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Additional file 1: Figure S1. of Overlapping toxic effect of long term thallium exposure on white mustard (Sinapis alba L.) photosynthetic activity
Morphology of white mustard plants grown in the control conditions (A) and in the presence of thallium in concentration 100Ā Ī¼gĀ Lā1 (B), 500Ā Ī¼gĀ Lā1 (C) and 1,000Ā Ī¼gĀ Lā1 (D). Barā=ā2.5Ā cm. Figure S2. Changes of leaf blade architecture of white mustard plants grown in the presence of thallium revealed by bright field microscopy. Pictures show leaf blade cross-sections from control (A) and Tl-treated plants (B-G): 100Ā Ī¼gĀ Lā1 (H100) (B); 500Ā Ī¼gĀ Lā1 healthy green leaves, which showed no changes in morphology comparing to the control cultivation (H500) (C), green (G500) (D) and yellow (Y500) (E) parts of the affected leaves; 1,000Ā Ī¼gĀ Lā1 green (G1000) (F) and yellow (Y1000) (G) parts of the affected leaves. Figure S3. Analysis of non-photochemical quenching parameter (NPQ) in the dark adapted white mustard leaves from control and Tl-treated plants presented on Fig.Ā 3. (A) an exemplary fluorescence traces for control, 500Ā Ī¼gĀ Lā1 of Tl and 1,000Ā Ī¼gĀ Lā1 of Tl leaves recorded during exposition of dark-adapted leaves to actinic light illumination. (B) Changes of NPQ parameter calculated for the entire leaf area on the basis of recorded fluorescence traces during actinic light illumination. (C) Visualization of the induction and relaxation of NPQ throughout the leaf. The images are representative for at least ten leaves from each treatment. Description of samples abbreviation as given in the legend to Fig.Ā 3. (PDF 629 kb