Fotoinhibice fotosyntézy fluorometrické metody stanovení M. Barták Metody fluorescence chlorofylu Jaro 2014 Textové pole: http://www.esf.edu/efb/schulz/Limnology/phytoecol1.html http://www.esf.edu/efb/schulz/Limnology/phytoecol1.html PI2 http://www.jeffs251lab.com/category/lab4/ Photosynthesis-Curve1 Basic de-excitation mechanisms of Chl a n Chl a* Photosynth.process (linear transport e- ) Thermal dissipation Regulation between PSII and PSI Chlorophyll fluorescence Reversible transport n Qa n 3(P680+ Pheo-) 1(P680+ Pheo-) n n n 3 P680* 1 P680* n n3 B carotene* P 680 Fluorescence n O2* n3 B carotene* n 3Chla* Chla* heat heat Singlet Recombin. Charge separation Triplet Recomb. Antennae q. Photosynthetic pathway Metody stanovení míry fotoinhibice nKautského křivka fluorescence chlorofylu doplněná o zhášecí mechanismy n nČasové řady parametrů fluorescence chlorofylu http://www.clr.pdx.edu/projects/lakes/waldo.php time-series-FVFm puddlelake qP = (Fm’- F) / (Fm’-Fo’) NPQ = (Fm - Fm’) / (Fm’) qN = qE + qT + qI qE n fig1 n fig2 n fig3 http://www.optisci.com/cf.htm qT = Fm’ after rapid relaxation is complete usually with the actinic light turned off usually one hour - Fm’ at qE /Fm’ at steady state. qI = Fm-Fm’ at qT/ Fm’ at steady state. qN = Fm - Fm’/ Fm-Fo qL = qP(Fo’/F’) Y(NO) = 1/NPQ +1 + qL((Fm/Fo)-1) Y(NPQ) = 1 - Y - Y(NO) 1 = qL + Y(NPQ) + Y(NO) qP = (Fm’- F) / (Fm’-Fo’) NPQ = (Fm - Fm’) / (Fm’) qN = qE + qT + qI qE http://www.biol.s.u-tokyo.ac.jp/users/seitaipl/personal/terashima/terashima_e.html fig5 Brno, Laboratoř fotosyntetických procesů nSenzitvita vůči dlouhotrvající fotoinhibici nA zotavení se v n n n