SOAL BIOLOGI PROTISTA DASAR

1) All protists are

A) unicellular.

B) eukaryotic.

C) symbionts.

D) monophyletic.

E) mixotrophic.

Answer: B

2) Biologists have long been aware that the defunct kingdom Protista is polyphyletic. Which of these statements is most consistent with this conclusion?

A) Many species within this kingdom were once classified as monerans.

B) Animals, plants, and fungi arose from different protist ancestors.

C) The eukaryotic condition has evolved more than once among the protists.

D) Chloroplasts among various protists are similar to those found in prokaryotes.

E) Some protists, all animals, and all fungi share a protist common ancestor, but these protists, animals, and fungi are currently assigned to three different kingdoms.

Answer: C

3) According to the endosymbiotic theory of the origin of eukaryotic cells, how did mitochondria originate?

A) from infoldings of the plasma membrane, coupled with mutations of genes for proteins in energy-transfer reactions

B) from engulfed, originally free-living proteobacteria

C) by secondary endosymbiosis

D) from the nuclear envelope folding outward and forming mitochondrial membranes

E) when a protoeukaryote engaged in a symbiotic relationship with a protocell

Answer: B

4) Which process could have allowed the nucleomorphs of chlorarachniophytes to be reduced, without the net loss of any genetic information?

A) conjugation

B) horizontal gene transfer

C) binary fission

D) phagocytosis

E) meiosis

Answer: B

5) An individual mixotroph loses its plastids, yet continues to survive. Which of the following most likely accounts for its continued survival?

A) It relies on photosystems that float freely in its cytosol.

B) It must have gained extra mitochondria when it lost its plastids.

C) It engulfs organic material by phagocytosis or by absorption.

D) It has an endospore.

E) It is protected by a case made of silica.

Answer: C

6) Which of the following was derived from an ancestral cyanobacterium?

A) chloroplast

B) mitochondrion

C) hydrogenosome

D) mitosome

E) Two of the responses above are correct.

Answer: A

7) Which two genera have members that can evade the human immune system by frequently changing their surface proteins?

1. Plasmodium

2. Trichomonas

3. Paramecium

4. Trypanosoma

5. Entamoeba

A) 1 and 2

B) 1 and 4

C) 2 and 3

D) 2 and 4

E) 4 and 5

Answer: B

8) Which of the following pairs of protists and their characteristics is mismatched?

A) apicomplexans–internal parasites

B) golden algae–planktonic producers

C) euglenozoans–unicellular flagellates

D) ciliates–red tide organisms

E) entamoebas–ingestive heterotrophs

Answer: D

9) Which of the following statements about dinoflagellates is true?

A) They possess two flagella.

B) All known varieties are autotrophic.

C) Their walls are usually composed of silica plates.

D) Many types lack mitochondria.

E) Their dead cells accumulate on the seafloor, and are mined to serve as a filtering material.

Answer: A

10) You are given an unknown organism to identify. It is unicellular and heterotrophic. It is motile, using many short extensions of the cytoplasm, each featuring the 9 + 2 filament pattern. It has well-developed organelles and three nuclei, one large and two small. This organism is most likely to be a member of which group?

A) foraminiferans

B) radiolarians

C) ciliates

D) kinetoplastids

E) slime molds

Answer: C

11) Which of the following is characteristic of ciliates?

A) They use pseudopods as locomotory structures or as feeding structures.

B) They are relatively specialized cells.

C) They can exchange genetic material with other ciliates by the process of mitosis.

D) Most live as solitary autotrophs in fresh water.

E) They are often multinucleate.

Answer: E

12) Which process results in genetic recombination, but is separate from the process by which the population size of Paramecium increases?

A) budding

B) meiotic division

C) mitotic division

D) conjugation

E) binary fission

Answer: D

13) Why is the filamentous morphology of the water molds considered a case of convergent evolution?

A) Water molds evolved from filamentous fungi.

B) Body shape reflects ancestor-descendant relationships among organisms.

C) In both cases, filamentous shape is an adaptation for the absorptive nutritional mode of a decomposer.

D) Filamentous body shape is evolutionarily ancestral for all eukaryotes.

E) Both the first and second responses above are correct.

Answer: C

14) If we were to apply the most recent technique used to fight potato late blight to the fight against the malarial infection of humans, then we would

A) increase the dosage of the least-expensive antimalarial drug administered to humans.

B) increase the dosage of the most common pesticide used to kill Anopheles mosquitoes.

C) introduce a predator of the malarial parasite into infected humans.

D) use a "cocktail" of at least three different pesticides against Anopheles mosquitoes.

E) insert genes from a Plasmodium-resistant strain of mosquito into Anopheles mosquitoes.

Answer: E

15) Diatoms are mostly asexual members of the phytoplankton. Diatoms lack any organelles that might have the 9 + 2 pattern. They obtain their nutrition from functional chloroplasts, and each diatom is encased within two porous, glasslike valves. Which question would be most important for one interested in the day-to-day survival of individual diatoms?

A) How does carbon dioxide get into these protists with their glasslike valves?

B) How do diatoms get transported from one location on the water's surface layers to another location on the surface?

C) How do diatoms with their glasslike valves keep from sinking into poorly lit waters?

D) How do diatoms with their glasslike valves avoid being shattered by the action of waves?

E) How do diatom sperm cells locate diatom egg cells?

Answer: C

16) A large seaweed that floats freely on the surface of deep bodies of water would be expected to lack which of the following?

A) thalli

B) bladders

C) holdfasts

D) gel-forming polysaccharides

Answer: C

17) Which of the following is a characteristic of the water molds (oomycetes)?

A) the presence of filamentous feeding structures

B) zoospores that are spread by breezes

C) the same nutritional mode as possessed by cyanobacteria

D) a morphological similarity to fungi that is the result of common ancestry

E) a feeding Plasmodium

Answer: A

18) Reinforced, threadlike pseudopods that can perform phagocytosis are generally characteristic of which group?

A) radiolarians and forams

B) gymnamoebas

C) entamoebas

D) amoeboid stage of cellular slime molds

E) oomycetes

Answer: A

19) A snail-like, coiled, porous test (shell) of calcium carbonate is characteristic of which group?

A) diatoms

B) foraminiferans

C) radiolarians

D) gymnamoebas

Answer: B

20) The chloroplasts of land plants are thought to have been derived according to which evolutionary sequence?

A) cyanobacteria → green algae → land plants

B) cyanobacteria → green algae → fungi → land plants

C) red algae → brown algae → green algae → land plants

D) cyanobacteria → red algae → green algae → land plants

Answer: A

21) The chloroplasts of all of the following are thought to be derived from ancestral red algae, except those of

A) golden algae.

B) diatoms.

C) dinoflagellates.

D) green algae.

E) brown algae.

Answer: D

22) A biologist discovers an alga that is marine, multicellular, and lives at a depth reached only by blue light. This alga probably belongs to which group?

A) red algae

B) brown algae

C) green algae

D) dinoflagellates

E) golden algae

Answer: A

23) Green algae differ from land plants in that many green algae

A) are heterotrophs.

B) are unicellular.

C) have plastids.

D) have alternation of generations.

E) have cell walls containing cellulose.

