Atypical chlorotic plants as a tool for studying more severe Cd effect on photosystem I, non-photochemical quenching, K content, and stomatal conductance.

Cadmium is a very toxic heavy metal. We studied Cd-treated barley plants with especial focus on rare atypical plants with signs of chlorosis. Cd treatment decreased the maximal photochemical activities of both photosystems while the activity of photosystem I decreased more than activity of photosystem II. In photosystem II, Cd treatment inhibited non-photochemical quenching that increased portion of unquenched "closed" complexes of photosystem II. The latter effect increased balance of limitations between the acceptor side of photosystem II (qC) and the donor side of photosystem I (Y(ND)) and raised the ratio qC/Y(ND). All these effects were enhanced in the atypical more damaged plants. Cd treatment reduced K content in the first leaves; in atypical plants, K content decreased even more. Cd treatment changed a pattern of stomatal conductance possibly by means of reducing K content in leaves. The untreated barley plants kept different stomatal conductance at adaxial and abaxial sides of leaves and fulfilled a complicated diurnal dynamics with large ups and downs of stomatal conductance. The typical Cd-treated plants were less flexible and demonstrated medium values. Stomatal conductance in the untreated plants were higher or lower than in the typical Cd-treated plants depending on a particular time; average daytime stomatal conductance was equal in both variants. At 10.00, stomatal conductance in the atypical Cd-treated plants was smaller than in the typical ones. Levels of 13 chloroplast mRNAs remained unchanged, while psbD decreased in both types of Cd-treated plants. HighlightsO_LISeveral Cd effects were enhanced in more damaged (atypical) chlorotic plants C_LIO_LICd treatment decreased activity of photosystem I and non-photochemical quenching C_LIO_LIRatio of limitations between photosystems II and I [qC/Y(ND)] was rather constant C_LIO_LICd treatment reduced K content in the first leaves C_LIO_LICd treatment changed pattern of stomatal conductance C_LI