1. Endosymbiosis --> Eukaryotic Evolution
Plastid
Dinoflagellates
Secondary
endosymbiosis
Apicomplexans
Cyanobacterium
Red alga
Primary
endosymbiosis
Stramenopiles
Heterotrophic
eukaryote
Plastid
Secondary
endosymbiosis
Figure 28.2 Diversity of plastids produced by secondary endosymbiosis
Over the course
of evolution,
this membrane
was lost.
Euglenids
Secondary
endosymbiosis
Green alga
Chlorarachniophytes

2. Protist Diversity Figure 28.3 Protist diversity
Diplomonads
Parabasalids
Excavata
Euglenozoans
Dinoflagellates
Alveolates
Apicomplexans
Ciliates
Diatoms
Chromalveolata
Golden algae
Stramenopiles
Brown algae
Oomycetes
Chlorarachniophytes
Forams
Rhizaria
Radiolarians
Red algae
Chlorophytes
Green
algae
Archaeplastida
Figure 28.3 Protist diversity
For the Cell Biology Video Demonstration of Chemotaxis, go to Animation and Video Files.
Charophyceans
Land plants
Slime molds
Amoebozoans
Gymnamoebas
Entamoebas
Nucleariids
Unikonta
Fungi
Opisthokonts
Choanoflagellates
Animals

3. Protist Diversity - Diplomonads intestinal parasites
Figure 28.3 Protist diversity
5 µm

4. Diatoms - unicellular algae / cell walls are glass-like and made of silica
Figure 28.3 Protist diversity
50 µm

5. Forams - have porous shells called tests
Figure 28.3 Protist diversity

6. Volvox - colonial freshwater chlorophytes
20 µm
50 µm
Figure 28.3 Protist diversity

7. Amoeba - have pseudopods for ingestion and motility
Figure 28.3 Protist diversity
100 µm

8. Flagella Undulating membrane 5 µm
Trichomonas vaginali Parabasalids that commonly inhabit the female vagina
Flagella
Figure 28.4 The parabasalid Trichomonas vaginalis (colorized SEM)
Undulating membrane
5 µm

9. Euglenozoans Flagella 0.2 µm Crystalline rod inside flagella
Figure 28.5 Euglenozoan flagellum
Crystalline rod
inside flagella
Ring of microtubules

10. 9 µm Trypannnosoma - the Kinetoplastid that causes Sleeping Sickness
Figure 28.6 Trypanosoma, the kinetoplastid that causes sleeping sickness
9 µm

11. Euglenids can be both autotrophic and heterotrophic
Long flagellum
Eyespot
Short flagellum
Light detector
Adaptation for
photosynthesis
Contractile vacuole
osmoregulation
Nucleus
Chloroplast
Figure 28.7 Euglena, a euglenid commonly found in pond water
Plasma membrane
Pellicle
Protein bands beneath
plasma membrane
Provide strength and
Flexibility.
Euglena (LM)
5 µm

12. Dinoflagellates some are bioluminescent /cause “Red Tides”
Flagellum
Alveoli - sacs under the plasma membrane
Alveolate
Figure 28.8 Alveoli
0.2 µm

13. Two host life cycle of Plasmodium - causes malaria
Inside mosquito
Inside human
Merozoite
Sporozoites
(n)
Liver
Liver cell
Oocyst
Apex
MEIOSIS
Red blood
cell
Merozoite
(n)
0.5 µm
Zygote
(2n)
Red blood
cells
Figure The two-host cycle of Plasmodium, the apicomplexan that causes malaria
FERTILIZATION
Gametes
Gametocytes
(n)
Key
Haploid (n)
Diploid (2n)

14. Paramecium
Contractile vacuole
Oral groove
Cell mouth
Cilia
50 µm
Micronucleus
Food vacuoles
Macronucleus
(a) Feeding, waste removal, and water balance
MEIOSIS
Haploid micronucleus
Diploid micronucleus
Compatible mates
Figure Structure and function in the ciliate Paramecium caudatum
The original macronucleus disintegrates.
Diploid micronucleus
MICRONUCLEAR FUSION
Key
ConjugationReproduction
(b) Conjugation and reproduction

15. 3 µm Freshwater Diatom with glass-like wall of silica
Figure A freshwater diatom (colorized SEM)
3 µm

16. Flagellum Outer container Living cell 25 µm Colonial Golden Algae
Figure Dinobryon, a colonial golden alga found in fresh water (LM)
25 µm

17. Brown Algae Blade Stipe Holdfast
Figure Seaweeds: adapted to life at the ocean’s margins
Holdfast

18. Brown Algae Alternation of Generations
Sporangia
10 cm
MEIOSIS
Sporophyte
(2n)
Zoospore
Female
Developing
sporophyte
Figure The life cycle of the brown alga Laminaria: an example of alternation of generations
Gametophytes
(n)
Zygote
(2n)
Mature female
gametophyte
(n)
Male
Egg
FERTILIZATION
Key
Sperm
Haploid (n)
Diploid (2n)