Answer: B

24) If the Archaeplastidae are eventually designated a kingdom, and if land plants are excluded from this kingdom, then what will be true of this new kingdom?

A) It will be monophyletic.

B) It will more accurately depict evolutionary relationships than does the current taxonomy.

C) It will be paraphyletic.

D) It will be a true clade.

E) It will be polyphyletic.

Answer: C

25) The best evidence for not classifying the slime molds as fungi comes from slime molds'

A) DNA sequences.

B) nutritional modes.

C) choice of habitats.

D) physical appearance.

E) reproductive methods.

Answer: A

26) Which pair of alternatives is highlighted by the life cycle of the cellular slime molds, such as Dictyostelium?

A) prokaryotic or eukaryotic

B) unicellular or multicellular

C) diploid or haploid

D) autotroph or heterotroph

Answer: B

27) Which of the following statements concerning protists is true?

A) All protists have mitochondria, though in some species they are much reduced and known by different names.

B) The primary organism that transmits malaria to humans by its bite is the tsetse fly.

C) All apicomplexans are autotrophic.

D) All slime molds have an amoeboid stage that may be followed by a stage during which spores are produced.

E) Euglenozoans that are mixotrophic lack functional chloroplasts.

Answer: A

28) Which of the following is correctly described as a primary producer?

A) oomycete

B) kinetoplastid

C) apicomplexan

D) diatom

E) radiolarian

Answer: D

29) You are given the task of designing an aerobic, mixotrophic protist that can perform photosynthesis in fairly deep water (for example, 250 m deep), and can also crawl about and engulf small particles. With which two of the following structures would you provide your protist?

1. hydrogenosome

2. apicoplast

3. pseudopods

4. chloroplast from red alga

5. chloroplast from green alga

A) 1 and 2

B) 2 and 3

C) 2 and 4

D) 3 and 4

E) 4 and 5

Answer: D

30) You are given the task of designing an aquatic protist that is a primary producer. It cannot swim on its own, yet must stay in well-lit surface waters. It must be resistant to physical damage from wave action. It should be most similar to a(n)

A) diatom.

B) dinoflagellate.

C) apicomplexan.

D) red alga.

E) radiolarian.

Answer: A

31) Similar to most amoebozoans, the forams and the radiolarians also have pseudopods, as do some of the white blood cells of animals (monocytes). If one were to erect a taxon that included all organisms that have cells with pseudopods, what would be true of such a taxon?

A) It would be polyphyletic.

B) It would be paraphyletic.

C) It would be monophyletic.

D) It would include all eukaryotes.

Answer: A

32) You are designing an artificial drug-delivery "cell" that can penetrate animal cells. Which of these protist structures should provide the most likely avenue for research along these lines?

A) pseudopods

B) apical complex

C) excavated feeding grooves

D) nucleomorphs

E) mitosomes

Answer: B

33) A gelatinous seaweed that grows in shallow, cold water and undergoes heteromorphic alternation of generations is most probably what type of alga?

A) red

B) green

C) brown

D) yellow

Answer: C

34) Which of the following are actual mutualistic partnerships that involve a protist and a host organism?

A) cellulose-digesting gut protistswood-eating termites

B) dinoflagellatesreef-building coral animals

C) Trichomonashumans

D) algaecertain foraminiferans

E) all except that involving humans

Answer: E

35) Living diatoms contain brownish plastids. If global warming causes blooms of diatoms in the surface waters of Earth's oceans, how might this be harmful to the animals that build coral reefs?

A) The coral animals, which capture planktonic organisms, may be outcompeted by the diatoms.

B) The coral animals' endosymbiotic dinoflagellates may get "shaded out" by the diatoms.

C) The coral animals may die from overeating the plentiful diatoms, with their cases of silica.

D) The diatoms' photosynthetic output may over-oxygenate the water.

Answer: B

36. You are given five test tubes, each containing an unknown protist, and your task is to read the following description and match these five protists to the correct test tube.

In test tube 1, you observe an organism feeding. Your sketch of the organism looks very similar to Figure When light, especially red and blue light, is shone on the tubes, oxygen bubbles accumulate on the inside of test tubes 2 and 3. Chemical analysis of test tube 3 indicates the presence of substantial amounts of silica. Chemical analysis of test tube 2 indicates the presence of a chemical that is toxic to fish and humans. Microscopic analysis of organisms in test tubes 2, 4, and 5 reveals the presence of permanent, membrane-bounded sacs just under the plasma membrane. Microscopic analysis of organisms in test tube 4 reveals the presence of an apicoplast in each. Microscopic analysis of the contents in test tube 5 reveals the presence of one large nucleus and several small nuclei in each organism.

Test tube 2 contains

A) Paramecium.

B) Navicula (diatom).

C) Pfiesteria (dinoflagellate).

D) Entamoeba.

E) Plasmodium.

Answer: C

37. You are given five test tubes, each containing an unknown protist, and your task is to read the following description and match these five protists to the correct test tube.

In test tube 1, you observe an organism feeding. Your sketch of the organism looks very similar to Figure When light, especially red and blue light, is shone on the tubes, oxygen bubbles accumulate on the inside of test tubes 2 and 3. Chemical analysis of test tube 3 indicates the presence of substantial amounts of silica. Chemical analysis of test tube 2 indicates the presence of a chemical that is toxic to fish and humans. Microscopic analysis of organisms in test tubes 2, 4, and 5 reveals the presence of permanent, membrane-bounded sacs just under the plasma membrane. Microscopic analysis of organisms in test tube 4 reveals the presence of an apicoplast in each. Microscopic analysis of the contents in test tube 5 reveals the presence of one large nucleus and several small nuclei in each organism.

37) Test tube 4 contains

A) Paramecium.

B) Navicula (diatom).

C) Pfiesteria (dinoflagellate).

D) Entamoeba.

E) Plasmodium.

Answer: E

38. You are given five test tubes, each containing an unknown protist, and your task is to read the following description and match these five protists to the correct test tube.

In test tube 1, you observe an organism feeding. Your sketch of the organism looks very similar to Figure When light, especially red and blue light, is shone on the tubes, oxygen bubbles accumulate on the inside of test tubes 2 and 3. Chemical analysis of test tube 3 indicates the presence of substantial amounts of silica. Chemical analysis of test tube 2 indicates the presence of a chemical that is toxic to fish and humans. Microscopic analysis of organisms in test tubes 2, 4, and 5 reveals the presence of permanent, membrane-bounded sacs just under the plasma membrane. Microscopic analysis of organisms in test tube 4 reveals the presence of an apicoplast in each. Microscopic analysis of the contents in test tube 5 reveals the presence of one large nucleus and several small nuclei in each organism.

38) Test tube 5 contains

A) Paramecium.

B) Navicula (diatom).

C) Pfiesteria (dinoflagellate).

D) Entamoeba.

E) Plasmodium.

Answer: A

39. You are given five test tubes, each containing an unknown protist, and your task is to read the following description and match these five protists to the correct test tube.

