在不同光谱下生长的百里香叶的检查

IF 0.5 Q4 OPTICS
A. Mazikowski, Mateusz Feldzensztajn
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CrossRef \nJ. Yan, H. Liu, W. Zhao, Y. Su, \"Photon flux calibration of LED in horticulture lighting\", Proc. SPIE 12319(2022). CrossRef \nB. Purabi, V.K. Venugopalan, R. Nath, P.K. Chakraborty, A. Gaber, W.F. Alsanie, B.M. Raafat, A. Hossain. 2022. \"Seed Priming and Foliar Application of Nutrients Influence the Productivity of Relay Grass Pea (Lathyrus sativus L.) through Accelerating the Photosynthetically Active Radiation (PAR) Use Efficiency\" Agronomy 12, 1125 (2022). CrossRef \nT. Hegemann, J. Balasus, Q. Trinh, A. Herzog, T. Khanh, \"Using spectral sensors to determine photosynthetic photon flux density in daylight - A theoretical approach\". Light Res. Technol. 54, 429 (2022). CrossRef \nR.J. Ritchie, \"Modelling photosynthetic photon flux density and maximum potential gross photosynthesis\", Photosynthetica 48, 596 (2010). CrossRef \nD. Kulpa, A. Wesolowska, P. Jadczak, \"Micropropagation and Composition of Essentials Oils in Garden Thyme (Thymus vulgaris L.)\" Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 46, 525 (2018). CrossRef \nV. R. Affonso, H.R. Bizzo, C.L.S. Lage, A. Sato, \"Influence of Growth Regulators in Biomass Production and Volatile Profile of in Vitro Plantlets of Thymus vulgaris L\", J. Agric. Food Chem., 57, 6392 (2009) CrossRef \nW. Letchamo ,A. Gosselin, \"Transpiration, essential oil glands, epicuticular wax and morphology of Thymus vulgaris are influenced by light intensity and water supply\", J. Hortic. Sci, 71 (1996). CrossRef \nM. Feldzensztajn,, P. Wierzba, A. Mazikowski, \"Examination of Spectral Properties of Medicinal Plant Leaves Grown in Different Lighting Conditions Based on Mint Cultivation\", Sensors, 21, 4122 (2021) CrossRef \nH. Spalholz, P. Perkins-Veazie, R. Hernández, \"Impact of sun-simulated white light and varied blue:red spectrums on the growth, morphology, development, and phytochemical content of green- and red-leaf lettuce at different growth stages\". Sci. Hortic., 264, 109195 (2020). CrossRef \nJ.M. Tabbert, H. Schulz, A. Krähmer., \"Increased Plant Quality, Greenhouse Productivity and Energy Efficiency with Broad-Spectrum LED Systems: A Case Study for Thyme (Thymus vulgaris L.)\", Plants 10, 960 (2021). CrossRef \n","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":" ","pages":""},"PeriodicalIF":0.5000,"publicationDate":"2023-07-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Examination of thyme leaves grown under different spectra\",\"authors\":\"A. 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引用次数: 0

