Nutrient Exchange

Nutrient Exchange http://www.faqs.org/nutrition/images/nwaz_02_img0168.jpg http://www.landcareresearch.co.nz/research/globalchange/images/cycle_001_b.jpg How Plants and Animals use Nutrients

www.dkimages.com/discover/previews/836/965507.JPG Four Macromolecules 1. Nucleic Acids –Monomer: nucleotides Eg. DNA and RNA www.lecb.ncifcrf.gov/~toms/icons/dna_toys.jpg 2. Proteins –Monomer: amino acids (20 different) Eg. Insulin, keratin (hair)

images.jupiterimages.com/.../61/05/23050561.jpg Four Macromolecules 3. Carbohydrates (sugars) –Monomer: simple sugars, glucose Eg. The energy sources of life. 4. Lipids (fats) – Also called fatty acids, Monomer: glycerol and fatty acids Eg. Build all membranes (cellular and organelle) and some hormones. Storage of energy. www.culinate.com/hunk/22332

Nucleic Acids • Monomer = nucleotide • Three parts of a nucleotide: base, sugar, phosphate • Structure: Sugar Base Phosphate

III. Proteins images.jupiterimages.com/.../14/81/23288114.jpg • Monomer: • 20 Amino Acids • Structure i. Typical Amino Acid (Draw this above)

Peptide Bonds ii. In a peptide bond we join a carboxyl group (-COOH) to an amino group (-NH2) http://www.codefun.com/Images/Genetic/tRNA/image004.jpg The bond joining two amino acids

Draw a peptide bond between two glycines in the space to the right

iii. Sample Protein – InsulinThe protein that regulates our sugar uptake

Video of insulin

CH2OH C O H H H H ii. FructoseFruit sugar C C OH C C OH OH OH H www.worldofmolecules.com/foods/Fructose.gif CH2OH HOCH2 O OH C C C C OH H OH IV. Carbohydrates a. Monomer – i. GlucoseBlood sugar staff.jccc.net/PDECELL/biochemistry/glucose.gif

b. Dehydration Synthesis Animation

CH2OH CH2OH CH2OH CH2OH O O O O etc. etc. OH OH OH OH O O O O O OH OH OH OH c. Polysaccharides a. Formed by more than two simple sugars joined together. i. Starch (1000 glucoses hooked)Plant energy storage

Plant starch…stained with iodine www.microscopy-uk.org.uk/mag/imgapr04/starch-..

Polysaccharides con’t: www.medic.usm.my/~ssu/images/High%20Glyc.jpg ii. Glycogen (30 glucoses hooked)Stored sugar, found in animal liver.

Carbon Hydrogen Ratios a. Looking at the molecular formulas for the different saccharides what is the ratio of H’s to O’s? Hint: it is the same in each molecule: Glucose:C6H12O6Maltose C12H24O12 _____ H’s to each _____ O This is true for any saccharide 2 1

V. Fats (Lipids) • Monomers: i. Fatty Acids ii. + Glycerol images.jupiterimages.com/.../93/76/23267693.jpg + 3 fatty acids

H H H H H H H H H C C C C C C C C H H H H H H H H O C OH Fats con’t: b. Look at the fatty acids on the front page. Square the hydrocarbons(“CH” tails) in red, circle the acid portion (-OH containing) in green.

Membranes are lipids c. Have you seen the structure before? Fatty acids are one of the primary building blocks of cell and organelle membranes.

Fats con’t: In animals what is one other membrane component (hint we just studied it last unit)? Cholesterol http://www.clarian.org/ADAM/doc/graphics/images/en/19190.jpg

Glycerol/FAs Nucleotides Glucose Amino Acids Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Molecule Review

CH2OH CH2OH CH2OH CH2OH O O O O • etc. • etc. OH OH OH OH O O O O O OH OH OH OH CH2OH HOCH2 O OH C C C C OH H OH MiniQUIZIdentify each as a nucleic acid, carbohydrate, fat, or protein 2 1 3 4

Obtaining Nutrients Lecture A. Autotrophs--Convert light energy to chemical energy using photosynthesis… • a. Are also called Producers • b. Examples –Green Plants • c. Autotrophs need – • CO2, H2O, light, heat, minerals. http://www.clarian.org/ADAM/doc/graphics/images/en/19190.jpg

http://www.clarian.org/ADAM/doc/graphics/images/en/19190.jpg http://www.troy.k12.ny.us/thsbiology/images/monkey.gif http://www.kidsbiology.com/images/moneran_2.jpg http://arnica.csustan.edu/Biol1010/classification/shitake.jpg B - Heterotrophs a. Are also called Consumers b. Examples – Bacteria, protozoa, fungi, animals (humans) c. Heterotrophs need: Autotrophs, O2, minerals, vitamins, H2O