In test tube 1, you observe an organism feeding. Your sketch of the organism looks very similar to Figure When light, especially red and blue light, is shone on the tubes, oxygen bubbles accumulate on the inside of test tubes 2 and 3. Chemical analysis of test tube 3 indicates the presence of substantial amounts of silica. Chemical analysis of test tube 2 indicates the presence of a chemical that is toxic to fish and humans. Microscopic analysis of organisms in test tubes 2, 4, and 5 reveals the presence of permanent, membrane-bounded sacs just under the plasma membrane. Microscopic analysis of organisms in test tube 4 reveals the presence of an apicoplast in each. Microscopic analysis of the contents in test tube 5 reveals the presence of one large nucleus and several small nuclei in each organism.

Test tube 3 contains

A) Paramecium.

B) Navicula (diatom).

C) Pfiesteria (dinoflagellate).

D) Entamoeba.

E) Plasmodium.

Answer: B

40. Diatoms are encased in Petri-platelike cases (valves) made of translucent hydrated silica whose thickness can be varied. The material used to store excess calories can also be varied. At certain times, diatoms store excess calories in the form of the liquid polysaccharide, laminarin, and at other times as oil. The following are data concerning the density (specific gravity) of various components of diatoms, and of their environment.

Table Specific Gravities of Materials Relevant to Diatoms

Water's density and, consequently, its buoyancy decrease at warmer temperatures. Based on this consideration and using data from Table 28.1, at which time of year should one expect diatoms to be storing excess calories mostly as oil?

A) mid-winter

B) early spring

C) late summer

D) late fall

Answer: C

41. Diatoms are encased in Petri-platelike cases (valves) made of translucent hydrated silica whose thickness can be varied. The material used to store excess calories can also be varied. At certain times, diatoms store excess calories in the form of the liquid polysaccharide, laminarin, and at other times as oil. The following are data concerning the density (specific gravity) of various components of diatoms, and of their environment.

Table Specific Gravities of Materials Relevant to Diatoms

Judging from Table 28.1 and given that water's density and, consequently, its buoyancy decrease at warmer temperatures, in which environment should diatoms (and other suspended particles) sink most slowly?

A) cold fresh water

B) warm fresh water

C) cold seawater

D) warm seawater

E) warm brackish water

Answer: C

42. Diatoms are encased in Petri-platelike cases (valves) made of translucent hydrated silica whose thickness can be varied. The material used to store excess calories can also be varied. At certain times, diatoms store excess calories in the form of the liquid polysaccharide, laminarin, and at other times as oil. The following are data concerning the density (specific gravity) of various components of diatoms, and of their environment.

Table Specific Gravities of Materials Relevant to Diatoms

Using dead diatoms to "pump" CO2 to the seafloor is feasible only if dead diatoms sink quickly. Consequently, application of mineral fertilizers, such as iron, should be most effective at times when diatom valves

A) are thickest, and laminarin is being produced rather than oil.

B) are thickest, and oil is being produced rather than laminarin.

C) are thinnest, and laminarin is being produced rather than oil.

D) are thinnest, and oil is being produced rather than laminarin.

Answer: A

43. Giardia lamblia is an intestinal parasite of humans and other mammals that causes intestinal ailments in most people who ingest the cysts. Upon ingestion, each cyst releases two motile cells, called trophozoites. These attach to the small intestine's lining via a ventral adhesive disk. 

The trophozoites anaerobically metabolize glucose from the host's intestinal contents to produce ATP. Reproduction is completely asexual, occurring by longitudinal binary fission of trophozoites, with each daughter cell receiving two, haploid nuclei (n = 5). A trophozoite will often encyst as it passes into the large intestine by secreting around itself a case that is resistant to cold, heat, and dehydration. Infection usually occurs by drinking untreated water that contains cysts.

The trophozoites of Giardia were first observed in 1681 in the diarrhea stools of the first known person to view protists with a microscope, a person named

A) Robert Koch.

B) Robert Hooke.

C) Isaac Newton.

D) van Leeuwenhoek.

E) Louis Pasteur.

Answer: D

44. Giardia lamblia is an intestinal parasite of humans and other mammals that causes intestinal ailments in most people who ingest the cysts. Upon ingestion, each cyst releases two motile cells, called trophozoites. These attach to the small intestine's lining via a ventral adhesive disk. The trophozoites anaerobically metabolize glucose from the host's intestinal contents to produce ATP. Reproduction is completely asexual, occurring by longitudinal binary fission of trophozoites, with each daughter cell receiving two, haploid nuclei (n = 5). A trophozoite will often encyst as it passes into the large intestine by secreting around itself a case that is resistant to cold, heat, and dehydration. Infection usually occurs by drinking untreated water that contains cysts.

Given that Flagyl produces only minor side effects (if any) in humans, and given the set of parasites that it kills, Flagyl's mode of action probably involves

A) peptidoglycan.

B) mitochondria or mitosomes.

C) anaerobic metabolic pathways.

D) nuclear envelopes.

E) microtubules.

Answer: C

45. Giardia lamblia is an intestinal parasite of humans and other mammals that causes intestinal ailments in most people who ingest the cysts. Upon ingestion, each cyst releases two motile cells, called trophozoites. These attach to the small intestine's lining via a ventral adhesive disk. The trophozoites anaerobically metabolize glucose from the host's intestinal contents to produce ATP. Reproduction is completely asexual, occurring by longitudinal binary fission of trophozoites, with each daughter cell receiving two, haploid nuclei (n = 5). A trophozoite will often encyst as it passes into the large intestine by secreting around itself a case that is resistant to cold, heat, and dehydration. Infection usually occurs by drinking untreated water that contains cysts.

Giardia's mitosome can be said to be "doubly

degenerate," because it is a degenerate form of ________, an organelle that is itself a degenerate form of ________.

A) nucleus; archaean

B) nucleus; bacterium

C) mitochondrion; proteobacterium

D) mitochondrion; spirochete

E) chloroplast; cyanobacterium

Answer: C

46. Giardia lamblia is an intestinal parasite of humans and other mammals that causes intestinal ailments in most people who ingest the cysts. Upon ingestion, each cyst releases two motile cells, called trophozoites. These attach to the small intestine's lining via a ventral adhesive disk. The trophozoites anaerobically metabolize glucose from the host's intestinal contents to produce ATP. Reproduction is completely asexual, occurring by longitudinal binary fission of trophozoites, with each daughter cell receiving two, haploid nuclei (n = 5). A trophozoite will often encyst as it passes into the large intestine by secreting around itself a case that is resistant to cold, heat, and dehydration. Infection usually occurs by drinking untreated water that contains cysts.

The mitosome of Giardia has no DNA within it. If it did contain DNA, then what predictions should we be able to make about its DNA?

1. It is linear.

2. It is circular.

3. It has many introns.

4. It has few introns.

5. It is not associated with histone proteins.

6. It is complexed with histone proteins.

A) 1, 3, and 5

B) 1, 4, and 5

C) 2, 3, and 6

D) 2, 4, and 5

E) 2, 4, and 6

Answer: D

47. Giardia lamblia is an intestinal parasite of humans and other mammals that causes intestinal ailments in most people who ingest the cysts. Upon ingestion, each cyst releases two motile cells, called trophozoites. These attach to the small intestine's lining via a ventral adhesive disk. The trophozoites anaerobically metabolize glucose from the host's intestinal contents to produce ATP. Reproduction is completely asexual, occurring by longitudinal binary fission of trophozoites, with each daughter cell receiving two, haploid nuclei (n = 5). A trophozoite will often encyst as it passes into the large intestine by secreting around itself a case that is resistant to cold, heat, and dehydration. Infection usually occurs by drinking untreated water that contains cysts.

