Transport In Plants

Water Potential The physical property predicting the direction in which water will flow –____________________ –Pressure water moves from high water potential to low water potential

Water Potential (a) Left Side –Pure Water = 0 Water Potential Right Side –Negative Water Potential 0 pressure - solute (has solutes) Water moves to the right

Water Potential (b) Left Side –Pure Water = 0 Water Potential Right Side –0 Water Potential + pressure equal to solute conc. - solute (has solutes) Water is at equilibrium

Water Potential (c) Left Side –Pure Water = 0 Water Potential Right Side –Positive Water Potential + pressure more than solute conc. - solute (has solutes) Water moves to the left

Water Potential (d) Left Side –Pure Water and Negative Tension Right Side –Negative Water Potential 0 pressure - solute (has solutes) Water moves to the left

Transport of Xylem Sap Pushing Xylem –Root Pressure caused by active pumping of minerals into xylem _____________: accumulation of water

Transport of Xylem Sap ______________ –Transpiration evaporative loss of H 2 O from a plant through the stomata

Transport of Xylem Sap

The Control of Transpiration ______________ –turgid - open –flaccid - closed Potassium Ions –active transport of H+ out of cell causes K+ to move in

Translocation of Phloem Phloem Sap –30% sucrose, minerals, amino acids, hormones –Transported in sieve-tube members ____________– leaves, tuber or bulbs Sugar sink – growing roots, shoots, fruits

Pressure Flow and Translocation A)Pressure is high B)Pressure is low C)Xylem recycles water D)Allows Phloem sap to flow from source to sink A B C

Plant Nutrition

Uptake of Nutrients _______________ cultures used to determine which chemical elements are essential. 17 essential elements needed by all plants

Soil Develops from weathered rocks –Anchors plants –Provides water –Provides dissolved minerals

Soil Texture Pertains to sizes of soil particles –includes the following: sands ( mm) silt ( mm) clay (less than mm)

Soil Composition Made up of sand, silt, clay, rocks, humus, microorganisms (bacteria, fungi, algae, protists, insects, worms, roots) Soil contains a mixture of different sized particles –_______ – roughly equal amounts of sand, silt, and clay – most fertile

The Nation that Destroys Its Soil Destroys Itself – Franklin D. Roosevelt 1937

Loss of Topsoil 1930’s “_____________” Due to inappropriate farming in late 1800’s and early 1900’s Wheat and cattle farming Droughts Steinbeck’s Grapes of Wrath 30% of world’s farmlands have reduced production due to poor soil conditions.

Nitrogen Fixation

Unusual Nutritional Adaptations in Plants - Epiphytes

Unusual Nutritional Adaptations in Plants - Mistletoe

Unusual Nutritional Adaptations in Plants – Venus Fly Traps

Unusual Nutritional Adaptations in Plants – Pitcher Plants

Unusual Nutritional Adaptations in Plants - Sundews

Control Systems in Plants

Plant Hormones Coordinates growth Coordinates development Coordinates responses to environmental stimuli

Auxins Stimulates stem elongation Stimulates root growth Stimulates differentiation and branching Stimulates development of fruit Stimulates apical dominance Stimulates phototropism and gravitropism

Auxin Control Auxin stimulates growth Auxin block on right causes cells to elongate and the plant bends left Auxin block on left causes cells to elongate the the plant bends right

Proton pump stimulated by auxin lower pH of wall H+ activates Enzyme Enzyme breaks hydrogen bonds in cellulose Wall takes up water and elongates Acid Growth

Auxin Others Promotes secondary growth by stimulating vascular cambium and secondary xylem Promotes adventitious root at the base of a cut stem Promotes fruit growth without pollination (seedless tomatoes)

Cytokinins Works with Auxin: –more cytokinin - shoot buds develop –more auxin - roots develop Stimulates germination Delays Senescence

Gibberellins Promotes seed and bud germination Promotes stem elongation Promotes leaf growth Stimulates flowering and fruits –(with auxin)

Ethylene Promotes fruit ripening Controls Abscission (causes leaf loss)

Daily and Seasonal Responses Circadian Rhythm Photoperiodism –controls flowering (short-day vs. long-day) –critical night length

Phytochromes Function as photoreceptors / red (660nm) to far red (730nm) Activates kinases (regulatory proteins)

Red vs. Far Red Response

Responses to Herbivores Produce _________ (an amino acid similar to arginine) Recruitment of predatory animals

Why plants are important? Food! Humans have domesticated plants for 13,000 years. ____ of all the calories consumed by humans come from six crops: Wheat, Rice, Maize, Potatoes, Cassava, and Sweet Potatoes. Also, we use plants to feed cattle, 5-7kg to produce 1 kg of beef.

Pyramid of Net Productivity

Plants remove CO 2

_____ of all US Prescription Drugs contain one or more active ingredients from plants. ____ earth’s species will become extinct within the next 100 years (larger than the Permian or Cretaceous) Only 5,000 of 290,000 species have been studied. 3-4 species per hour, 27,000 per year!

Cinchona tree Bark contains __________ Grows in the Andes in peru Used since the early 1600’s to treat malaria

Aspirin Acetylsalicylic acid or ASAAcetylsalicylic acid or ASA Dates back to 3000 B.C.Dates back to 3000 B.C. Greek Physician Hippocrates prescribed it.Greek Physician Hippocrates prescribed it. From _____________ and other Salicylate-rich plants (leaves and bark)From _____________ and other Salicylate-rich plants (leaves and bark) Scientists at Bayer began investigating acetylsalicylic acid as a less-irritating replacement for standard common salicylate medicines. By 1899, Bayer named it this AspirinScientists at Bayer began investigating acetylsalicylic acid as a less-irritating replacement for standard common salicylate medicines. By 1899, Bayer named it this Aspirin