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Chun C, Watanabe A, Kim H-H, Kozai T and Fuse J 2000 Bolting and growth of Spinach (Spinacia oleracea L.) can be altered by using artificial lighting to modify the photoperiod during transplant production. HortSci. 35, 624-626.

Chun C and Kozai T 2001 A closed-type transplant production system. In Molecular Breeding of Woody Plants. Eds. N Morohoshi, and A Komamine. pp 375-384. Elsevier Science B.V., The Netherlands.

Donnelly C S and Fisher P R 2002 Effect of high pressure sodium lighting on greenhouse production of vegetative cuttings for ten species of annual floricultural crops. Acta Hort. 590, 221-228.

Kozai T, Kubota C, Heo J, Chun C, Ohyama K, Niu G and Mikami H 1998 Towards Efficient Vegetative Propagation and transplant production of Sweetpotato (Ipomoea batatas (L.) Lam.) under Artificial Light in Closed Systems. In Proc. of International Workshop on Sweetpotato Production System toward the 21st Century. pp 201-214. Miyazaki, Japan.

Kozai T 1998 Transplant Production under Artificial Light in Closed Systems. In Asian Crop Science 1998 pp 296-308. Eds. H-Y Lu, J-M Sung and C H Kao. Proc. of the 3rd Asian Crop Science Conference Taichung, Taiwan.

Kozai T, Ohyama K, Afreen F, Zobayed S, Kubota C, Hoshi T and Chun C 1999 Transplant production in closed systems with artificial lighting for solving global issues on environmental conservation, food, resource and energy. In Proc. of ACESYS III Conference. pp 31-45. Rutgers University, CCEA (Center for Controlled Environment Agriculture).

Kozai T, Kubota C, Chun C and Ohyama K 2000a Closed transplant production systems with artificial lighting for quality control, resource saving and environment conservation. In Proceedings of The XIV Memorial CIGR World Congress 2000. pp 103-110. Nov.28-Dec.1, Tsukuba, Japan.

Kozai T, Chun C, Ohyama K and Kubota C 2000b Closed transplant production systems with artificial lighting for production of high quality transplants with environment conservation and minimum use of resource. In Proceedings of The 15th Workshop on Agricultural Structures and ACESYS (Automation, Culture, Environment and System) W Conference. pp 110-126. Dec.4-5, Tsukuba, Japan.

Kozai T, Kubota C, Chun C, Afreen F and Ohyama K 2000c Necessity and concept of the closed transplant production system, In Transplant Production in the 21st Century. Eds. C Kubota and C Chun. pp 3-19. Kluwer Academic Publishers.

Kozai T, Chun C and Ohyama K 2004 Closed systems with lamps for commercial production of transplants using minimal resources. Acta Hort. 630, 239-254.

Kubota C and Chun C (Eds.) 2001 Transplant Production in the 21st Century. Kluwer Academic Publishers, Dordrecht, The Netherlands. 290 pp.

Kubota C and Kozai T 2001 Mathematical models for planning vegetative propagation under controlled environments. HortSci. 36, 15-19.

Lok Y H, Ohyama K, Kubota C and Kozai T 2002 Sweetpotato propagule production rate and electric energy consumption in a closed transplant production system as affected by planting density. J. High Technology in Agriculture 14, 10-17. (JE).

Mercelis L F M, Maas F M and Heuvelink E 2002 The latest developments in the lighting technologies in Dutch horticulture. Acta Hort. 580, 35-40.

Ohyama K and Kozai T 1998 Estimating electric energy consumption and its cost in a transplant production factory with artificial lighting: A case study. J. High Technology in Agriculture 10, 96-107. (JE).

Ohyama K, Yoshinaga K and Kozai T 2000a Energy and mass balance of a closed-type transplant production system (part 1) - Energy balance. J. High Technology in Agriculture. 12, 160-167. (JE).

Ohyama K, Yoshinaga K and Kozai T 2000b Energy and mass balance of a closed-type transplant production system (part 2) - Water balance. J. High Technology in Agriculture 12, 217-224. (JE).

Ohyama K, Fujiwara M, Kozai T and Chun C 2001 Consumption of electric energy and water for eggplant transplant production in a closed-type transplant production system. J. High Technology in Agriculture 13, 1-6. (JE).

Ohyama K, Kozai T, Kubota C, Chun C, Hasegawa T, Yokoi S and Nishimura M 2002 Coefficient of performance for cooling of a home-use air conditioner installed in a closed-type transplant production system. J. High Technology in Agriculture 14, 141-146. (JE).

Ohyama K, Manabe K, Omura Y, Kubota C and Kozai T 2003 A comparison between closed-type and open-type transplant production systems with respect to quality of tomato plug transplants and resource consumption during summer. Environ. Control Biol. 41, 57-61.

Omura Y, Chun C, Kozai T, Arai K and Okabe K 2000 High quality plug-transplants produced in a closed system enables pot-transplants production of pansy in the summer. In Transplant Production in the 21st Century. Eds. C Kubota and C Chun. pp 145-148. Kluwer Academic Publishers.

Yoshinaga K, Ohyama K and Kozai T 2000 Energy and mass balance of a closed-type transplant production system (part 3) - Carbon dioxide balance. J. High Technology in Agriculture 12, 225-231. (JE).

Note: Literature with '(JE)' at the end denotes that the paper is written in Japanese with English abstract and figure/table captions.

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