Given the putative ancestry of Giardia's mitosome, what should we predict is true of the mitosome?

A) It has electron transport systems that use oxygen as the final electron acceptor.

B) It has a double membrane.

C) It has thylakoids.

D) It contains microtubules, arranged in the "9 + 2 pattern."

E) It contains 80S (eukaryotic) ribosomes.

Answer: B

48. Giardia lamblia is an intestinal parasite of humans and other mammals that causes intestinal ailments in most people who ingest the cysts. Upon ingestion, each cyst releases two motile cells, called trophozoites. These attach to the small intestine's lining via a ventral adhesive disk. The trophozoites anaerobically metabolize glucose from the host's intestinal contents to produce ATP. Reproduction is completely asexual, occurring by longitudinal binary fission of trophozoites, with each daughter cell receiving two, haploid nuclei (n = 5). A trophozoite will often encyst as it passes into the large intestine by secreting around itself a case that is resistant to cold, heat, and dehydration. Infection usually occurs by drinking untreated water that contains cysts.

 

Given its mode of reproduction and internal structures, which of the following should be expected to occur in Giardia at some stage of its life cycle?

1. separation (segregation) of daughter chromosomes

2. crossing over

3. meiosis

A) 1 only

B) 3 only

C) 1 and 2

D) 1 and 3

E) 2 and 3

Answer: A

49. Giardia lamblia is an intestinal parasite of humans and other mammals that causes intestinal ailments in most people who ingest the cysts. Upon ingestion, each cyst releases two motile cells, called trophozoites. These attach to the small intestine's lining via a ventral adhesive disk. The trophozoites anaerobically metabolize glucose from the host's intestinal contents to produce ATP. Reproduction is completely asexual, occurring by longitudinal binary fission of trophozoites, with each daughter cell receiving two, haploid nuclei (n = 5). A trophozoite will often encyst as it passes into the large intestine by secreting around itself a case that is resistant to cold, heat, and dehydration. Infection usually occurs by drinking untreated water that contains cysts.

Unlike most excavates, Giardia trophozoites have no oral groove and are unable to form food vacuoles. Thus, we should expect its nutrition (mostly glucose) to come from

A) its mitosomes.

B) endosymbiotic cyanobacteria.

C) the ventral disk by which it adheres to the intestinal lining.

D) osmosis involving aquaporins.

E) plasma membrane proteins that are transporters or pumps.

Answer: E

50. Giardia lamblia is an intestinal parasite of humans and other mammals that causes intestinal ailments in most people who ingest the cysts. Upon ingestion, each cyst releases two motile cells, called trophozoites. These attach to the small intestine's lining via a ventral adhesive disk. The trophozoites anaerobically metabolize glucose from the host's intestinal contents to produce ATP. Reproduction is completely asexual, occurring by longitudinal binary fission of trophozoites, with each daughter cell receiving two, haploid nuclei (n = 5). A trophozoite will often encyst as it passes into the large intestine by secreting around itself a case that is resistant to cold, heat, and dehydration. Infection usually occurs by drinking untreated water that contains cysts.

Diplomonads, such as Giardia, contain two haploid nuclei per trophozoite. Thus, during the G1 phase of the cell cycle, there should be a total of how many unreplicated chromosomes per trophozoite, and during the G2 phase, how many replicated chromosomes per trophozoite?

A) 5; 5

B) 5; 10

C) 10; 10

D) 10; 20

E) 20; 20

Answer: C

51. Giardia lamblia is an intestinal parasite of humans and other mammals that causes intestinal ailments in most people who ingest the cysts. Upon ingestion, each cyst releases two motile cells, called trophozoites. These attach to the small intestine's lining via a ventral adhesive disk. The trophozoites anaerobically metabolize glucose from the host's intestinal contents to produce ATP. Reproduction is completely asexual, occurring by longitudinal binary fission of trophozoites, with each daughter cell receiving two, haploid nuclei (n = 5). A trophozoite will often encyst as it passes into the large intestine by secreting around itself a case that is resistant to cold, heat, and dehydration. Infection usually occurs by drinking untreated water that contains cysts.

During passage through the large intestine, a trophozoite will often secrete a case around itself, forming a cyst. Cysts contain four haploid nuclei. When cysts "hatch" within a new host, two trophozoites are released. Thus, which of the following must happen within the cyst, prior to hatching?

1. meiosis

2. nuclear division

3. S phase

4. binary fission

A) 1 only

B) 1 and 2

C) 2 and 3

D) 2 and 4

E) 2, 3, and 4

Answer: E

52. Giardia lamblia is an intestinal parasite of humans and other mammals that causes intestinal ailments in most people who ingest the cysts. Upon ingestion, each cyst releases two motile cells, called trophozoites. These attach to the small intestine's lining via a ventral adhesive disk. The trophozoites anaerobically metabolize glucose from the host's intestinal contents to produce ATP. Reproduction is completely asexual, occurring by longitudinal binary fission of trophozoites, with each daughter cell receiving two, haploid nuclei (n = 5). A trophozoite will often encyst as it passes into the large intestine by secreting around itself a case that is resistant to cold, heat, and dehydration. Infection usually occurs by drinking untreated water that contains cysts.

 

The cysts of Giardia are most analogous to the

A) mitochondria of ancestral diplomonads.

B) nuclei of archaeans.

C) endospores of bacteria.

D) capsids of viruses.

Answer: C

53. Giardia lamblia is an intestinal parasite of humans and other mammals that causes intestinal ailments in most people who ingest the cysts. Upon ingestion, each cyst releases two motile cells, called trophozoites. These attach to the small intestine's lining via a ventral adhesive disk. The trophozoites anaerobically metabolize glucose from the host's intestinal contents to produce ATP. Reproduction is completely asexual, occurring by longitudinal binary fission of trophozoites, with each daughter cell receiving two, haploid nuclei (n = 5). A trophozoite will often encyst as it passes into the large intestine by secreting around itself a case that is resistant to cold, heat, and dehydration. Infection usually occurs by drinking untreated water that contains cysts.

If the mitosomes of Giardia contain no DNA, yet are descendants of what were once free-living organisms, then where are we likely to find the genes that encode their structures, and what accounts for their current location there?

A) plasmids; conjugation

B) plasmids; transformation

C) nucleus; horizontal gene transfer

D) nucleus; S phase

Answer: C

54. Giardia lamblia is an intestinal parasite of humans and other mammals that causes intestinal ailments in most people who ingest the cysts. Upon ingestion, each cyst releases two motile cells, called trophozoites. These attach to the small intestine's lining via a ventral adhesive disk. The trophozoites anaerobically metabolize glucose from the host's intestinal contents to produce ATP. Reproduction is completely asexual, occurring by longitudinal binary fission of trophozoites, with each daughter cell receiving two, haploid nuclei (n = 5). A trophozoite will often encyst as it passes into the large intestine by secreting around itself a case that is resistant to cold, heat, and dehydration. Infection usually occurs by drinking untreated water that contains cysts.

