The 24 references in paper M. Belov L., A. Cherpakova A., V. Gorodnichev A., S. Alykov V., М. Белов Л., А. Черпакова А., В. Городничев А., С. Альков В. (2017) “Оптимизация спектральных информационных каналов для флуоресцентного контроля состояния растений // Optimization of Spectral Data Channels for Fluorescence Vegetation Monitoring” / spz:neicon:radiovega:y:2017:i:3:p:29-42

1
Jian Yang, Wei Gong, Shuo Shi, Lin Du, Jia Sun, Sha-lei Song. Laser-induced fluorescence characteristics of vegetation by a new excitation wavelength // Spectroscopy Letters. 2016. Vol. 49. No. 4. Pp. 263–267. DOI: 10.1080/00387010.2016.1138311
(check this in PDF content)
2
Федотов Ю.В., Булло О.А., Белов М.Л., Болвачев В.В., Городничев В.А. Экспериментальное исследование лазерного флуоресцентного метода контроля состояния растений для стрессовых состояний, вызванных механическим повреждением корневой системы // Наука и образование. МГТУ им. Н.Э. Баумана. Электрон. журн. 2014. No 12. С. 534-549. DOI: 10.7463/1214.0739882
(check this in PDF content)
3
Jian Yang, Wei Gong, Shuo Shi, Lin Du, Jia Sun, Sha-lei Song. The effective of different excitation wavelengths on the identification of plant species based on fluorescence lidar // Intern. archives of the photogrammetry, remote sensing and spatial information sciences: XXIII Congress (Prague, Czech Rep, July 12-19, 2016). 2016. Vol. XLI-B1. Pp. 147-150. DOI: 10.5194/isprsarchives-XLI-B1-147-2016
(check this in PDF content)
4
Saito K. Plant and vegetation monitoring using laser-induced fluorescence spectroscopy // Fukuchi T., Shiina T. Industrial applications of laser remote sensing. Sharjah: Bentham Science, 2012. Pp. 99-114. DOI: 10.2174/97816080534071120101
(check this in PDF content)
5
Hedimbi M., Singh S., Kent A. Laser induced fluorescence study on the growth of maize plants // Natural Science. 2012. Vol. 4. No. 6. Pp. 395-401. DOI: 10.4236/ns.2012.46054
(check this in PDF content)
6
Афонасенко А.В., Иглакова А.Н., Матвиенко Г.Г., Ошлаков В.К., Прокопьев В.Е. Лабораторные и лидарные измерения спектральных характеристик листьев березы в различные периоды вегетации // Оптика атмосферы и океана. 2012. Т. 25. No 3. С. 237-243.
(check this in PDF content)
7
Федотов Ю.В., Булло О.А., Белов М.Л., Городничев В.А. Дистанционный лазерный флуориметр для обнаружения стрессовых состояний растительности // Радиооптика. 2017. No 1. С. 1-13. DOI: 10.24108/rdopt.0117.0000082
(check this in PDF content)
8
Pandey J. K., Gopal R. Laser-induced chlorophyll fluorescence and reflectance spectroscopy of cadmium treated Triticum aestivum L. plants // Spectroscopy. 2011. Vol. 26. No. 2. Pp. 129-139. DOI: 10.3233/SPE-2011-0530
(check this in PDF content)
9
Лысенков В.С., Вардуни Т.В., Сойер В.Г., Краснов В.П. Флуоресценция хлорофилла растений как показатель экологического стресса: теоретические основы применения метода // Фундаментальные исследования. 2013. No 4-1. С. 112-120.
(check this in PDF content)
10
Ничипорович А.А., Овчаров К.Е. КПД зеленого листа, витамины в растениях: Структурная организация фотосинтетического аппарата растений. Режим доступа: http://lsdinfo.org/strukturnaya-organizaciya-fotosinteticheskogo-apparata-rastenij (дата обращения 14.09.2015).
(check this in PDF content)
11
ГОСТ 31581-2012. Лазерная безопасность. Общие требования безопасности при разработке и эксплуатации лазерных изделий. Введ. 2015-01-01. М.: Стандартинформ, 2013. 19 с.
