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Figure 4.12 Electron micrographs of stomata; (B) Stomatal complexes of Carex

Figure 4.12 Electron micrographs of stomata; (B) Stomatal complexes of Carex . Figure 4.12 Electron micrographs of stomata; (C) Onion epidermis . Figure 4.14 The radial alignment of the cellulose microfibrils in guard and epidermal cells.

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Figure 4.12 Electron micrographs of stomata; (B) Stomatal complexes of Carex

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  1. Figure 4.12 Electron micrographs of stomata; (B) Stomatal complexes of Carex

  2. Figure 4.12 Electron micrographs of stomata; (C) Onion epidermis

  3. Figure 4.14 The radial alignment of the cellulose microfibrils in guard and epidermal cells

  4. Figure 18.7 Stomatal opening tracks photosynthetic active radiation at the leaf surface

  5. Figure 18.6 Light-stimulated stomatal opening in detached epidermis of Vicia faba

  6. Figure 18.8 Response of stomata to blue light under a red-light background

  7. Figure 18.9 Action spectrum for blue light–stimulated stomatal opening

  8. Figure 18.10 Blue light–stimulated swelling of guard cell protoplasts

  9. Figure 18.11 Acidification of a suspension medium of guard cell protoplasts of V. faba

  10. Figure 18.13 (C) Sucrose accumulation from photosynthetic carbon fixation

  11. Figure 18.14 Daily course of changes in stomatal aperture

  12. Role of zeaxanthin in blue light sensing in guard cells

  13. Figure 4.8 The driving force for water movement through plants (Part 1)

  14. Figure 4.8 The driving force for water movement through plants (Part 2)

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