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Plant Anatomy and Transport chapters 35 and 36 --focus on sap flow--. Sap Flow in Plants. basic root structure water flow through the cortex cells the endodermis as a border crossing water flow in the xylem the fate of water in the leaf —photosynthesis —transpiration
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Plant Anatomy and Transportchapters 35 and 36--focus on sap flow--
Sap Flow in Plants basic root structure water flow through the cortex cells the endodermis as a border crossing water flow in the xylem the fate of water in the leaf —photosynthesis —transpiration —stomate function 6. sap flow and maple syrup
epidermis endodermis cortex vascular cylinder
Sap Flow in Plants basic root structure water flow through the cortex cells the endodermis as a border crossing water flow in the xylem the fate of water in the leaf —photosynthesis —transpiration —stomate function 6. sap flow and maple syrup
Figure 36.6 Compartments of plant cells and tissues and routes for lateral transport
Sap Flow in Plants basic root structure water flow through the cortex cells the endodermis as a border crossing water flow in the xylem the fate of water in the leaf —photosynthesis —transpiration —stomate function 6. sap flow and maple syrup
Figure 36.7 Lateral transport of minerals and water in roots
Sap Flow in Plants basic root structure water flow through the cortex cells the endodermis as a border crossing water flow in the xylem the fate of water in the leaf —photosynthesis —transpiration —stomate function 6. sap flow and maple syrup
A cross section of a dicot root (the purple is starch, the red is lignin) cortex epidermis vascular cylinder
vessel elements tracheids
Tissue: Xylem Cell Type: Tracheary Elements
Sap Flow in Plants basic root structure water flow through the cortex cells the endodermis as a border crossing water flow in the xylem the fate of water in the leaf —photosynthesis —transpiration —stomate function 6. sap flow and maple syrup
Figure 10.2 Focusing in on the location of photosynthesis in a plant
Figure 10.9 Location and structure of chlorophyll molecules in plants Light energy CO2 + H20 C6H1206 + O2
Sap Flow in Plants basic root structure water flow through the cortex cells the endodermis as a border crossing water flow in the xylem the fate of water in the leaf —photosynthesis —transpiration —stomate function 6. sap flow and maple syrup
Figure 36.10 The generation of transpirational pull in a leaf
Figure 36.14 The generation of transpirational pull in a leaf
Figure 36.14 The generation of transpirational pull in a leaf
Sap Flow in Plants basic root structure water flow through the cortex cells the endodermis as a border crossing water flow in the xylem the fate of water in the leaf —photosynthesis —transpiration —stomate function 6. sap flow and maple syrup
STEPS IN STOMATE OPENING Sun comes up. Photosynthesis depletes CO2, stimulating proton pump enzymes. Proton pump enzyme turns on. H+ moved out of guard cells by active transport (ATP is used). K+ diffuses into cells via K+ channel enzymes. Water diffuses in to balance its concentration relative to K+ Guard cells swell and change shape.
Figure 36.2 A chemiosmotic model of solute transport in plant cells
STEPS IN STOMATE OPENING Sun comes up. Photosynthesis depletes CO2, stimulating proton pump enzymes. Proton pump enzyme turns on. H+ moved out of guard cells by active transport. K+ diffuses into cells via K+ channel enzymes. Water diffuses in to balance its concentration relative to K+ Guard cells swell and change shape.
Sap Flow in Plants basic root structure water flow through the cortex cells the endodermis as a border crossing water flow in the xylem the fate of water in the leaf —photosynthesis —transpiration —stomate function 6. sap flow and maple syrup
Maple sap is collected from the xylem in wood before leaves appear. Link to treemet
The osmotic theory of sap flow invokes the involvement of living cells and sucrose to generate an osmotic pressure difference between fibers and vessels, which are proposed to be separated by an osmotic barrier. The secondary cell wall is an effective osmotic barrier for large molecules