The results of remote field diagnostics of brackish-water phytoplankton by tunable lidar on board... more The results of remote field diagnostics of brackish-water phytoplankton by tunable lidar on board a research vessel are presented. The authors have developed a study approach based on the spectral signature method and the method of selective excitation of phytoplankton pigments to detect pigment composition of phytoplankton communities in vivo.
ABSTRACT Invention handles the milk coagualtion time determination using the protein fluorescence... more ABSTRACT Invention handles the milk coagualtion time determination using the protein fluorescence detection in front-face mode measurements. Easy and rapid method is based on measurements of protein fluorescence intensity during the coagulation process. The observed in time maximum of fluorescence intensity (at fixed excitation/emission wavelength) indicates the start of milk coagulation.
Report Larisa V. Poryvkina, Sergey M. Babichenko and Jyri J. Lapimaa ... The high spectral variab... more Report Larisa V. Poryvkina, Sergey M. Babichenko and Jyri J. Lapimaa ... The high spectral variability of HS two-dimensional fluorescence spectra collected from sea areas in the central part of theEnglish Channel along the southeastern coast of the North Sea, through Skagerrak ...
The results of remote field diagnostics of brackish-water phytoplankton by tunable lidar on board... more The results of remote field diagnostics of brackish-water phytoplankton by tunable lidar on board a research vessel are presented. The authors have developed a study approach based on the spectral signature method and the method of selective excitation of phytoplankton pigments to detect pigment composition of phytoplankton communities in vivo.
ABSTRACT Invention handles the milk coagualtion time determination using the protein fluorescence... more ABSTRACT Invention handles the milk coagualtion time determination using the protein fluorescence detection in front-face mode measurements. Easy and rapid method is based on measurements of protein fluorescence intensity during the coagulation process. The observed in time maximum of fluorescence intensity (at fixed excitation/emission wavelength) indicates the start of milk coagulation.
Report Larisa V. Poryvkina, Sergey M. Babichenko and Jyri J. Lapimaa ... The high spectral variab... more Report Larisa V. Poryvkina, Sergey M. Babichenko and Jyri J. Lapimaa ... The high spectral variability of HS two-dimensional fluorescence spectra collected from sea areas in the central part of theEnglish Channel along the southeastern coast of the North Sea, through Skagerrak ...
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