19. Life Cycle of Oomycetes = Water Mold
Oogonium
Germ tube
Egg nucleus (n)
Cyst
Antheridial hypha with sperm nuclei (n)
MEIOSIS
Hyphae
ASEXUAL
REPRODUCTION
Zoospore
(2n)
FERTILIZATION
Zygote
germination
Zygotes
(oospores)
(2n)
SEXUAL
REPRODUCTION
Zoosporangium
(2n)
Key
Haploid (n)
Diploid (2n)
Figure The life cycle of a water mold

20. Radiolarian Protist
Figure A radiolarian
Pseudopodia
200 µm

21. Bonnemaisonia hamifera 8 mm
Red Algae : This species has a delicate filamentous form
Bonnemaisonia
hamifera
Figure Red algae
8 mm

22. Dulse (Palmaria palmata)
Red Algae: This leafy species is edible
20 cm
Figure Red algae
Dulse (Palmaria palmata)

23. Nori. The red alga Porphyra is the
source of a traditional Japanese food.
The seaweed is
grown on nets in
shallow coastal
waters.
The harvested
seaweed is spread
on bamboo screens
to dry.
Figure Red algae
Paper-thin, glossy sheets of nori
make a mineral-rich wrap for rice,
seafood, and vegetables in sushi.

24. Green Algae Ulva, or sea lettuce edible seaweed 2 cm (b) Caulerpa, an
Figure Multicellular chlorophytes
(b) Caulerpa, an
intertidal chloro-
phyte

25. Most chlorophytes have complex life cycles with both sexual and asexual reproductive stages:
Flagella –
1 µm
Cell wall +
Gamete
(n) – +
Nucleus
Zoospore
Mature cell
(n)
FERTILIZATION
ASEXUAL
REPRODUCTION
SEXUAL
REPRODUCTION
Zygote
(2n)
Cross
section of
cup-shaped
chloroplast
Figure The life cycle of Chlamydomonas, a unicellular chlorophyte
Key
MEIOSIS
Haploid (n)
Diploid (2n)

26. Eukaryotes Choanoflagellates Animals Unikonta Fungi Common ancestor
of all
eukaryotes
Amoebozoans
Diplomonads
Excavata
Euglenozoans
Alveolates
Chromalveolata
Stramenopiles
Figure What is the root of the eukaryotic tree?
DHFR-TS
gene
fusion
Rhizarians
Rhizaria
Red algae
Green algae
Archaeplastida
Plants

27. Life Cycle of Plasmodial Slime Mold
4 cm
FERTILIZATION
Zygote (2n)
Feeding
plasmodium
Mature
plasmodium
(preparing to fruit)
Flagellated
cells
(n)
Young
sporangium
Amoeboid cells
(n)
Mature
sporangium
Germinating
spore
Spores
(n)
Figure The life cycle of a plasmodial slime mold
MEIOSIS
1 mm
Stalk
Key
Haploid (n)
Diploid (2n)

28. Life Cycle of Cellular Slime Mold
Spores
(n)
FERTILIZATION
Emerging
amoeba
(n)
Zygote
(2n)
SEXUAL
REPRODUCTION
Solitary amoebas
(feeding stage)
(n)
600 µm
MEIOSIS
Fruiting
bodies
(n)
ASEXUAL
REPRODUCTION
Amoebas
(n)
Aggregated
amoebas
Migrating
aggregate
Figure The life cycle of Dictyostelium, a cellular slime mold
Key
Haploid (n)
Diploid (2n)
200 µm

29. Protist Symbiont ++
Figure A protist symbiont
10 µm

30. Nurseries with P. ramorum infections (2004) on
Risk Map for the Parasitic Protist Sudden Oak Death in United States
Key
Figure Risk map for sudden oak death in the contiguous United States
High risk
Moderate risk
Low risk
Nurseries with P. ramorum infections (2004) on
other host plants (such as rhododendron).

31. Protists are Key Producers in Aquatic Communities
Other
consumers
Herbivorous
plankton
Carnivorous
plankton
Bacteria
absorbed by
Figure Protists are key producers in aquatic communities
Soluble
organic matter
Protistan
producers
secrete

32. Review

33. You should now be able to:
Explain why the kingdom Protista is no longer considered a legitimate taxon.
Explain the process of endosymbiosis and state what living organisms are likely relatives of mitochondria and plastids.
Distinguish between endosymbiosis and secondary endosymbiosis.
Name the five supergroups, list their key characteristics, and describe some representative taxa.