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作者机构:Aristotle Univ Thessaloniki Dept Agr Fac Agr Forestry & Nat Environm Thessaloniki 54124 Greece Democritus Univ Thrace Dept Forestry & Management Environm & Nat Resourc Pantazidou 193 Nea Orestiada 68200 Greece Wageningen Univ Dept Plant Sci Hort & Product Physiol Grp POB 630 NL-6700 AP Wageningen Netherlands Fluence Bioengn Austin TX 78744 USA Rijk Zwaan Breeding BV Eerste Kruisweg 9 NL-4793 RS Fijnaart Netherlands
出 版 物:《SCIENTIA HORTICULTURAE》 (Sci. Hortic.)
年 卷 期:2018年第235卷
页 面:437-451页
核心收录:
学科分类:08[工学] 09[农学] 0902[农学-园艺学] 0834[工学-风景园林学(可授工学、农学学位)]
基 金:European Commission [FP7-286067 FP7-308313]
主 题:Light quality Greenhouse Growth chamber Vertical farming Photomorphogenesis Plant metabolism
摘 要:Light-emitting diode (LED) technology has rapidly advanced the past years and it is nowadays irrevocably linked with controlled-environment agriculture (CEA). We provide here an amalgamation of the recent research achievements in the horticulture and floriculture industry, ranging from greenhouse applications to climate rooms and vertical farming. We hope this overview bestows ample examples for researchers and growers in the selection of the appropriate LED light solution for amending crop yield, phytochemical content, nutritional value, flowering control, transplant success, pre-harvest and postharvest product quality, and production of regeneration material. We leave the reader with some future prospects and directions that need to be taken into account in this ever-growing field.