurate transpiration rate. The system showed the stable characteristics by eliminating the fluctuations in the head loss of nutrient tank. The direct proportionality between the supplying time and the supplied nutrient solution was obtained. The exact correlation between the integrated solar radiation and the transpiration rate using the system was calculated, and correlation coefficients between the two factors were 0.98 in the NFT system and 0.92 in the aggregate system. This results suggest that the integrated solar radiation was an important factor to directly decide the supplying volume of nutrient solution in soilless culture system. The deveolped system using the metering pump in the study was able to control the supply of the nutrient solution to the crops adjusting to the variation of solar radiation.

• Journal of Bio-Environment Control
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• v.6 no.3
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• pp.205-215
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• 1997

An accurate transpiration model for greenhouse tomato crop, which is liable to transpiration depression and yield loss because of low solar radiation and high humidity, could be an efficient tool for the optimum control of greenhouse climate and for the optimization of Irrigation scheduling. The purpose of this study was to develop transpiration model of greenhouse tomato and to carry out the experimental verification. The formulas to calculate the canopy transpiration and temperature simultaneously were derived from the energy balance of canopy. Transpiration and microclimate variables such as net radiation, solar radiation, humidity, canopy and air temperature, etc. were simultaneously measured to estimate parameters of model equations and to verify the suggested model. Leaf boundary layer resistance was calculated as a function of Nusselt number and stomatal diffusive resistance was parameterized by solar radiation and leaf-air vapor pressure deficit. The equation for stomatal diffusive resistance could explain more than 80％ of its variation and the calculated stomatal diffusive resistance showed good agreements with the measured values in situations independent of which the constants of the equation were estimated. The canopy net radiation calculated by Stanghellini's model with slight modification agreed well with the measured values. The present transpiration model, into which afore-mentioned component equations were assembled, was found to predict the canopy temperature, instantaneous and daily transpiration with considerable accuracy in greenhouse climates.

• Proceedings of the Korea Water Resources Association Conference
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• 2018.05a
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• pp.193-193
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• 2018

종합적인 물 관리의 필요성이 대두되면서 증발산량의 연구가 최근 활발히 진행되고 있다. 그 중 국제식량농업기구(FAO, Food and Agriculture Organization)는 여러 기후에서 비교적 정확하고 일정한 경향을 갖는 Penman-Monteith(FAO-PM) 공식을 제시하였다. 이 공식은 다양한 환경을 무시하고 기준작물인 알팔파를 기준으로하여 기준증발산량을 산정하는 식으로써 각 환경에 맞는 작물계수를 곱하여 실제 증발산을 산정한다. FAO-56 Irrigation and Drainage에서는 작물계수를 단일작물계수(Single crop coefficent)와 이중작물계수(Dual crop coefficent)를 제시하고 있다. 단일작물계수는 토양의 증발과 식생의 증산을 하나의 계수로 고려하여 나타냈으며, 이중작물계수는 기저토양의 습윤을 통한 증산뿐 아니라 다양한 영향들을 고려하여 작물계수를 나타냈다. 그 외에도 원격탐사를 통한 식생지수를 통한 작물계수를 통하여 계수를 산출하기도 한다. 현재 국토교통부 및 한국수자원조사기술원에서는 에디공분산(Eddy covariance) 방법을 통해 실제증발산량을 관측하고 있으며, 품질관리 과정에서 Kalman filter를 이용하고 시스템 모델로써 FAO-PM 방법 등을 이용하고 있다. 따라서 FAO-PM 방법의 정확성을 증대시키기 위해선 작물계수에 관한 정확성을 연구가 진행되어야 한다. 본 연구에서는 여러 방법을 통해 산출한 작물계수를 이용한 FAO-PM 방법을 통한 실제증발산과 에너지 보존 방정식에 근거한 에디공분산 방법 통해 관측된 실제증발산량과 비교를 하였다. 평가 결과는 보다 정확하고 물리적인 증발산량 산정하는데 활용할 수 있을 것으로 기대된다.