(check this in PDF content)
12
Chappelle E.W, Corp L.A., McMurtrey J.E., Kim M.S., Daughtry C.S.T. Fluorescence: a diagnostic tool for the detection of stress in plants // Proc. of the Soc. of Photo-Optical Instrumentation Engineers (SPIE). 1997. Vol. 2959. Pp.14-23. DOI: 10.1117/12.264261
(check this in PDF content)
13
Apostol S. Leaf fluorescence as diagnostic tool for monitoring vegetation // From cells to proteins: Imaging nature across dimensions. Dordrecht: Springer, 2005. Pp. 423-430.
(check this in PDF content)
14
Saito Y. Laser-induced fluorescence spectroscopy/ technique as a tool for field monitoring of physiological status of living plants // Proc. of the Soc. of Photo-Optical Instrumentation Engineers (SPIE). 2007. Vol. 6604. Рp. 66041W-1- 66041W-12. DOI: 10.1117/12.727194
(check this in PDF content)
15
Mishra K. B., Gopal R. Study of laser-induced fluorescence signatures from leaves of wheat seedlings growing under cadmium stress // General and Applied Plant Physiology. 2005. Vol. 31. No. 3-4. Рp. 181-196.
(check this in PDF content)
16
Snels M., Guarini R., De1l’Ag1io M. First results obtained with a lidar fluorescence sensor system // Proc. of the Soc. of Photo-Optical Instrumentation Engineers (SPIE). 2000. Vol. 4070. Рp. 100-107. DOI: 10.1117/12.378144
(check this in PDF content)
17
Lichtenthaler H.K., Wenzel O., Buschmann C., Gitelson A. Plant stress detection by reflectance and fluorescence // Annals of the New York Academy of Sciences. 1998. Vol. 851. Рp. 271-285. DOI: 10.1111/j.1749-6632.1998.tb09002.x
(check this in PDF content)
18
Saito Y., Kanoh M., Hatake K., Kawahara T.D., Nomura A. Investigation of laser-induced fluorescence of several natural leaves for application to lidar vegetation monitoring // Applied Optics. 1998. Vol. 37. No 3. Рp. 431-437. DOI: 10.1364/AO.37.000431
(check this in PDF content)
19
Edner H., Johansson J., Svanberg S., Wallinder E., Bazzani M., Breschi B., Cecchi G., Pantani L., Radicati B., Raimondi V., Tirelli D., Valmori G., Mazzinghi P. Laser-induced fluorescence monitoring of vegetation in Tuscany // EARSeL Advances in Remote Sensing. 1992. Vol. 1. No. 2. Рp. 119-130.
(check this in PDF content)
20
Lichtenthaler H.K., Subhash N., Wenzel O., Miehe J.A. Laser-induced imaging of blue/red and blue/far-red fluorescence ratios, F440/F690 and F440/F740, as a means of early stress detection in plants // Intern. geoscience and remote sensing symp.: IGARSS’97 (Singapore, August 3-8, 1997): Proc. N.Y.: IEEE, 1997. Vol. 4. Рp. 1799-1801. DOI: 10.1109/IGARSS.1997.609078
(check this in PDF content)
21
Mishra K.B., Gopal R. Detection of nickel-induced stress using laser-induced fluorescence signatures from leaves of wheat seedlings // Intern. J. of Remote Sensing. 2008. Vol. 29. No. 1. Рp. 157-173. DOI: 10.1080/01431160701280975
(check this in PDF content)
22
Maurya R., Gopal R. Laser-induced fluorescence ratios of Cajanus cajan L. under the stress of cadmium and its correlation with pigment content and pigment ratios // Applied Spectroscopy. 2008. Vol. 62. No. 4. Рp. 433- 438.
(check this in PDF content)
23
Maurya R., Prasad S.M., Gopal R. LIF technique offers the potential for the detection of cadmium-induced alteration in photosynthetic activities of Zea Mays L. // J. of Photochemistry and Photobiology. C: Photochemistry Reviews. 2008. Vol. 9. No. 1. Рp. 29-35. DOI: 10.1016/j.jphotochemrev.2008.03.001
(check this in PDF content)
24
Samson G., Tremblay N., Dudelzak A.E., Babichenko S.M., Dextraze L., Wollring J. Nutrient stress of corn plants: Early detection and discrimination using a compact multiwavelength fluorescent lidar // EARSeL eProceedings. 2001. Vol. 1. No. 1. Рp. 214-223.
(check this in PDF content)