Light Photosynthesis a. Photosynthesis uses light energy to construct simple sugars. 6 CO2 + 6 H2O 6 O2 + C6H12O6 The requirements for photosynthesis: Light, heat, chlorophyll, carbon dioxide, water OCCURS IN THE _________________________ of PLANTS chlorophyll CHLOROPLASTS

Cellular Respiration i. The process in the Mitochondria where simple sugars are “burned” to produce energy (in the form of ATP). Simple formula of Cellular Respiration: C6H12O6+ 6 O2 6 H2O + 6 CO2 ADP and P ATP = ENERGY! Enzymes

Mitochondria • Supply all of the usable energy for • Plants (autotrophs) and Animals (heterotrophs) WOW!

H O C C H OH N H H O CH3 H N O O O OH P O N CH2 O C C OH C C OH OH Mini QUIZ Name these Molecules (fat, carb, protein, N.A.) • 2) 3) 4) Write the complete Equation for Cellular Respiration

Leaf Structure--How Autotrophs capture nutrients • Leaf Cross-section

a. Cuticle Thin, waxy layer on outer surface b. Epidermis Outermost layer of cells c. Palisade Layer – Tall cells in mesophyll, contain chloroplasts.

e. Spongy Layerloosely arranged layer of cells with space for gas, where lots of photosynthesis takes place. d. Stomata – small opening in the epidermis for gas exchange. f. Guard Cells – cells making up the stomata, can open or close.

g. Vein – vascular tubes in leaf. i. Xylem – carries H2O, minerals, hormones. ii. Phloem – carries nutrients (sucrose), O2, hormones.

h. Chloroplasts – Organelle containing enzymes and chlorophyll Chlorophyll – pigment that enables light energy to be changed into chemical energy (sugars)

Leaf Parts MINI QUIZ Label These Leaf Parts 1. Upper Epidermis 2. Palisade Layer 3. Spongy Layer 4. Cuticle 6. Guard Cell 5. Vein

Digestive System LectureHow A Heterotroph captures nutrients

Salivary Glands Tongue Trachea Esophagus Gall Bladder Liver Stomach Bile Duct Duodenum Pancreas Pancreatic Duct Large Intestine Small Intestine Small Intestine Appendix Small Intestine Rectum Anus

A. Salivary Glands a. Mucus – lubricates food. b. Amylase – begins to break down carbohydrate

B. Tongue a. Keeps food between teeth b. Taste Buds – 4 areas c. Pushes food to esophagus

C. Trachea a. Windpipe b. Epiglottis prevents “breathing” food

D. Esophagus Tube to stomach Peristalsis starts, Rhythmic squeezing of food through tubes.

E. Liver a. Bile is produced b. Emulsifies fats. c. Center for metabolism. d. Detoxifies blood e. Bile sent to Sm. Intestine f. Store glycogen (starch) Vital Organ

F. Gall Bladder • Stores bile (bile emulsifies fats)

G. Stomach a. Churn, mix food b. Sphincters, control openings c. Protein digestion d. The Hormone Gastrin – stimulates release of gastric juices e. Gastric juices: HCl, pepsin, etc. f. VOMIT! • Reverse peristalsis Gizzard = ?

Gizzards

“Heartburn”

H. Bile Duct • Tube to Sm. Intestine from Gall Bladder

I. Duodenum • Most Digestion • First ~1ft of the Small Intestine

J. Pancreas a. Produces Insulin, and other digestive enzymes… Regulates sugar uptake from blood. b. If DIABETIC insulin is not made.

Nutrient Exchange

Nutrient Exchange

Presentation Transcript

nutrient network

NUTRIENT CYCLES

Virginia’s Chesapeake Bay Watershed Nutrient Credit Exchange Program

Nutrient Management

Nutrient Banking / Credit Exchange: A Local Perspective

NUTRIENT

Nutrient Cycles

Nutrient Cycles

NUTRIENT INTERACTION

Nutrient Absorption

Nutrient Balance

Nutrient

Nutrient Deficiencies

Nutrient Cycling

Nutrient Absorption

Nutrient Analysis vs. Simplified Nutrient Assessment

Transboundary nutrient transports, nutrient budgets, and nutrient reduction consequences

Nutrient Cycles

Nutrient Removal

Nutrient Cycles

Nutrient Density

nutrient molecules