The primary treatment for giardiasis (infection with Giardia), as well as for trichomoniasis (infection with Trichomonas vaginalis) and for amoebic dysentery (infection with Entamoeba histolytica), is a drug marketed as Flagyl (generic name is metronidazole). The drug also kills anaerobic gut bacteria. Consequently, which of these are cues that Flagyl's mode of action has nothing to do with attacking or disabling the parasites' flagella, as the drug's name might imply?

1. It would also harm the flagellated lining of the human intestine.

2. Entamoeba possesses pseudopods, not flagella, yet it is killed by Flagyl.

3. Prokaryotic flagella and eukaryotic flagella are radically different from each other and unlikely to be harmed by the same chemical.

4. Not all anaerobic gut bacteria possess flagella, yet it kills these bacteria.

A) 1 and 2

B) 1 and 3

C) 2 and 3

D) 1, 2, and 4

E) 2, 3, and 4

Answer: E

55. Paulinella chromatophora is one of the few cercozoans that is autotrophic, carrying out aerobic photosynthesis with its two elongated "cyanelles." The cyanelles are contained within vesicles of the host cell, and each is derived from a cyanobacterium, though not the same type of cyanobacterium that gave rise to the chloroplasts of algae and plants.

The closest living relative of P. chromatophora is the heterotroph, P. ovalis. What type of evidence permits biologists to make this claim about relatedness?

A) morphological

B) ecological

C) biochemical

D) genetic

E) fossil

Answer: D

56. Paulinella chromatophora is one of the few cercozoans that is autotrophic, carrying out aerobic photosynthesis with its two elongated "cyanelles." The cyanelles are contained within vesicles of the host cell, and each is derived from a cyanobacterium, though not the same type of cyanobacterium that gave rise to the chloroplasts of algae and plants.

The closest living relative of P. chromatophora is the heterotroph, P. ovalis. P. ovalis uses threadlike pseudopods to capture its prey, which it digests internally. Which of the following, if observed, would be the best reason for relabeling P. chromatophora as a mixotroph?

A) a threadlike pseudopod

B) a pigmented central vacuole, surrounded by a tonoplast

C) a vacuole with food inside

D) a secretory vesicle

E) a contractile vacuole

Answer: C

57. Paulinella chromatophora is one of the few cercozoans that is autotrophic, carrying out aerobic photosynthesis with its two elongated "cyanelles." The cyanelles are contained within vesicles of the host cell, and each is derived from a cyanobacterium, though not the same type of cyanobacterium that gave rise to the chloroplasts of algae and plants.

P. chromatophora secretes around itself a test, or case, of plates made of silica. Which of the following is another rhizarian that would be in competition with P. chromatophora for the silica needed to make these plates, assuming limited quantities of silica in the environment?

A) radiolarians

B) foraminiferans

C) all other amoeboid cells

D) all other rhizaria

E) diatoms

Answer: A

58. Paulinella chromatophora is one of the few cercozoans that is autotrophic, carrying out aerobic photosynthesis with its two elongated "cyanelles." The cyanelles are contained within vesicles of the host cell, and each is derived from a cyanobacterium, though not the same type of cyanobacterium that gave rise to the chloroplasts of algae and plants.

Which of the following represents the true significance of the finding that the cyanelles of P. chromatophora stem from a different type of cyanobacterium than gave rise to chloroplasts?

A) This finding indicates that there is a second evolutionary lineage of photosynthetic eukaryotes.

B) This finding represents the first time that primary endosymbiosis has been directly observed.

C) This finding is the strongest evidence yet for the theory of endosymbiosis.

D) This finding is an example of the phenomenon known as "serial endosymbiosis."

E) This finding is the first evidence that eukaryotic cells do not necessarily digest prokaryotic cells that manage to gain access to their cytoplasm.

Answer: A

59. Paulinella chromatophora is one of the few cercozoans that is autotrophic, carrying out aerobic photosynthesis with its two elongated "cyanelles." The cyanelles are contained within vesicles of the host cell, and each is derived from a cyanobacterium, though not the same type of cyanobacterium that gave rise to the chloroplasts of algae and plants.

The genome of modern chloroplasts is roughly 50% the size of the genome of the cyanobacterium from which it is thought to have been derived. In comparison, the genome of P. chromatophora's cyanelle is only slightly reduced relative to the size of the genome of the cyanobacterium from which it is thought to have been derived. What is a valid conclusion that can be drawn from this comparison?

A) Lytic phage infections have targeted the chloroplast genome more often than the P. chromatophora genome.

B) P. chromatophora's cyanelle is the result of an evolutionarily recent endosymbiosis.

C) The genome of the chloroplast ancestor contained many more introns that could be lost without harm, compared to the cyanelle's genome.

D) All three of the conclusions above are valid.

E) Two of the conclusions above are valid.

Answer: B

60. Paulinella chromatophora is one of the few cercozoans that is autotrophic, carrying out aerobic photosynthesis with its two elongated "cyanelles." The cyanelles are contained within vesicles of the host cell, and each is derived from a cyanobacterium, though not the same type of cyanobacterium that gave rise to the chloroplasts of algae and plants.

 

If true, which of the following would be most important in determining whether P. chromatophora's cyanelle is still an endosymbiont, or is an organelle, as the term cyanelle implies?

A) If P. chromatophora is less fit without its cyanelle than with it.

B) If the cyanelle is less fit without the host cercozoan than with it.

C) If there is ongoing metabolic cooperation between the cyanelle and the host cercozoan.

D) If the magnesium-containing porphyrin ring in the cyanelle's chlorophyll molecules is built by the cyanelle, whereas the organic portion of the chlorophyll molecules is built by the host cercozoan.

E) If there has been movement of genes from the cyanelle genome to the nuclear genome, such that these genes are no longer present in the cyanelle genome.

Answer: E

61. Paulinella chromatophora is one of the few cercozoans that is autotrophic, carrying out aerobic photosynthesis with its two elongated "cyanelles." The cyanelles are contained within vesicles of the host cell, and each is derived from a cyanobacterium, though not the same type of cyanobacterium that gave rise to the chloroplasts of algae and plants.

If true, which of the following is the best evidence that the cyanelles are providing nutrition (in other words, calories) to the surrounding cercozoan?

A) If the cyanelle performs aerobic photosynthesis.

B) If the vesicle membrane that surrounds each cyanelle possesses glucose-transport proteins.

C) If the cyanelle performs aerobic respiration.

D) If radiolabeled 14CO2 enters the cyanelle and if, subsequently, radiolabeled glucose is present in cercozoan cytosol.

E) If radiolabeled "heavy" water, 2H2O, enters the cyanelle and if, subsequently, radiolabeled oxygen appears in cercozoan cytosol.

Answer: D

62. Paulinella chromatophora is one of the few cercozoans that is autotrophic, carrying out aerobic photosynthesis with its two elongated "cyanelles." The cyanelles are contained within vesicles of the host cell, and each is derived from a cyanobacterium, though not the same type of cyanobacterium that gave rise to the chloroplasts of algae and plants.

A crucial photosynthetic gene of the cyanobacterium that gave rise to the cyanelle is called psaE. This gene is present in the nuclear genome of the cercozoan, but is not in the genome of the cyanelle. This is evidence of

A) reciprocal mutations in the cyanelle and nuclear genomes.

