著者
石神 靖弘 後藤 英司
出版者
日本植物工場学会
巻号頁・発行日
vol.20, no.4, pp.228-235, 2008 (Released:2011-02-04)
著者
石神 靖弘 後藤 英司
出版者
日本生物環境工学会
雑誌
植物環境工学 (ISSN:18802028)
巻号頁・発行日
vol.20, no.4, pp.228-235, 2008-12-01 (Released:2009-09-04)
参考文献数
24
被引用文献数
2 2

In order to achieve plant production in a closed ecological life support system (CELSS) in space, environmental control is a key technology because the environment is completely artificial. One advantage of the CELSS in space is that each module's gas composition and total pressure can be regulated at an optimal level. For example, the nitrogen contained in air is not necessary for plant growth, and low oxygen concentration may enhance net photosynthesis by reducing photorespiration. Hypobaric conditions, obtained by reducing nitrogen and oxygen concentrations, could facilitate gas control, reduce construction costs, and simplify maintenance of modules on a lunar base and in plant production systems on Mars. This review summarizes previous papers and evaluates significant effects of total pressure on growth and development of higher plants, especially crops. Previous studies showed that photosynthesis and transpiration of plants were enhanced under low total pressures because gas diffusion rates increase at low total pressures. Spinach and lettuce in vegetative stages can grow normally under 25 to 50 kPa total pressures. Seeds of rice and Arabidopsis thaliana germinated at 25 kPa total pressure. Flowering was normal in Arabidopsis under hypobaric conditions. Seed growth of soybean and Arabidopsis under low total pressures with a low O2 partial pressure was greater than under the atmospheric pressure with the same O2 partial pressure. This indicates that O2 concentrations inside siliques were maintained higher by the higher diffusion rates prevailing under hypobaric conditions. The results indicate that if total and partial pressures are controlled precisely, plants can grow normally in their life cycle from germination to harvest under hypobaric conditions.
著者
石神 靖弘
出版者
千葉大学
雑誌
若手研究(B)
巻号頁・発行日
2010

本研究では、近年拡大しつつある大規模温室での安定的な周年生産における複合環境制御技術の確立のために、園芸施設の環境制御に必要なコスト、具体的には夏季に蒸発冷却法の一種である細霧冷房を用いた場合の冷房効果、および冬季における暖房にかかるコストを推定するモデルを開発し、年間を通じた運用コストの推定をおこなった。その結果、年間の環境制御にかかるコストを地域ごとに推定することが可能となった。