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AP Biology. Lecture #47 Protists. Protist Systematics & Phylogeny, I. 1- Groups lacking mitochondria; early eukaryotic link; Giardia (human intestinal parasite; severe diarrhea); Trichomonas (human vaginal infection)
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AP Biology Lecture #47 Protists
ProtistSystematics & Phylogeny, I • 1- Groups lacking mitochondria; early eukaryotic link; Giardia (human intestinal parasite; severe diarrhea); Trichomonas(human vaginal infection) • 2- Euglenoids; autotrophic& heterotrophic flagellates; Trypanosoma(African sleeping sickness; tsetse fly)
Protozoans • Phylum Flagellates • Flagellates have a small number of long flagella, long whiplike hairs that beats to propel the cell. • Trypanosoma, Giardia, etc. • Some nasty parasites are flagellates, including Giardialamblia, which causes diarrhea and which is found in most of the surface waters of the US. Another is Trypanosomabrucei, which causes sleeping sickness in Africa. Also Trichmonasvaginalis, a sexually transmitted disease.
ProtistSystematics & Phylogeny, II • Alveolata: membrane-boundcavities (alveoli) under cell surfaces; dinoflagellates (phytoplankton); Plasmodium (malaria); ciliates (Paramecium)
Protozoans • Phylum Ciliates • Cell covered by 1000s of tiny cilia • Swim by waving cilia. The cilia beat in a synchronized pattern to cause movement. • Genetics: the DNA used for sexual reproduction is stored in the small micronucleus. A copy of this information is used to run the cell: the copy is kept in the much larger macronucleus. • Paramecium is a typical ciliate. It has a gullet to swallow food, and a contractile vacuole to get rid of excess water.
ProtistSystematics & Phylogeny, III • Stamenophila: water molds/mildews and heterokont (2 types of flagella) algae; numerous hair-like projections on the flagella; most molds are decomposers and mildews are parasites; algae include diatoms, golden, andbrown forms
ProtistSystematics & Phylogeny, IV • Rhodophyta: red algae; no flagellated stages; phycobilin (red) pigment • Chlorophyta: green algae; chloroplasts; gave rise to land plants; volvox, ulva
The second unicellular algae, Bacillariophyta, are photosynthetic autotrophs. • They have shells of silica. • They make up a large portion of the world’s phytoplankton which is Earth’s largest provider of oxygen.
Algae: • Phylum Diatoms • Other photosynthetic pigments • Cells walls of silica (silicon dioxide), finely ornamented • Variety of shapes
The third unicellular algae, Dinoflagellata, are a major component of marine phytoplankton. • These algae have at least two flagella set at right angles to each other and thick cell walls made of cellulose plates. • Blooms of dinoflagellates cause “Red Tide.”
Multicellular Algae • The multicellular algae are commonly called seaweed. They can be classified into red, brown, and green algae. All have chloroplasts, but the pigments in the chloroplasts vary, giving the different colors. • Some, like kelp, are very large and contain several different types of cells and tissues to do specialized work. These include leaves for photosynthesis, gas-filled bladders for buoyancy, the root-like holdfast, and tubes to transport nutrients throughout the body. • Algae contain the polysaccharide “agar”, which is tasteless and is used to thicken foods such as soft ice cream.
Phylum Phaeophyta is made up of the brown algae. • They are found in cool saltwater along rocky coasts. • Giant Kelp are the largest and most complex brown algae. They have hold fasts and air bladders.
ProtistSystematics & Phylogeny, V • Affinity uncertain: • Rhizopods: unicellular with pseudopodia; amoebas • Actinopods: ‘ray foot’ (slender pseudopodia; heliozoans, radiolarians
Protozoans • Phylum Amoeboids • Movement by cytoplasmic streaming (Move by extensions of the cell membrane and cytoplasm called pseudopods or “False Feet”). • Usually no fixed shape • Amoeba, • Foraminferans • calcium carbonate shells
ProtistSystematics & Phylogeny, VI • Mycetozoa: slime molds (not true fungi); use pseudopodia for locomotion and feeding; plasmodialand cellular slime molds
Slime MoldsSlime molds have traits like both fungi and animals. During good times, they live as independent, amoeba-like cells, dining on fungi and bacteria. But if conditions become uncomfortable—not enough food available, the temperature isn't right, etc.—individual cells begin gathering together to form a single structure. The new communal structure produces a slimy covering and is called a slug because it so closely resembles the animal you sometimes see gliding across sidewalks. The slug oozes toward light. When the communal cells sense that they've come across more food or better conditions, the slug stops
Slime molds • Slime molds obtain food through decomposition of organic material • This is a slime mold--> commonly found on grass. It’s called the dog vomit slime mold – eewww, gross!
Water molds from the Phylum Oomycota are classified as protists because they have flagellated reproductive cells. • Downy mildews parasitize plants and are decomposers in freshwater ecosystems.
“cloning” – plants identical to each other Isogamy = male and female gamete identical in size Sexual reproduction- create variation
Protist Diversity • Parasitic & pathogenic Protists • malaria • Giardia • trypanosomes Plasmodium Giardia Trypanosoma
Protozoans • Phylum Apicomplexans • Sporozoans are animal-like protists that have part of their life cycle inside the cells of their hosts. Non-motile • Parasites that feed on the cells and fluids of a host animal. • They reproduce and spread by spores. • Obligate parasites • Plasmodium causes malaria • Toxoplasma in cats
Protist Diversity • Beneficial & necessary Protists • phytoplankton • small algae + diatoms • much of the world’s photosynthesis • produces ~90% of atmospheric oxygen • zooplankton • heterotrophic protists + animals • key ecological role at base of marine food web Mmmmmm!Sounds like breakfast!