B) horizontal gene transfer from bacterium to eukaryotes.

C) genetic recombination involving a protist and an archaean.

D) the origin of photosynthesis in protists.

E) transduction by a phage that infects both prokaryotes and eukaryotes.

Answer: B

63. Paulinella chromatophora is one of the few cercozoans that is autotrophic, carrying out aerobic photosynthesis with its two elongated "cyanelles." The cyanelles are contained within vesicles of the host cell, and each is derived from a cyanobacterium, though not the same type of cyanobacterium that gave rise to the chloroplasts of algae and plants.

What must occur for asexual reproduction to be successful in P. chromatophora?

1. mitosis

2. S phase

3. meiosis

4. equal distribution of cyanelles during cytokinesis

A) 1 only

B) 1 and 2

C) 1, 2, and 3

D) 1, 2, and 4

E) 2, 3, and 4

Answer: D

64. Paulinella chromatophora is one of the few cercozoans that is autotrophic, carrying out aerobic photosynthesis with its two elongated "cyanelles." The cyanelles are contained within vesicles of the host cell, and each is derived from a cyanobacterium, though not the same type of cyanobacterium that gave rise to the chloroplasts of algae and plants.

Including the membrane of the surrounding vesicle, how many phospholipid (NOT lipopolysaccharide) bilayers should be found around each cyanelle, and which one of these bilayers should have photosystems embedded in it?

A) two; innermost

B) two; outermost

C) three; innermost

D) three; middle

E) three; outermost

Answer: A

Healthy individuals of Paramecium bursaria contain photosynthetic algal endosymbionts of the genus Chlorella. When within their hosts, the algae are referred to as zoochlorellae. In aquaria with light coming from only one side, P. bursaria gathers at the well-lit side, whereas other species of Paramecium gather at the opposite side. The zoochlorellae provide their hosts with glucose and oxygen, and P. bursaria provides its zoochlorellae with protection and motility. P. bursaria can lose its zoochlorellae in two ways: (1) if kept in darkness, the algae will die; and (2) if prey items (mostly bacteria) are absent from its habitat, P. bursaria will digest its zoochlorellae.

65) Which term most accurately describes the nutritional mode of healthy P. bursaria?

A) photoautotroph

B) photoheterotroph

C) chemoheterotroph

D) chemoautotroph

E) mixotroph

Answer: E

66. Healthy individuals of Paramecium bursaria contain photosynthetic algal endosymbionts of the genus Chlorella. When within their hosts, the algae are referred to as zoochlorellae. In aquaria with light coming from only one side, P. bursaria gathers at the well-lit side, whereas other species of Paramecium gather at the opposite side. The zoochlorellae provide their hosts with glucose and oxygen, and P. bursaria provides its zoochlorellae with protection and motility. P. bursaria can lose its zoochlorellae in two ways: (1) if kept in darkness, the algae will die; and (2) if prey items (mostly bacteria) are absent from its habitat, P. bursaria will digest its zoochlorellae.

Which term accurately describes the behavior of Paramecium species that lack zoochlorellae in an aquarium with light coming from one side only?

A) positive chemotaxis

B) negative chemotaxis

C) positive phototaxis

D) negative phototaxis

Answer: D

67. Healthy individuals of Paramecium bursaria contain photosynthetic algal endosymbionts of the genus Chlorella. When within their hosts, the algae are referred to as zoochlorellae. In aquaria with light coming from only one side, P. bursaria gathers at the well-lit side, whereas other species of Paramecium gather at the opposite side. The zoochlorellae provide their hosts with glucose and oxygen, and P. bursaria provides its zoochlorellae with protection and motility. P. bursaria can lose its zoochlorellae in two ways: (1) if kept in darkness, the algae will die; and (2) if prey items (mostly bacteria) are absent from its habitat, P. bursaria will digest its zoochlorellae.

Which term best describes the symbiotic relationship of well-fed P. bursaria to their zoochlorellae?

A) mutualistic

B) commensal

C) parasitic

D) predatory

E) pathogenic

Answer: A

68. Healthy individuals of Paramecium bursaria contain photosynthetic algal endosymbionts of the genus Chlorella. When within their hosts, the algae are referred to as zoochlorellae. In aquaria with light coming from only one side, P. bursaria gathers at the well-lit side, whereas other species of Paramecium gather at the opposite side. The zoochlorellae provide their hosts with glucose and oxygen, and P. bursaria provides its zoochlorellae with protection and motility. P. bursaria can lose its zoochlorellae in two ways: (1) if kept in darkness, the algae will die; and (2) if prey items (mostly bacteria) are absent from its habitat, P. bursaria will digest its zoochlorellae.

The motility that permits P. bursaria to move toward a light source is provided by

A) pseudopods.

B) a single flagellum composed of the protein, flagellin.

C) a single flagellum featuring the 9 + 2 pattern.

D) many cilia.

E) contractile vacuoles.

Answer: D

69. Healthy individuals of Paramecium bursaria contain photosynthetic algal endosymbionts of the genus Chlorella. When within their hosts, the algae are referred to as zoochlorellae. In aquaria with light coming from only one side, P. bursaria gathers at the well-lit side, whereas other species of Paramecium gather at the opposite side. The zoochlorellae provide their hosts with glucose and oxygen, and P. bursaria provides its zoochlorellae with protection and motility. P. bursaria can lose its zoochlorellae in two ways: (1) if kept in darkness, the algae will die; and (2) if prey items (mostly bacteria) are absent from its habitat, P. bursaria will digest its zoochlorellae.

A P. bursaria cell that has lost its zoochlorellae is said to be aposymbiotic. It might be able to replenish its contingent of zoochlorellae by ingesting them without subsequently digesting them. Which of the following situations would be most favorable to the reestablishment of resident zoochlorellae, assuming compatible Chlorella are present in P. bursaria's habitat?

A) abundant light, no bacterial prey

B) abundant light, abundant bacterial prey

C) no light, no bacterial prey

D) no light, abundant bacterial prey

Answer: B

70. Healthy individuals of Paramecium bursaria contain photosynthetic algal endosymbionts of the genus Chlorella. When within their hosts, the algae are referred to as zoochlorellae. In aquaria with light coming from only one side, P. bursaria gathers at the well-lit side, whereas other species of Paramecium gather at the opposite side. The zoochlorellae provide their hosts with glucose and oxygen, and P. bursaria provides its zoochlorellae with protection and motility. P. bursaria can lose its zoochlorellae in two ways: (1) if kept in darkness, the algae will die; and (2) if prey items (mostly bacteria) are absent from its habitat, P. bursaria will digest its zoochlorellae.

A P. bursaria cell that has lost its zoochlorellae is aposymbiotic. If aposymbiotic cells have population growth rates the same as those of healthy, zoochlorella-containing P. bursaria in well-lit environments with plenty of prey items, then such an observation would be consistent with which type of relationship?

A) parasitic

B) commensalistic

C) toxic

D) predator-prey

E) mutualistic

Answer: B

71. Healthy individuals of Paramecium bursaria contain photosynthetic algal endosymbionts of the genus Chlorella. When within their hosts, the algae are referred to as zoochlorellae. In aquaria with light coming from only one side, P. bursaria gathers at the well-lit side, whereas other species of Paramecium gather at the opposite side. The zoochlorellae provide their hosts with glucose and oxygen, and P. bursaria provides its zoochlorellae with protection and motility. P. bursaria can lose its zoochlorellae in two ways: (1) if kept in darkness, the algae will die; and (2) if prey items (mostly bacteria) are absent from its habitat, P. bursaria will digest its zoochlorellae.

