Application of Quadratic Rotation-Orthogonal Composite Experimental Design to Assess the Relationship between Growth Environment and Ultraweak Luminescence of Mint
1Zhejiang University (866 Yuhangtang Road * Hangzhou * Zhejiang Province * 310058 * P. R. China - Chine)
Abstract : Quadratic rotation-orthogonal composite experimental design was applied in this experiment to obtain the ultraweak luminescence property of mint affected by multilateral growth environmental factors including illumination, temperature, humidity, and moisture. The influence models of four factors on luminescence were established. Analysis showed that different factors and their interactions had different effect on luminous value, among which the interaction of illumination and humidity had the most significant influence on luminescence of mint (p ≤ 0.01). And the maximum luminous value was obtained when ten stick of lamp tube (intensity of illumination value 4229 Lx) was used, mean temperature, humidity and water were 35 ℃, 85% and 90 mL/d respectively. On the base of that, linear effects and their interactions that affected ultraweak luminescence were also studied.
Daoliang Li; Yingyi Chen. 6th Computer and Computing Technologies in Agriculture (CCTA), Oct 2012, Zhangjiajie, China. Springer, IFIP Advances in Information and Communication Technology, AICT-393 (Part II), pp.109-116, 2013, Computer and Computing Technologies in Agriculture VI. 〈10.1007/978-3-642-36137-1_14〉
https://hal.inria.fr/hal-01348221
Contributeur : Hal Ifip
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Soumis le : vendredi 22 juillet 2016 - 15:49:44
Dernière modification le : vendredi 22 juillet 2016 - 16:04:43
Document(s) archivé(s) le : dimanche 23 octobre 2016 - 13:45:23
Yao Zhan, Yi Lin, Chunfang Wang, Jianping Li, Yong Yu. Application of Quadratic Rotation-Orthogonal Composite Experimental Design to Assess the Relationship between Growth Environment and Ultraweak Luminescence of Mint. Daoliang Li; Yingyi Chen. 6th Computer and Computing Technologies in Agriculture (CCTA), Oct 2012, Zhangjiajie, China. Springer, IFIP Advances in Information and Communication Technology, AICT-393 (Part II), pp.109-116, 2013, Computer and Computing Technologies in Agriculture VI. 〈10.1007/978-3-642-36137-1_14〉. 〈hal-01348221〉
