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Biotron Institute Kyushu University | 論文
- Response of Mungbean to Irrigation Frequency and Irrigation Water Volume Applied during Pod Formation Stage
- Kinetics of Root Ion Absorption Affected by Environmental Factors and Transpiration : II. Environmental Effects and a Concentration-Dependent Model
- Removal of Cd from Actual Soils Polluted with Cd and Zn and Cd-added Soils by Brassica juncea and Zea mays
- ENVIRONMENT CONTROL IN AN ARTIFICIAL LIGHT GROWTH CHAMBER FOR SIMULATING A SPECIFIC CLIMATE OF A LOWLAND RICE FIELD AT A LOCAL AREA IN JAPAN
- Kinetics of Root Ion Absorption Affected by Environmental Factors and Transpiration : I. Measurement System for Intact Roots
- GROWTH OF CUCUMBER PLANTS (CUCUMIS SATIVUS L.) UNDER DIURNAL CONTROL OF AIR TEMPERATURE
- GROWTH OF SWEETPOTATO TUBER AS AFFECTED BY THE AMBIENT HUMIDITY
- ANALYSIS OF GROWTH, WATER BALANCE AND RESPIRATION OF TOMATO FRUITS UNDER WATER DEFICIT BY USING A MULTIPLE CHAMBER SYSTEM
- TEMPERATURE DEPENDENCE OF POSTPHLOEM TRANSPORT REGULATED BY RESPIRATION IN TOMATO FRUITS
- RESPIRATION, SAP FLUX, WATER BALANCE AND EXPANSIVE GROWTH IN TOMATO FRUIT
- ON-LINE MEASUREMENTS OF CO_2 AND H_2O GAS FLUXES, SAP FLUX AND EXPANSIVE GROWTH IN AN INTACT TOMATO FRUIT
- GROWTH OF LETTUCE PLANTS (LACTUCA SATIVA L.) UNDER CONTROL OF DISSOLVED O_2 CONCENTRATION IN HYDROPONICS
- EVALUATION OF PHOTOASSIMILATE FLUX THROUGH A TOMATO PEDICEL
- GROWTH OF LETTUCE PLANTS (LACTUCA SATIVA L.) UNDER VARIABLE-VALUE CONTROL OF AIR TEMPERATURE BY USING NATURAL LIGHT INTENSITY AS FEEDBACK SIGNAL
- Mathematical Model of Flower Stalk Development in Chinese Cabbage in Response to Low Temperature
- INTERACTIVE DYNAMICS OF FRUIT AND STEM GROWTH IN TOMATO PLANTS AS AFFECTED BY ROOT WATER CONDITION II. RELATION WITH SUCROSE TRANSLOCATION
- INTERACTIVE DYNAMICS OF FRUIT AND STEM GROWTH IN TOMATO PLANTS AS AFFECTED BY ROOT WATER CONDITION I. EXPANSION AND CONTRACTION OF FRUIT AND STEM
- GROWTH OF CUCUMBER PLANTS (CUCUMIS SATIVUS L.) UNDER VARIABLE-VALUE CONTROL OF AIR TEMPERATURE BY USING NATURAL LIGHT INTENSITY AS FEEDBACK SIGNAL
- CONTROL OF EVAPORATIVE DEMAND ON TRANSPIRING PLANTS III. TRANSPIRATION AND GROWTH OF CUCUMBER UNDER CONTROLLED EVAPORATIVE DEMAND
- CONTROL OF EVAPORATIVE DEMAND ON TRANSPIRING PLANTS II. CONTROL ALGORITHM AND PERFORMANCE