Ol. Lange et al., The response of lichen photosynthesis to external CO2 concentration and its interaction with thallus water-status, J PLANT PHY, 154(2), 1999, pp. 157-166
Three lichen species were studied which differed in net photosynthesis (NP)
performance at high thallus water contents (WC): Diploschistes muscorum, s
howing no depression in NP at high WC, D. scruposus, a slight depression an
d Fulgensia fulgens, showing severe depression. NP responses to CO2 concent
ration were constructed by interpolation from a large number of NP response
to WC curves prepared at fixed CO2 concentrations from near zero to above
ambient levels that alleviated all depression in NP at high WC. Optimised C
O2 response curves were extracted which proved to be practically identical
for all three species. The major differences in NP at high WC and ambient C
O2 concentration were due not just to the appearance of diffusion resistanc
es at high WC, since resistances appeared in all three species, but to how
high these additional resistances were. There was a major contrast between
the three species in how they managed the interaction between CO2 diffusion
pathways and water storage at high WC. Since underlying carboxylation proc
esses were nearly identical our studies confirmed that the difference in NP
performances at high WC must have a morphological basis and be a product o
f the symbiosis rather than just of the photobiont.
Methods of calculating various photosynthetic parameters: carboxylation eff
iciency (CE) and overall affinity of the carboxylation system to CO2 [K-0.5
(CO2)] were compared. It is recommended that K-0.5(CO2) be applied when com
paring photosynthetic abilities since it is independent of the basis used t
o calculate NP but both K-0.5(CO2) and CE can be affected by WC and should
be measured at optimal WC for NP. All photosynthetic parameters suggest tha
t the three species studied have CO2 concentrating mechanisms (CCM).