methods of classifying into a certain kingdom: 1 ...protistans are unlike prokaryotes have a nucleus...

CH. 22

PROTISTS

METHODS OF CLASSIFYING

INTO A CERTAIN KINGDOM:

1. prokaryote OR eukaryote

2. single OR multi celled

3. autotroph OR heterotroph

6 Kingdoms

1. Eubacteria—prokaryotes; single cell; heterotroph

2. Archaebacteria—prokaryote; single; hetero or auto

3. Protist– eukaryote; single; hetero or auto

4. Fungi—eukaryote; multi; hetero (by decomposing)

5. Plants—eukaryote; multi; auto

6. Animals—eukaryote; multi; hetero (by ingesting)

Bozeman Video--Eukarya

http://www.youtube.com/watch?v=bo0QHAS-x8A

3 types of PROTISTS:

1. animal-like (protozoans)

2. plant-like (algae)

3. fungal-like (slime molds)

Fig. 22-1, p.350

Tiny Critters, Big Impacts

Protistans are Unlike Prokaryotes

Have a nucleus and organelles

Have proteins associated with DNA

Use microtubules in a cytoskeleton,

spindle apparatus, and cilia and flagella

May contain chloroplasts

May divide by mitosis and meiosis

Difficult to Classify

Historically a catch-all kingdom

Differ enormously from one another in morphology

and life-styles

Molecular and biochemical comparisons are

clarifying the evolutionary picture

Protistans are not a monophyletic group

Giardia (a Diplomonad)

Internal parasite of humans, animals

Survives outside of body as cysts

Ingested cysts release trophozoites that attach to intestinal lining

Causes giardiasis

Fig. 22-3b, p.353

Giardia

(a Diplomonad)

Euglenoids:

Evolutionary Puzzle

Some heterotrophs

Most have chloroplasts like green algae and plants

Have flagella like flagellated protozoans

Related to flagellated protozoans

Acquired chloroplasts by endosymbiosis

Figure 22.4a

Page 354

Euglenoid Body Plan

pellicle mitochondrion Golgi body

ER

nucleus

eyespot

long flagellum

contractile vacuole chloroplast

nucleus

Fig. 22-4a, p.354

Euglenoid Body Plan

Trypanosomes (Kinetoplastids)

free flagellum

basal body

of flagellum

nucleus

mitochondrion

undulating

membrane

Trypanosoma brucei causes African

sleeping sickness

T. cruzi causes Chagas disease

Amoeboid Protozoans (Sarcodina)

Move by means of cytoplasmic streaming and pseudopods

Naked amoebas

Foraminiferans

Heliozoans

Radiolarians

Rhizopods

Actinopods

Ciliates (Ciliphora)

All heterotrophs

Arrays of cilia allow

movement and direct

food into oral cavity

Diverse life-styles

Hypotrich

Paramecium

Body Plan of Paramecium

food vacuole

food residues being ejected gullet cilia trichocysts (“harpoons”)

contractile vacuole filled micronucleus

macronucleus

contractile vacuole emptied

Fig. 22-7a, p. 356

Ciliate Conjugation

Most ciliates have two different nuclei

Large macronucleus

Smaller micronucleus

Micronucleus participates in sexual reproduction

(conjugation)

Partners exchange micronuclei

Fig. 22-9b, p.358

Flagellated

Protozoans

Dinoflagellates

Most are single photosynthetic cells

Important component of phytoplankton

Each has two flagella

Algal bloom is population explosion of dinoflagellates

Apicomplexans Parasitic

Complete part of the life cycle inside specific

cells of a host organism

Many have elaborate life cycles that require

different hosts

Many cause serious human disease

Malaria

Most prevalent in tropical and subtropical parts

of Africa

Kills a million Africans each year

Caused by four species of Plasmodium

Transmitted by Anopheles mosquitoes

sporozoite

sporozoites

merozoite

male gametocyte in red blood cell Fig. 22-11, p.359

Plasmodium Life Cycle

Chrysophytes (Chrysophyta)

Mainly free-living photosynthetic cells

Contain chlorophylls a, c1, and c2

Four groups:

- Golden algae - Diatoms

- Yellow-green algae - Coccolithophores

Fig. 22-12a, p.360

Chrysophytes (Chrysophyta)

Diatoms

Fig. 22-12, p. 360

Major component of

the phytoplankton

Silica shell of two

overlapping parts

Sediments rich in

diatom remains

quarried for many

uses

Brown Algae (Phaeophyta)

1,500 species

Most abundant in temperate

seas

Contain chlorophylls a and c,

and fucoxanthin

Range in size from tiny

filaments to giant kelps

Macrocystis

Fig. 22-13, p. 361

Fig. 22-13b, p.361

Brown Algae

(Phaeophyta)

Oomycotes

Large egg cell forms inside oogonium

Saprobic decomposers, parasites, pathogens

• Water molds

• Downy mildews

• White rusts

• Phytophthora

Red Algae (Rhodophyta)

4,100 species

Most abundant in tropical seas

Can grow at great depths (phycobilins)

Complex life cycles may include very different forms

Fig. 22-18, p.363

Red Algae

Green Algae (Chlorophyta)

7,000 species

Resemble plants

Chlorophylls a and b

Starch grains in chloroplasts

Cell walls of cellulose,

pectins

Ulva

Fig. 22-19b, p.364

Green Algae (Chlorophyta)

Fig. 22-19c, p.364

Green Algae (Chlorophyta)

Fig. 22-21, p.366

Amoeba