Theoretically, P.bursaria can obtain zoochlorella either vertically (via the asexual reproduction of its mother cell) or horizontally (by ingesting free-living Chlorella from its habitat). Consider a P. bursaria cell containing zoochlorellae, but whose habitat lacks free-living Chlorella. If this cell subsequently undergoes many generations of asexual reproduction, if all of its daughter cells contain roughly the same number of zoochlorellae as it had originally contained, and if the zoochlorellae are all haploid and identical in appearance, then what is true?

A) The zoochlorellae also reproduced asexually, at an increasing rate over time.

B) The zoochlorellae also reproduced asexually, at a decreasing rate over time.

C) The zoochlorellae also reproduced asexually, at a fairly constant rate over time.

D) The zoochlorellae reproduced sexually, undergoing heteromorphic alternation of generations.

E) The zoochlorellae reproduced sexually, undergoing isomorphic alternation of generations.

Answer: C

72) Plastids that are surrounded by more than two membranes are evidence of

A) evolution from mitochondria.

B) fusion of plastids.

C) origin of the plastids from archaea.

D) secondary endosymbiosis.

E) budding of the plastids from the nuclear envelope.

Answer: D

73) Biologists suspect that endosymbiosis gave rise to mitochondria before plastids partly because

A) the products of photosynthesis could not be metabolized without mitochondrial enzymes.

B) all eukaryotes have mitochondria (or their remnants), whereas many eukaryotes do not have plastids.

C) mitochondrial DNA is less similar to prokaryotic DNA than is plastid DNA.

D) without mitochondrial CO₂ production, photosynthesis could not occur.

E) mitochondrial proteins are synthesized on cytosolic ribosomes, whereas plastids utilize their own ribosomes.

Answer: B

74) Which group is incorrectly paired with its description?

A) rhizariansmorphologically diverse group defined by DNA similarities

B) diatomsimportant producers in aquatic communities

C) red algaeacquired plastids by secondary endosymbiosis

D) apicomplexansparasites with intricate life cycles

E) diplomonadsprotists with modified mitochondria

Answer: C

75) Which protists are in the same eukaryotic supergroup as land plants?

A) green algae

B) dinoflagellates

C) red algae

D) brown algae

E) both green algae and red algae

Answer: E

76) In life cycles with an alternation of generations, multicellular haploid forms alternate with

A) unicellular haploid forms.

B) unicellular diploid forms.

C) multicellular haploid forms.

D) multicellular diploid forms.

E) multicellular polyploid forms.

Answer: D

DETAIL

Protista merupakan salah satu dari Kingdom dari Protista yang dipisahkan dari Kingdom Animalia, setelah dicanangkan Whitaker (1969) bahwa Mahkluk hidup terbagi menjadi 5 Kingdom  yang mempunyai anggota yang beragam. 

Terdapat tiga kelompok anggota Protista, yaitu 

1. ganggang (algae),
2. protozoa
3. kapang lendir dan jamur air

Ganggang adalah protista yang berfotosintesis, sedangkan protozoa bersifat heterotrof, non-fotosintesis. Tipe makan pada protozoa mirip dengan hewan, dengan cara memasukkan partikel makanan ke dalam tubuhnya. Makanan protozoa berupa bakteri atau protozoa lain dan absorbsi nutrisi dari lingkungannya.

Protozoa menempati habitat pada bermacam-macam tipe perairan.

Protozoa mempunyai 4 kelompok taksonomi, yaitu Flagellata, Amoeba, Ciliata, dan Sporozoa. Flagellata ditandai dengan adanya satu atau lebih flagella dalam tubuhnya, hidup bebas atau sebagai parasit. Sebagai contoh adalah Pteromonas, Euglena, dll. Amoeba tidak mempunyai alat lokomosi permanen, pergerakan dilakukan dengan pseudopodia (kaki semu) yang merupakan perpanjangan dari selnya, mengambil

makanan atau mangsa dengan menggunakan kaki semunya dan makanan kemudian

masuk dalam vakuola makanan. Ciliata ditandai dengan adanya silia diseluruh

permukaan tubuhnya. Silia ini digunakan untuk membantu pergerakan dan memasukkan

makanan. Hampir semua anggota Ciliata hidup bebas. Contoh yang umum dijumpai

adalah Paramaecium sp. Paramaecium mempunyai dua bahan genetik, yaitu

makronukleus tunggal yang berperan dalam mengontrol aktifitas sehari-hari, dan

mikronukleus poliplod (dengan 1-80) dan berperan dalam reproduksi seksual.

Sporozoa dengan anggota bersifat parasit dan banyak sebagai penyebab penyakit

pada manusia. Sebagai contohnya adalah Plasmodium.

Dalam praktikum ini juga dipelajari cara penyiapan preparat basah untuk mengamati

mikroorganisme dalam keadaan hidup.Teknik yang dapat digunakan adalah teknik

lekapan basah, tetes gantung, dan penggunaan agar motilitas. Dalam praktikum ini anda akan menggunakan teknik lekapan basah. Preparat yang bersifat basah yang anda siapkan

memungkinkan anda mengamati bentuk dan ukuran mikroorganisme secara individu dan

motilitasnya dalam keadaan alamiah.

Anda akan dapat membedakan motilitas mikroorganisme yang anda amati dengan gerak

Brown. Pergerakan sejati (motilitas) biasanya sangat cepat dan terarah. Sedangkan gerak

Brown merupakan gerakan menggetar partikel-partikel dalam cairan secara acak/tidak

terarah dan terus menerus. Hal ini menyebabkan mikroorganisme motil dan non motil

berubah posisinya dan terlihat seperti bergerak. Dalam pengamatan ini anda harus juga

membedakan pergerakan sejati dengan pergerakan yang disebabkan oleh arus cairan.

Keadaan ini disebabkan karena preparat basah yang anda buat mengandung gelembung

udara atau tidak tersegel dengan baik, sehingga timbul arus udara yang menyebabkan

mikroorganisme yang anda amati bergerak mengalir mengikuti arus cairan tersebut.

Pergerakan sejati mikroorganisme disebabkan karena adanya flagela (bakteri, beberapa

ganggang, dan protozoa), adanya silia atau pseudopodia (pergerakan amuboid) pada

beberapa protozoa. Flagella mungkin sukar untuk diamati dengan mikroskup cahaya.

Pada pewarnaan khusus atau pengamatan dengan menggunakan mikroskup elektron

flagela ini akan dengan mudah diamati.

LEBIH RINCINYA DEMIKIAN ok

PROTISTA

    Protista adalah organisme eukariotik yaitu bahan intinya yang terdapat di dalam selnya diselubungi oleh membran inti. Protista sebagian besar bersel satu (uniseluler) sampai bersel banyak (multiseluler) dan hidup soliter atau berkoloni, besama-sama namun tidak menunjukan diferensiasi menjadi jaringan yang berbeda-beda. Protista dapat ditemukan di air laut, tawar, atau menempel pada tempat-tempat basah.