• Proceedings of the Korea Water Resources Association Conference
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• 2015.05a
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• pp.524-524
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• 2015

식물의 작물 계수는 실제 증발산량과 잠재 증발산량의 비로 정의되어지며, 이 인자는 식생의 종류, 성장 단계 및 다양한 기후 조건에 따른 작물 재배를 위한 관개에 필요한 물의 양을 예측하는데 매우 중요한 역할을 담당한다. 지점 기반의 작물계수는 다음과 같이 FAO-56 Irrigation and Drainage에서 제시한 Single 과 dual crop coefficient 접근법을 활용하여 계산되어 진다. Single crop coefficient는 하나의 계수에 지표면에서의 증발 및 식생에서의 증산에 대한 영향을 모두 고려한 접근법이며, dual crop coefficient는 지표면에서의 증발 및 식생에서의 증산에 의한 효과를 각각 상이한 계수로 정의하여 그들의 합을 통해 작물계수를 추정되어진다. 이러한 작물계수는 효율적인 수자원 관리를 위해서 광범위한 지역에 대한 작물 계수 산출 및 분석의 필요성이 대두되고 있을 뿐만 아니라, 지점 기반의 작물 계수는 공간적인 대표성을 갖지 못하기 때문에, 실제적인 적용을 위해서는 주변의 환경적 조건을 고려한 local calibration 작업이 추가적으로 수행되어야한다. 본 연구에서는 시공간적인 연속성을 가지는 인공위성을 활용하여 작물 계수를 산정하였으며, 지점 기반 작물 계수와의 비교를 통해 검증을 실시하였다. 또한, 인공위성 기반의 작물계수와 가뭄 분석에 널리 쓰이고 있는 식생상태지수 (Vegetation Condition Index) 와의 비교를 통하여 작물 계수를 통한 광범위한 지역에서의 가뭄 분석의 가능성 또한 분석하였다

• KCID journal
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• v.7 no.2
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• pp.26-33
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• 2000

This study was carried out to investigate the water requirement of green peppers which are cultivated in a greenhouse under the different soil water conditions. The meteorological conditions during the experiment period was not predominantly different fro

• Journal of Korean Society of Forest Science
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• v.75 no.1
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• pp.51-54
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• 1986

The good growth of Populus alba ${\times}$ P. glandulosa is shown at the foothill of the mountain where good soil moisture is available, but its growth is poor at the upper part of the mountain where soil moisture is limitted. Stomatal frequency, stomatal size and transpiration rates that affect soil moisture demand were determined in order to know how this character is inherited from its parents. Number of stomata per $mm^2$, length and width of stomata from the abaxial leaf and transpiration rate ($g/cm^2$) per day in P. alba ${\times}$ P. glandulosa showed intermediate values between those of their parents, while P. alba showed the highest values and P. davidiana the lowest values. The values of stomatal frequency of P. alba ${\times}$ P. glandulosa were close to the expected mean values of parents in the $x^2$ test, and in the regression analysis the transpiration rates for the hybrid and its midparent had strong relationship with 0.97 of regression coefficient. The fact that these intermediate characteristics were observed in the hybrid suggests incomplete dominance in the hybrid. It is concluded that soil moisture demand in P. alba ${\times}$ P. glandulosa and its parents is closed related to stomatal frequency, stomatal size and transpiration rate.

• Journal of Bio-Environment Control
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• v.22 no.2
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• pp.182-187
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• 2013

In closed plant production system like plant factory, changes in environmental factors should be identified for conducting efficient environmental control as well as predicting energy consumption. Since high relative humidity (RH) is essential for crop production in the plant factory, transpiration is closely related with RH and should be quantified. In this study, four varieties of lettuces (Lactuca sativa L.) were grown in a plant factory, and the leaf areas and transpiration rates of the plants according to DAT (day after transplanting) were measured. The coefficients of the simplified Penman-Monteith equation were calibrated in order to calculate the transpiration rate in the plant factory and the total amount of transpiration during cultivation period was predicted by simulation. The following model was used: $E_d=a*(1-e^{-k*LAI})*RAD_{in}+b*LAI*VPD_d$ (at daytime) and $E_n=b*LAI*VPD_n$ (at nighttime) for estimating transpiration of the lettuce in the plant factory. Leaf area and transpiration rate increased with DAT as exponential growth. Proportional relationship was obtained between leaf area and transpiration rate. Total amounts of transpiration of lettuces grown in plant factory could be obtained by the models with high $r^2$ values. The results indicated the simplified Penman-Monteith equation could be used to predict water requirements as well as heating and cooling loads required in plant factory system.

