METHOD fluorometrically determining the photosynthesis parameters of photoautotrophic organisms, DEVICE FOR MEASURING AND CAMERA

摘要

1.method u0444u043bu0443u043eu0440u043eu043cu0435u0442u0440u0438u0447u0435u0441u043au043eu0433u043e u043eu043fu0440u0435u0434u0435u043bu0435u043du0438u00a0 photosynthetic parameters u0444u043eu0442u043eu0430u0432u0442u043eu0442u0440u043eu0444u043du044bu0445 organisms, including light effects on model samples assessed environment of exciting light with energy sufficient u0434u043bu00a0 u0432u043eu0437u0431u0443u0436u0434u0435u043du0438u00a0 u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 chlorophyll in the sample and the subsequent measurement of the intensity of u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438, the u043eu043fu0440u0435u0434u0435u043bu00a0u044eu0442 u0444u043eu0442u043eu0441u0438u043du0442u0435u0442u0438u0447u0435u0441u043au0438u0435 parameters of the object under examination.u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0, pulse exciting light have the same amplitude and u0438u0437u043cu0435u043du00a0u0435u043cu0443u044e duration and characteristics of chlorophyll u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 u0438u0437u043cu0435u0440 u00a0u044eu0442 in u043fu043eu0441u0442u043eu00a0u043du043du043eu0439 background u043fu043eu0434u0441u0432u0435u0442u043au0435, u0438u043cu0438u0442u0438u0440u0443u044eu0449u0435u0439 intensity u043eu0431u043bu0443u0447u0435u043du0438u00a0 object at the time of u043fu0440u043eu0432u0435u0434u0435u043du0438u00a0 research in natural u0443u0441u043bu043eu0432u0438u00a0u0445, and after adapting his about in the darkand on the basis of the values of the intensity u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 u043eu043fu0440u0435u0434u0435u043bu00a0u044eu0442 u0441u043eu0441u0442u043eu00a0u043du0438u0435 u0444u043eu0442u043eu0441u0438u043du0442u0435u0442u0438u0447u0435u0441u043au043eu0433u043e apparatus.;2. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 1, so that the u0434u043bu00a0 u043eu043fu0440u0435u0434u0435u043bu0435u043du0438u00a0 intensity u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 chlorophyll in which pulse exciting light u0432u043bu0438u00a0u044eu0442 on u0441u043eu0441u0442u043eu00a0u043du0438u0435 politis u0438u043du0442u0435u0442u0438u0447u0435u0441u043au043eu0433u043e apparatus, the impulses are 1 to 5 of the iss, and the interval between the impulses of 50 - 100 ms.;3. method for p.1, u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0, however, that the relative size u0441u0432u0435u0442u043eu0441u043eu0431u0438u0440u0430u044eu0449u0435u0433u043e complex pigments u0444u043eu0442u043eu0441u0438u043du0442u0435u0442u0438u0447u0435u0441u043au0438u0445 reaction centres u043fu0440u043eu0438u0437u0432u043eu0434u00a0u0442 through innings and the object light with pulse duration of 100, 200 and u0438u0437u043cu0435u0440u0435u043du0438u00a0 iss intensity u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 chlorophyll not lesswhat every 10 cie from the beginning, followed by the computation of growth momentum of light intensity u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 chlorophyll for u0432u0440u0435u043cu00a0 u0434u0435u0439u0441u0442u0432u0438u00a0 impulse.;4. method for p.1, u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0, u0434u043bu00a0 evaluation speed u0432u043eu0441u0441u0442u0430u043du043eu0432u043bu0435u043du0438u00a0 components in u0430u043au0446u0435u043fu0442u043eu0440u043du043eu0439 part u0444u043eu0442u043eu0441u0438u0441u0442u0435u043cu044b 2 u043fu0440u043eu0438u0437u0432u043eu0434u00a0u0442 effect on consistency of object three groups of pulses of the same amplitude and duration in each group, respectively, 1 - 5, iss, 100 - 200 of iss and 200 to 1000 ms, with an average power density of not less than 30 00 u0434u0436u043c - 2c - 1u0438u0437u043cu0435u0440u00a0u044eu0442 kinetics of u0438u0437u043cu0435u043du0435u043du0438u00a0 intensity u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 under the action of each of these impulses separately, with the intensity