摘要

如今,人造光经常用于园艺。从消费者的角度来看,适当的光成分可能会对植物特性产生重大影响。在百里香实验栽培的基础上,对不同光谱下生长的百里香叶片进行了检测。测定了透射光谱、比色特性、干物质产量以及生物特征(叶片形状)。还注意到光源的能量效率问题。全文:PDF参考文献D.L.DiLaura,K.W.Houser,R.G.Mistrick,G.R.Steffy,照明手册,照明工程学会,2011年。DirectLink CREE公司,CREE®2835 LED产品系列数据表(2023年2月19日访问)。CrossRef DirectLink M.Gilewski,“光在植物世界中的作用”,Phot。Lett.Pol.,11115(2019)。CrossRef J.Yan,H.Liu,W.赵,Y.Su,“园艺照明中LED的光子通量校准”,Proc。SPIE 12319(2022)。CrossRef B.Purabi、V.K.Venugopalan、R.Nath、P.K.Chakraborty、A.Gaber、W.F.Alsanie、B.M.Raafat、A.Hossain。2022.“种子激发和养分的叶片施用通过加速光合活性辐射(标准杆数)的利用效率影响中继草豌豆(Lathyrus sativus L.)的生产力”农学121125(2022)。CrossRef T.Hegemann,J.Balasus,Q.Trinh,A.Herzog,T.Khanh,“使用光谱传感器确定日光下的光合光子通量密度——一种理论方法”。Light Res.Technol。54229(2022)。CrossRef R.J.Ritchie,“模拟光合光子通量密度和最大潜在总光合作用”,《光合作用》48596(2010)。CrossRef D.Kulpa,A.Wesolowska,P.Jadczak,“花园百里香(Thymus vulgaris L.)中精油的微繁殖和组成”,Notulae Botanicae Horti Agroblantici Cluj Napoca,46525(2018)。CrossRef V.R.Affonso,H.R.Bizzo,C.L.S.Lage,A.Sato,“生长调节剂对寻常胸腺离体植株生物量生产和挥发性特征的影响”,农业学报。食品化学。,576392(2009)CrossRef W.Letchamo,A。Gosselin,“寻常胸腺的蒸腾、精油腺、表皮蜡和形态受光照强度和供水的影响”,J.Hortic。科学,71(1996)。CrossRef M.Feldzensztajn,P.Wierzba,A.Mazikowski,“基于薄荷栽培的不同光照条件下生长的药用植物叶片的光谱特性检查”,传感器,214122(2021)CrossRef H.Spalholz,P.Perkins Veazie,R.Hernández,“模拟阳光的白光和不同的蓝:红光谱对不同生长阶段绿叶和红叶莴苣的生长、形态、发育和植物化学成分的影响”。科学。Hortic。,264109195(2020)。CrossRef J.M.Tabbert,H.Schulz,A.Krähmer。,“利用广谱LED系统提高植物质量、温室生产力和能源效率:百里香(Thymus vulgaris L.)的案例研究”,《植物》10960(2021)。CrossRef
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Examination of thyme leaves grown under different spectra
Nowadays artificial light is often used in horticulture. Proper light composition may have significant impact on plant properties, important from the consumer's point of view. Based on experimental cultivation of thyme, examination of thyme leaves grown under different spectra was performed. Transmissive spectra, colorimetric properties, dry mass yield as well as biometrical properties (shape of leaves) were determined. Attention to the issues of energy efficacy of light sources was also paid. Full Text: PDF References D.L. DiLaura, K.W. Houser, R.G. Mistrick, G.R. Steffy, The lighting handbook, Illuminating Engineering Society, 2011. DirectLink CREE Inc, Cree® 2835 LEDs Product family datasheet, (accessed 19 february 2023). CrossRef DirectLink M. Gilewski, "The role of light in the plants world", Phot. Lett.Pol., 11, 115 (2019). CrossRef J. Yan, H. Liu, W. Zhao, Y. Su, "Photon flux calibration of LED in horticulture lighting", Proc. SPIE 12319(2022). CrossRef B. Purabi, V.K. Venugopalan, R. Nath, P.K. Chakraborty, A. Gaber, W.F. Alsanie, B.M. Raafat, A. Hossain. 2022. "Seed Priming and Foliar Application of Nutrients Influence the Productivity of Relay Grass Pea (Lathyrus sativus L.) through Accelerating the Photosynthetically Active Radiation (PAR) Use Efficiency" Agronomy 12, 1125 (2022). CrossRef T. Hegemann, J. Balasus, Q. Trinh, A. Herzog, T. Khanh, "Using spectral sensors to determine photosynthetic photon flux density in daylight - A theoretical approach". Light Res. Technol. 54, 429 (2022). CrossRef R.J. Ritchie, "Modelling photosynthetic photon flux density and maximum potential gross photosynthesis", Photosynthetica 48, 596 (2010). CrossRef D. Kulpa, A. Wesolowska, P. Jadczak, "Micropropagation and Composition of Essentials Oils in Garden Thyme (Thymus vulgaris L.)" Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 46, 525 (2018). CrossRef V. R. Affonso, H.R. Bizzo, C.L.S. Lage, A. Sato, "Influence of Growth Regulators in Biomass Production and Volatile Profile of in Vitro Plantlets of Thymus vulgaris L", J. Agric. Food Chem., 57, 6392 (2009) CrossRef W. Letchamo ,A. Gosselin, "Transpiration, essential oil glands, epicuticular wax and morphology of Thymus vulgaris are influenced by light intensity and water supply", J. Hortic. Sci, 71 (1996). CrossRef M. Feldzensztajn,, P. Wierzba, A. Mazikowski, "Examination of Spectral Properties of Medicinal Plant Leaves Grown in Different Lighting Conditions Based on Mint Cultivation", Sensors, 21, 4122 (2021) CrossRef H. Spalholz, P. Perkins-Veazie, R. Hernández, "Impact of sun-simulated white light and varied blue:red spectrums on the growth, morphology, development, and phytochemical content of green- and red-leaf lettuce at different growth stages". Sci. Hortic., 264, 109195 (2020). CrossRef J.M. Tabbert, H. Schulz, A. Krähmer., "Increased Plant Quality, Greenhouse Productivity and Energy Efficiency with Broad-Spectrum LED Systems: A Case Study for Thyme (Thymus vulgaris L.)", Plants 10, 960 (2021). CrossRef
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