Effects of leaf area index of tomato seedling populations on energy utilization efficiencies in a closed transplant production system
2003
Yokoi, S. (Chiba Univ., Matsudo (Japan). Faculty of Horticulture) | Kozai, T. | Ohyama, K. | Hasegawa, T. | Chun, C. | Kubota, C.
Abstract PUE subP and PUE subL, Photosynthetically active radiation (PAR) energy utilization efficiencies were calculated by dividing the chemical energy fixed in plants by the PAR energy measured at the top of plant populations and by the theoretical value of total PAR energy on lamp surfaces, respectively. EUE, electric energy utilization efficiency of a closed transplant production system, was also calculated using the total electric energy consumed in the system as a denominator. Tomato seedlings on plug trays were grown for 20 days in the closed system in which air current speed and CO2 concentration were controlled at 0.53=+-0.07 ms sup(-1) and 1040=+-50 mmol mol sub(-1), respectively, and the effect of leaf area index (LAI) of tomato seedling populations on PUE subP, PUE subL and EUE were investigated. The maximal values of PUE subP PUE subL and EUE during the present study were 0.10, 0.075 and 0.015, respectively, which were obtained when the LAI reached the maximal value of 2.4. The maximal value of PUE subP (0.10) obtained in the present study was greater than the theoretical maximal value that Beadle and Long (1985) reported for C3 plants grown under ambient CO2 concentration. Results suggest that a closed system is energy efficient for transplant production and the efficiency could be even higher with a greater planting density and optimized air current speed and CO2 concentration.
Mostrar más [+] Menos [-]Palabras clave de AGROVOC
Información bibliográfica
Este registro bibliográfico ha sido proporcionado por Agriculture, Forestry and Fisheries Research Information Technology Center