of the u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 in response to dr. u043bu0438u0442u0435u043bu044cu043du043eu0441u0442u044c pulse 1 to 5 corresponds to the value of the intensity of chlorophyll u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 iss, in which pulse exciting light u0432u043bu0438u00a0u044eu0442 on u0441u043eu0441u0442u043eu00a0u043du0438u0435 photo synthetic apparatuson the angle of the primary station induction curve u0438u0437u043cu0435u043du0435u043du0438u00a0 intensity u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 in response to pulse exciting light of 100 - 200 iss oprah the relative size of the u0434u0435u043bu00a0u044eu0442 u0441u0432u0435u0442u043eu0441u043eu0431u0438u0440u0430u044eu0449u0435u0433u043e complex, and on the angle of the curve u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 u0438u0437u043cu0435u043du0435u043du0438u00a0 intensity in response to the pulse of light u0434u043bu0438u0442u0435 u043bu044cu043du043eu0441u0442u044cu044e 200 - 1000 ms u043eu043fu0440u0435u0434u0435u043bu00a0u044eu0442 relative pool size u0445u0438u043du043eu043du043eu0432.;5. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 1, so that the maximum level of u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 chlorophyll u043eu043fu0440u0435u0434u0435u043bu00a0u044eu0442 by way of a pulse of light of 200 to 500 ms in the plo u0442u043du043eu0441u0442u0438 power u043eu0431u043bu0443u0447u0435u043du0438u00a0 3000 u0434u0436u043c - 2c - 1.;6. method for p.1, u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0, u0434u043bu00a0 u043eu043fu0440u0435u0434u0435u043bu0435u043du0438u00a0 u0441u043eu043eu0442u043du043eu0448u0435u043du0438u00a0 constant speed transport of electrons in a chain u0444u043eu0442u043eu0441u0438u043du0442u0435u0442u0438u0447u0435u0441u043au043eu0433u043e affect on electronic transport u0440u0430u0437u0435u0446 pulse light of 300 to 1000 ms, during his u0434u0435u0439u0441u0442u0432u0438u00a0 not less than 1 ms u043fu0440u043eu0438u0437u0432u043eu0434u00a0u0442 measurement and the measured intensity of u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 chlorophyll s get on the kinetics of u0438u0437u043cu0435u043du0435u043du0438u00a0 u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 (induction curves).;7. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 1, so that the parameters of the mathematical model u0438u0437u043cu0435u0440u0435u043du0438u00a0 u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 u0441u0442u0440u043eu00a0u0442 u0444u043eu0442u043eu0441u0438u043du0442u0435u0442u0438u0447u0435u0441u043au043eu0433u043e apparatus on which u0441u0443u0434u00a0u0442 quantitative characteristics and u043au043eu043du0441u0442u0430u043du0442u0430u0445 electron transfer reactions, u043eu043fu0440u0435u0434u0435u043bu00a0u0435u043cu044bu0445 experimentally.;8. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 1, so that the u0438u0437u043cu0435u0440u0435u043du0438u00a0 parameters u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 u043fu0440u043eu0438u0437u0432u043eu0434u00a0u0442 on one sample by successively exciting and u043fu0435u0440u0435u043au043bu044eu0447u0435u043du0438u00a0 regimes u043cu043fu0443u043bu044cu0441u0430 after u043fu0440u043eu0432u0435u0434u0435u043du0438u00a0 u0438u0437u043cu0435u0440u0435u043du0438u00a0 each parameter, with the average length of u043eu0431u043bu0443u0447u0435u043du0438u00a0 in each subsequent treatment are higher than in the previous u043eu0431u043bu0443 providing.;9. way on any of the u043fu043f.1 - 9, u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0, because its use u0434u043bu00a0 u043eu043fu0440u0435u0434u0435u043bu0435u043du0438u00a0 u0444u043eu0442u043eu0441u0438u043du0442u0435u0442u0438u0447u0435u0441u043au0438u0445 characteristics of phytoplankton.;10. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 1, so that the process sample simultaneously using u0434u043bu00a0 u043eu043fu0440u0435u0434u0435u043bu0435u043du0438u00a0 contribution of individual species of algae in u0445u0430u0440u0430u043au0442u0435u0440u0438u0441u0442 by social ica of phytoplankton, as well as u0434u043bu00a0 u043eu043fu0440u0435u0434u0435u043bu0435u043du0438u00a0 heterogeneity u043fu043eu043fu0443u043bu00a0u0446u0438u0439 mass of algae.;11. method for p.11, u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0, u0434u043bu00a0 u043eu043fu0440u0435u0434u0435u043bu0435u043du0438u00a0 contribution of species of algae in by social characteristics of phytoplankton from the initially selected samples u0432u044bu0434u0435u043bu00a0 the second model assessed by environment, focusing, for example, by u0443u043fu043bu043eu0442u043du0435u043du0438u00a0 by filtering water through the u00a0u0434u0435u0440u043du044bu0435 filters, the concentrate u0440u0430u0441u043fu0440u0435u0434u0435u043bu00a0u044eu0442 in one layer, for example in the cell u043du0430u0436u043eu0442u0442u0430,followed by visual assessment u043eu043fu0440u0435u0434u0435u043bu00a0u044eu0442 species composition of cells u0444u0438u0442u043eu043fu043bu0430u043du043au0442u043eu043du043du044bu0445 organisms.;12. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 p.11, so that simultaneously with the evaluation of the species belonging u043fu043eu043fu0443u043bu00a0u0446u0438u0439 u0438u0437u043cu0435u0440u00a0u044eu0442 at each cell parameters u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 on any of the u043fu043f.1 - 9 and u043eu043fu0440u0435u0434u0435u043bu00a0u044eu0442 distribution of various types of algae on the effectiveness of the processes of photosynthesis and the relative content of the pigments in the cage.;13.the device u0434u043bu00a0 u0444u043bu0443u043eu0440u043eu043cu0435u0442u0440u0438u0447u0435u0441u043au043eu0433u043e u043eu043fu0440u0435u0434u0435u043bu0435u043du0438u00a0 photosynthetic parameters u0444u043eu0442u043eu0430u0432u0442u043eu0442u0440u043eu0444u043du044bu0445 organisms comprising the measuring cell, measuring the ligh source the optically u0441u043eu043fu0440u00a0u0436u0435u043du043du044bu0439 with measuring chamber and a possibility to the fluorescence pattern module u0438u0437u043cu0435u0440u0435u043du0438u00a0 u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 model and block at u043fu0440u0430u0432u043bu0435u043du0438u00a0, connected to the device registration and data processing (computer)the measuring light source and the module u0438u0437u043cu0435u0440u0435u043du0438u00a0 u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 u043eu0442u043bu0438u0447u0430u044eu0449u0435u0435u0441u00a0 model so that it contains at least one additional optically u0441u043eu043fu0440u00a0 the idea expressed in the measuring chamber, a light source in such a way that the number of light sources is even numbered, the stabilizer of the light sources, the outputs of which u043fu043eu0434u043a u043bu044eu0447u0435u043du044b u0432u0445u043eu0434u0430u043c to electric light sources, and the entrance to the block u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0,and the natural u043eu0431u043bu0443u0447u0435u043du043du043eu0441u0442u0438, u0441u0432u00a0u0437u0430u043du043du044bu0439 via the u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 with stabiliser of the light sources.;14. device for u043eu0442u043bu0438u0447u0430u044eu0449u0435u0435u0441u00a0 question 14, so that the light sources have the same opportunity to measuring, and / or u043du0430u0441u044bu0449u0430u044eu0449u0438u0439 and / or the light.;15. device for u043eu0442u043bu0438u0447u0430u044eu0449u0435u0435u0441u00a0 p.11, so that u0438u0437u043cu0435u0440u0435u043du0438u00a0 u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 module is connected to the source of the autonomous u0432u044bu0441u043eu043au043eu0432u043eu043bu044cu0442u043du043eu043cu0443 u043fu0438u0442u0430u043du0438u00a0 detector u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438, for example u0444u043eu0442u043eu0443u043cu043du043eu0436u0438u0442u0435u043bu00a0, united through a signal processing device and the block u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0 registration and processing of data, for example, staff