Understanding Plant Water Relations

1. Biology 751- Advanced Plant Physiology Prof. Tamimi Spring 2010 Plant Biology Fall 2006 • Reading material (Taiz & Zeiger): • Chapter 3, Water and Plant Cells • Chapter 4, Water Balance of Plants • Reading material (Taiz & Zeiger): • Chapter 3, Water and Plant Cells • Chapter 4, Water Balance of Plants

2. 2- Plant-water relationship Water is essential for plants because of its important functions in plants:- These include I. Water is a Component of plant cells II. Reactant III. Solvent in addition 1. Water transports minerals and nutrients that are absorbed by a plant’s root system. 2. Evaporation between intercellular spaces provides a cooling mechanism that allows plants to maintain favorable temperatures necessary for metabolic processes. 3. water also provides physical support for plants. (Tugor Pressure):- Well-watered plants maintain their shape due to this internal pressure in plant cells Loss of this pressure due to insufficient water supply can be noticed as plant wilting.

3. Plant Water relations

4. Water movement There are three major ways to move water molecules: Diffusion Osmosis Bulk flow (mass flow )

5. Bulk flow: Concerted movement of groups of moleculesen masse, most often in response to a pressure gradient water flowing in a pipe Affected by: Radius of pipe (r) Viscosity of liquid (h) Pressure gradient dyp/dx Dependant on the radius of the system water is traveling in. Double radius – flow rate increases 16 times!!!!!!!!!! This is the main method for water movement in Xylem, Phloem and in the soil. Movement of water in plants

7. Molecular diffusion Water moves from an area of high free energy to an area of low free energy Diffusion works down a chemical potential gradient. Leads to the gradual mixing of molecules & eventual dissipation of conc. Differences. It is rapid over short distances, but extremely slow over long distances Diffusion

8. Movement of water into a plant cell occurs by osmosis Diffusion across the membrane aquaporins (water filled pores The water permeability of plasma membrane from Arabidopsis suspension cells or root cells was reduced in the presence of free Ca2+ and/or low pH (Gerbeau et al., 2002

9. Water uptake is driven by a free energy gradient Free energy gradient for water movement is referred to as a Water PotentialGradient Movement of water into a plant cell occurs by osmosis

11. Ywandwater status ofplants • Water potential has two main uses • 1: Governs water transport across membranes. • 2: uses as a measure of the water status of plant.

12. The Importance of Water Potential Physiological aspects

13. Rate of Osmosis

14. Osmosis is controlled

15. Measuring Yw Scholander’s pressure bomb • A leaf or shoot is excised and placed in the chamber • Cutting the leaf breaks the tension in the xylem causing water to retreat into the surrounding cells • Pressurizing the leaf chamber returns water to the cut surface of the petiole • The amount of pressure to return water to the cut surface equals the tension (Yp) present in the xylem (but is opposite in sign) before excision • Values obtained approximate the tension in the xylem and are used as a measure of Yw • Strictly speaking to know the actual Yw some xylem sap should be collected to measure Ys From Plant Physiology on-line (http://4e.plantphys.net/)

16. Cell wall water

17. Measuring Yw Relative water content • Assesses the water content of plant tissues as a fraction of the fully turgid water content • relevant when considering metabolic / physiological aspects of water deficit stress • Considered to be a better indicator of water status and physiological activity • Captures effects of osmotic adjustment • Osmotic adjustment lowers the Yw at which a given RWC is reached • Simple technique: • Leaf disks are excised, weighed (W) then allowed to reach full turgidity and re-weighed (TW). Leaf disks are dried to obtain their dry weight (DW). • RWC (%) = [(W – DW) / (TW – DW)] X 100