본(本) 연구(硏究)는 고추냉이의 광합성(光合成) 효율증진(效率增進)을 위한 기상환경(氣象環境)에 조건(條件)을 알아내어 재탑적지(栽培適地)의 선정(選定)과 재배관리(栽培管理)에 대한 기초적(基礎的)인 자료(資料)를 제공(提供)하고자 온도(提供)와 광도(光度), 그리고 CO2의 농도(農度)에 대한 광합성(光合成), 청호흡(晴呼吸) 그리고 광호흡(光呼吸)의 반응(反應)을 조사(調査)하였다. 1. 고추냉이의 광합성(光合成)에 최적온도(最適溫度)는 17~20℃이었고 최적온도(最適溫度) 이상(以上)에서 광합성(光合成)이 크게 감소(減少)하였으며, 암호흡(暗呼吸)은 15℃에서 30℃까지 온도(溫度)가 높아질수록 증가(贈加)하였다. 2. 광보상점(光補償點)은 고추냉이가 6.0 μE m-2s-1으로 옥수수의 36.7μE m-2s-1보다 낮았으며 광포화점(光飽和點)은 고추냉이와 옥수수 모두 600μE m-2s-1로 비슷하였다. 3. CO2 보상점(補償點)은 고추냉이가 67. 3 ppm으로 옥수수 11.6 ppm보다 높았으며 암호흡(暗呼吸)은 CO2의 농도(濃度)가 낮을수록 높았다. 4. 고추냉이의 광호흡(光呼吸)은 광도(光度) l000μE m-2s-1에서 3.3 mg CO2 dm-2 hr-1이었으며 광도(光度)가 낮아짐에 따라 감소(減少)하였다. 5. 기공(氣孔)의 분포(分布)는 잎의 표면(表面)에 약 76개/mm-2, 뒷면에 623개/mm-2이었으며 기공(氣孔)의 크기는 표면(表面)의 것이 12μm이고 뒷면의 것이 17μ로 나타났다.

Catalytic slurry reactors, in which a solid maintained in the form of fine particles suspended in a liquid, are frequently used in chemical and biochemical and industries. In these processes the particle loading is normally low so that the effects of particles on the liquid-film mass transfer coefficent and the gas-liquid interface area are assumed to be negligible. But it is known from the works, amongst others, that the finely powdered activated carbon can increase the gas-liquid mass transfer significantly in surface-aerated reactors. The stirred cell (13.2cm inside diameter) contained four baffles and at the stirring speeds range of 80∼300rpm, the gas-liquid interfacial area could be considered as that of the cross section of the vessel (that is, 130.1㎝2). When the stirrer speeds were increased, the effective interfacial area was slightly higher than the geometric area and was obtained experimentally from the Danckwerts`plots.

This paper presents the disributions and variations of CO,CO_2, number of people and temperature in underground shopping center and subway of Seomyeon and Jagalchi in Pusan, Korea for two times during October and November in 1993, respectively. NDIR analyzer is used for the analysis of CO and CO_2. The temperature is obtained from a mercury therometer. The results of observation and analysis show that the variation of CO_2 is strongly related to number of people and temperature. The correlation coefficients between temperature, CO_2 and number of people are higher than 0.85 at both of places. The pollution of CO_2 of Seomyeon is higher than that of Jagachi in underground shopping center. However, CO is not correlated with the temperature and the number of people. From the results, we found that the indoor air quality monitoring system is needed for the prevention of the underground air pollution.

At the close of the year 1990, tombs in south Korea will cover the area of 940 ㎢, which is 0.9% of the entire landspace. Annual increase of 200,000 tombs is encroaching on landspace by 10 ㎢. It is estimated that the decrease in the forest area caused by tombs results a decrease both in the production of O_2 by 912,000 tons and in the absorption of CO_2 by 1,254,800tons per year. As a result, there will be an increase in the amount of CO_2, which is one of the factors that cause the greenhouse effect.

The atmospheric carbon dioxide concentration is ever-increasing and expected to reach about 600 ppmv some time during next century. Such an increase of CO2 may cause a warming of the earth's surface of 1.5 to 4.5~circC , resulting in great changes in natural and agricultural ecosystems. The climatic scenario under doubled CO2 projected by general circulation model of Goddard Institute for Space Studies(GISS) was adopted to evaluate the potential impact of climate change on agroclimatic resources, net primary productivity and rice productivity in Korea. The annual mean temperature was expected to rise by 3.5 to 4.0~circC and the annual precipitation to vary by -5 to 20% as compared to current normal climate (1951 to 1980), resulting in the increase of possible duration of crop growth(days above 15~circC in daily mean temperature) by 30 to 50 days and of effective accumulated temperature(EAT=∑Ti, Ti~geq 10~circC ) by 1200 to 1500~circC . day which roughly corresponds to the shift of its isopleth northward by 300 to 400 km and by 600 to 700 m in altitude. The hydrological condition evaluated by radiative dryness index (RDI =Rn/ ~ell P) is presumed to change slightly. The net primary productivity under the 2~times CO2 climate was estimated to decrease by 3 to 4% when calculated without considering the photosynthesis stimulation due to CO2 enrichment. Empirical crop-weather model was constructed for national rice yield prediction. The rice yields predicted by this model under 2 ~times CO2 climatic scenario at the technological level of 1987 were lower by 34-43% than those under current normal climate. The parameters of MACROS, a dynamic simulation model from IRRI, were modified to simulate the growth and development of Korean rice cultivars under current and doubled CO2 climatic condition. When simulated starting seedling emergence of May 10, the rice yield of Hwaseongbyeo(medium maturity) under 2 ~times CO2 climate in Suwon showed 37% reduction compared to that under current normal climate. The yield reduction was ascribable mainly to the shortening of vegetative and ripening period due to accelerated development by higher temperature. Any simulated yields when shifted emergence date from April 10 to July 10 with Hwaseongbyeo (medium maturity) and Palgeum (late maturity) under 2 ~times CO2 climate did not exceed the yield of Hwaseongbyeo simulated at seedling emergence on May 10 under current climate. The imaginary variety, having the same characteristics as those of Hwaseongbyeo except growth duration of 100 days from seedling emergence to heading, showed 4% increase in yield when simulated at seedling emergence on May 25 producing the highest yield. The simulation revealed that grain yields of rice increase to a greater

보리(Hordeum vulgare)의 유묘이 14 co2 를 10분 및 30분간 처리한 후 잎을 채취하여 아미노산, 당, 인산염 및 유기산과 같은 수용성 대사물질을 분석하였다. 배양기간에 따른 label 정도는 비슷하였으나 종류와 양에 있어서는 차이가 있었다. 10분 처리시에는 아미노산 분획보다 중성분회(당, 인산염에스퇴르 및 유기산)에서 label 양이 4.5배 증가하였으나 30분 처리시에는 1.7배로 감소하였다. 당분획에 있어서는 처리 시간이 길어짐에 따라 label 양이 약간 증가 하였으나 아미노산 분획에 있어서는 양과 질적으로 label 양이 현저히 증가하였다. 탄소 동화율은 10분에서 30분으로 길어질수록 현저히 감소하였다(0.125대 0.034와 0.042 mole CO2 /mg 엽록소/분).