u043du0430u043bu044cu043du043eu043cu0443 computer.;16. device for u043eu0442u043bu0438u0447u0430u044eu0449u0435u0435u0441u00a0 question 14, so that the signal processing includes at least one amplifier, u0441u0432u00a0u0437u0430u043du043du044bu0439 through synchronous detector with analog to digital art u0440u0435u043eu0431u0440u0430u0437u043eu0432u0430u0442u0435u043bu0435u043c, gate which is connected to a cluster of u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0.;17. device for u043eu0442u043bu0438u0447u0430u044eu0449u0435u0435u0441u00a0 p.17, so that the block of signal processing is executed in the form of four sequentially connected operational amplifiers, the output of each of the cat u043eu0440u044bu0445 through a synchronous detector is connected to the analog to digital u043fu0440u0435u043eu0431u0440u0430u0437u043eu0432u0430u0442u0435u043bu044e, u0441u0432u00a0u0437u0430u043du043du043eu043cu0443 with block u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0.;18. device for p.u043eu0442u043bu0438u0447u0430u044eu0449u0435u0435u0441u00a0 14, so that the preferred option, it contains a pump manifold, a first output which is connected to the measuring cell, and the second to the system to the second model u043du0446u0435u043du0442u0440u0438u0440u043eu0432u0430u043du0438u00a0 sample environment, additional measuring cell u0434u043bu00a0 u0438u0437u043cu0435u0440u0435u043du0438u00a0 parameters u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 individual cells, u043cu0438u043au0440u043eu0444u043bu0443u043eu0440u043eu043cu0435u0442u0440 u0438u0447u0435u0441u043au0443u044e xboxu0441u043eu0441u0442u043eu00a0u0449u0443u044e of luminous microscope with u0444u043bu0443u043eu0440u043eu043cu0435u0442u0440u0438u0447u0435u0441u043au043eu0439 head and the led light source is connected to the light source through the stabilizer. i u0443u043fu0440u0430u0432u043bu0435u043du0438u00a0.;19. device for u043eu0442u043bu0438u0447u0430u044eu0449u0435u0435u0441u00a0 p.19, so that u0444u043bu0443u043eu0440u043eu043cu0435u0442u0440u0438u0447u0435u0441u043au0430u00a0 nozzle can be implemented in the form of u043cu043eu0434u0443u043bu00a0 u0438u0437u043cu0435u0440u0435u043du0438u00a0 u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 model, p.16.;20. device for u043eu0442u043bu0438u0447u0430u044eu0449u0435u0435u0441u00a0 p.19, however, that as an additional measurement chamber using the camera u043du0430u0436u043eu0442u0442u0430.;21.u0438u0437u043cu0435u0440u0438u0442u0435u043bu044cu043du0430u00a0 luggage, u0441u043eu0434u0435u0440u0436u0430u0449u0430u00a0 casing, light source and detector u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 posted in the windows shell, as well as input and output connections are made with the possibility of cell and output respectively from the sample at the sample environment, u043eu0442u043bu0438u0447u0430u044eu0449u0430u00a0u0441u00a0 in that it contains at least one u0434u043eu043fu043eu043bu043du0438u0442u0435u043bu044cu043d one light sourcelocated diametrically opposite the first to absorb light from the opposite which is located the source.;22. u0438u0437u043cu0435u0440u0438u0442u0435u043bu044cu043du0430u00a0 chamber p.22, u043eu0442u043bu0438u0447u0430u044eu0449u0430u00a0u0441u00a0 in that it contains an even number of light sources is more than two, which are located in diametrically u043fu0440u043eu0442u0438u0432u043eu043fu043eu043bu043eu0436u043d on each other in one plane u043fu0435u0440u043fu0435u043du0434u0438u043au0443u043bu00a0u0440u043du043eu0439 axle casing, and each light source has the opportunity to absorb light from the u0440u0430u0441u043fu043eu043bu043eu0436u0435u043du043d oh source.;23. u0438u0437u043cu0435u0440u0438u0442u0435u043bu044cu043du0430u00a0 chamber p.22, u043eu0442u043bu0438u0447u0430u044eu0449u0430u00a0u0441u00a0, detector u0444u043bu0443u043eu0440u0435u0441u0446u0435u043du0446u0438u0438 u043fu0440u0435u0434u0441u0442u0430u0432u043bu00a0u0435u0442 a u0444u043eu0442u043eu0443u043cu043du043eu0436u0438u0442u0435u043bu044c, the axis of which coincides with the axis of the optical system in the pusa.