• Journal of Life Science
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• v.8 no.5
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• pp.557-562
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• 1998

This study was conducted to investigate the influence of soil moisture on the photosynthetic rate, transpiration rate, stomatal conductance, leaf water content and its any correlation in soybean. Followings were achieved as a conclusion. At the soil moisture was moved from drought condition to saturation condition, the photosynthetic rate, transpiration rate, stomatal conductance and leaf water content were gradually increased on the period of re-watering treatment. The recovery of photosynthetic rate was faster than others. There were positive correlation with the photosynthetic rate and leaf water content, the stomatal conductance and leaf water content, the photosynthetic rate and stomatal conductance respectively, but the correlation coefficient of photosynthetic rate and leaf water content was high.

• Magazine of the Korean Society of Agricultural Engineers
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• v.11 no.2
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• pp.1651-1660
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• 1969

The purpose of this study is to find out the reasonable amount of evapo-transpiration required for the paddy rice plant during the whole growing season. So. On the basis of the experimental data concerning the evapo-transpiration form 1966 to 1968, the author obtained the follow results. 1) The leaf area index in the densely planted plo is generally higher than that in the conventionally planted one during the first half of growing season So, the coefficient of transpiration in the former plot is somewaht higher than in the latter, and the coefficient of water surface evaporation under the plant cover has the inverse relation between both plots. 2) It is unreasonable that coefficient of evapo-transpiration is applied to the calculation of the evapo-transpiration requirements of each growing stage, because a degree of variation in meteorological factors and in the thickness of the plant growth is involved in it. 3) It is most reasonable that the rate of transpiration and of the water surface evapoation is applied to the calculation of the transpirated amount and evaporated one in each growing stage, because it shows almost constant value in spite of any meteorological conditions in so far as the variety of rice, planted density and control of applying fertilizer are sanme and the disease and blight are negligible. 4) The ratio of the amount of transpiration to the weight of the whole air dried yields has the tendency of decreasing as that of the yields increases having almost constant value despite the amount of pan evaporation; and the value is about 210 when the weight of root parts is included to that the yields. 5) Although the required amount of transpiration during the whole growing season can be calculated with the above ratio, Fig. 7 showing the relation between the amount of transpiration and the weight of the yields is more reasonable and will be convinient to find it. And the requirements of water surface evaporation during the same season can also be directly found witht theweight air dried straw refering to Fig. 8.

• Journal of Bio-Environment Control
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• v.32 no.1
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• pp.1-7
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• 2023

Understanding the light environment in greenhouse cultivation and the light utilization characteristics of crops is important in the study of photosynthesis and transpiration. Also, as the plant grows, the form of light utilization changes. Therefore, this study aims to develop a light extinction coefficient model reflecting the plant growth. To measure the extinction coefficient, five pyranometers were installed vertically according to the height of the plant, and the light intensity by height was collected every second during the entire growing season. According to each growth stage in the early, middle, and late stages, the difference between the top and bottom light intensity tended to increase to 69%, 72%, and 81%. When leaf area index and plant height increased, the extinction coefficient decreased, and it showed an exponential decay relationship. Three-dimensional model reflecting the two growth indexes, the paraboloid had the lowest RMSE of 1.340 and the highest regression constant of 0.968. Through this study, it was possible to predict the more precise light extinction coefficient during the growing period of plants. Furthermore, it is judged that this can be utilized for predicting and analyzing photosynthesis and transpiration according to the plant height.