how do organisms get their energy?

How do organisms get their energy?

A. Autotrophs - use sun’s energy directly (plants)

B. Heterotrophs - obtain energy by the foods they eat. (animals)

* all organisms

use the energy from

the

HETEROTROPH OR AUTOTROPH?

PhotosynthesisProcess of converting CO2 and H2O, in

presence of the sun, into glucose and releasing O2

Steps of Photosynthesis1. The pigment

chlorophyll captures in the chloroplasts.

2. Energy from the sun is then temporarily stored in the energy storing compounds ATP and NADPH

3. The ATP and NADPH is then used to power the Calvin cycle which generates glucose and releases O2

Cellular Respiration

ALL organisms obtain usable energy (ATP) in a process called cellular respiration.

The equation for cellular respiration is the opposite of the equation for photosynthesis.

KINGDOM PLANTAE

Characteristics• Multicellular• Eukaryotic• photosynthetic (autotrophic)• most reproduce sexually and

asexually• Contain cell walls (cellulose),

chloroplasts, and large central vacuole

Cellular Respiration and Photosynthesis Comparison Diagram

Plant adaptations:Introduction to Plants

Plants evolved from aquatic algaeHad to gain the ability to conserve waterCuticle – waxy covering, helps prevent

the water loss and is a barrier to microorganisms

Stomata - openings in the outer cell layers of leaves for gas exchange

Roots - take in water and dissolved minerals

Stems - Transport water and dissolvedsubstances, stores food and water,contains vascular tissue (xylem and Phloem)Leaves (blade) – site of photosynthesis

Vascular Tissue – allows faster transport of water and nutrients, provides structure (xylem and phloem)

Seeds - contains an embryo, nutrients, and protective coat; allows seeds to survive in harsh conditions and sprout when favorable

Transpiration• evaporation of water from plants. • occurs chiefly at the leaves while

their stomata are open for the passage of CO2 and O2 during photosynthesis.

Classification of Plants

Divided into 3 basic groups based on evolutionary adaptations.

1. Nonvascular plants (mosses)2. Seedless vascular plants (ferns)3. Seed plants (gymnosperms and

angiosperms)

1. Non-vascular Plants• Ex. Mosses (Bryophyta), liverworts and

hornworts• 400 million years old; 16,000 species• Gametophyte is dominant• Required water to reproduce –

swimming sperm• No vascular tissue to low to ground• Evolutionary adaptation – Cuticle;

stomata

2. SEEDLESS VASCULAR PLANTS• Ex. Ferns (pterophyta), whiskferns,

lycopods and horsetails• All are seedless, sperm must swim (no

pollen)• sporophyte is the dominate

generation.• Evolutionary adaptations – roots,

stems and vascular tissue (xylem and phloem)

3. Seed Plants• Gymnosperms “cone-bearers”

(conifers, ginkos) and angiosperms (flowering plants)

• Gametophyte becomes more reduced

• Evolutionary adaptations - Pollination replaces swimming sperm, seed evolved, flower