    Protista dapat digolongkan menjadi protista mirip hewan (protozoa), protista mirip tumbuhan (alga) dan protista mirip jamur,dan berdasarkan caranya memperoleh makanan protista dikelompokkan atas:

1)  Protista autotrof, yaitu protista yang mempunyai klorofil sehingga dapat membuat makanan sendiri melalui fotosintesis. Fotosintesis merupakan proses pembentukan senyawa organik dari senyawa anorganik menggunakan energi cahaya.

2)  Protista heterotrof, yaitu protista yang tidak dapat membuat makanan sendiri sehingga memerlukan makanan organik dari lingkungannya dengan cara fagositosis, fagositisis yaitu proses memakan makhluk hidup lain dengan cara memasukan makhluk hidup yang akan dimakan tersebut ke dalam sel.

3)  Protista saprofit dan parasit, saprofit artinya mencerna makanan organik di luar sel dari sisa-sisa makhluk hidup yang telah mati, sedangkan parasit artinya menyerap sari-sari makanan dari makhluk hidup inangnya. Contoh : jamur.

1.  Protozoa, protista mirip hewan.

a.  Ciri-ciri Protozoa

    Protozoa berasal dari bahasa yunani yaitu protos : mula-mula, awal, dan zoon : hewan. Protozoa merupakan organisme bersel satu (uniseluler) yang mempunyai inti eukariotik, protozoa berukuran antara 100 – 300 mikron dan memiliki bentuk bervariasi mulai dari asimetris, bilateral simetris, radial simetris, dan spiral. Protozoa hidup soliter maupun berkoloni.

    Pada umumnya sel protozoa terdiri atas membran sel, sitoplasma, vakuola makanan, vakuola kontraktil, dan inti sel, dimana membran berfungsi sebagai pelindung dan pengatur pertukaran makanan dan gas, sitoplasma merupakan cairan  dalam membran sel, vakuola makanan adalah vakuola untuk pencernaan makanan yang masuk melalui membran sel atau sitoplasma, vakuola kontraktil berfungsi mengeluarkan sias makanan berbentuk cair, sedangkan inti sel berfungsi untuk mengatur aktivitas sel.

    Protozoa umumnya memiliki habitat di tempat-tempat berair dan basah seperti di air tawar, air laut, tempat lembab, bahkan dalam tubuh hewan maupun manusia. Alat gerak pada protozoa antara lain flagella (rambut/bulu cambuk), silia (rambut/bulu getar), pseudopodia (kaki semu/kaki akar) dan ada yang tidak memiliki alat gerak.

    Reproduksi pada protozoa secara aseksual maupun seksual. Reproduksi aseksual adalah dengan cara pembelahan biner, sedangkan seksual dengan cara konjugasi. Pada protozoa respirasi dilakukan di seluruh permukaan tubuh dengan cara difusi. Apabila keadaan tidak menguntungkan beberapa protozoa membentuk sel aktif yang disebut kista yang diselubungi kapsul polisakarida.

b.  Klasifikasi Protozoa

    Berdasarkan alat geraknya protozoa dapat diklasifikasikan menjadi 6 filum yaitu : Rhizopoda (sarcodina), Cilliata, Zooflagellata (zoomastigophora), Sporozoa (apicomplexa), Foraminifera, dan Actinopoda.

1)  Filum Rhizopoda (sarcodina)

    Rhizopoda berasal dari kata rhizo ; akar, dan podos ; kaki, sedangkan sarcodina berasal dari kata sarkodes : daging. Rhizopoda bergerak menggunakan kaki semu atau pseudopodia yang berfungsi juga sebagai alat untuk menangkap mangsa. Pseudopodia merupakan penjuluran dari sebagian protoplasma sel. Pada rhizopoda pseudopodia memiliki beberapa bentuk seperti lobodia, filopodia, akropodia, dan rhizopodia. Rhizopoda umumnya bersel satu dengan bentuk berubah-ubah.

Umumnya rhizopoda memiliki habitat di air tawar, air laut, di tempat-tempat basah/lembap atau hidup sebagai parasit dalam tubuh hewan dan manusia, makanannya diambil dengan cara fagosit dan dicerna di vakuola makanan. Alat eksresi pada rhizopoda adalah vakuola kontraktil dan pernapasan berlangsung di seluruh permukaan tubuh dengan cara difusi. Rhizopoda berkembang biak dengan cara pembelahan biner.

    Amoeba adalah salah satu contoh dari rhizopoda, amoeba tidak mempunyai bentuk tubuh yang tetap dan bergerak dengan menggunakan pseudopodia. Bagian luar tubuh amoeba terdapat lapisan membran sel yang berfungsi sebagai pelindung isi sel, pengatur pertukaran zat dan gas, dan penerima rangsang kimia.

Amoeba memiliki 2 lapisan sitoplasma yaitu ektoplasma (bagian luar) dan endoplasma (bagian dalam). Berdasarkan tempat hidupnya ada dua jenis amoeba yaitu ektoamoeba yang hidup di air laut, air tawar, dan tempat basah, contoh: amoeba proteus, difflugia, dan globigerina. Sedangkan entamoeba hidup di dalam organisme lain seperti entamoeba histolytica, entamoeba coli, entamoeba gingivalis.

2)  Filum Ciliata (Ciliophora)

    Ciliata merupakan protista bersel satu yang permukaan tubuhnya dipenuhi rambut atau bulu getar (silia) yang berfungsi sebagai alat gerak dan untuk memasukan makanan ke dalam sitoplasma, silia juga berfungsi sebagai penerima rangsang dari luar sel atau lingkungan. Habitat ciliata banyak di tempat berair dan mengandung bahan organik, sebagian ciliata hidup bersimbiosis dan lainnya sebagai parasit.

Sel ciliata mempunyai dua inti, yaitu makronukleus dan mikronukleus, makronukleus berfungsi untuk pertumbuhan dan perkembangan sedangkan mikronukleus berfungsi pada proses reproduksi. Reproduksi ciliata secara aseksual adalah dengan pembelahan biner dan reproduksi seksual dengan konjugasi, ciliata juga memiliki trikosis untuk pertahan diri. Contoh ciliata adalah paramecium caudatum, stentor, didinum, dan vorticella.

3)  Filum Zooflagellata (Zoomastigophora)

    Zooflagellata mempunyai alat gerak berupa bulu cambuk (flagela), sebagian besar hidup soliter dan sebagian membentuk koloni. Ada zooflagellata yang hidup bersimbiosis dan ada yang sebagai parasit dalam tubuh organisme lain.

Zooflagellata mempunyai bentuk tubuh tetap karena dilindungi pelikel, habitatnya di air tawar, air laut, atau sebagai parasit di tubuh organisme lain seperti hewan dan manusia. Reproduksinya ada dua cara yaitu aseksual dengan pembelahan biner dan reproduksi seksual dengan cara konjugasi. Contoh zooflagellata adalah leishmania donovani, trypanosoma gambiense, trichomonas vaginalis, leishmania tropica.

4)  Filum Sporozoa (apicomplexa)

    Sporozoa berasal dari kata spora : benih, dan zoon : binatang, bentuk tubuh umumnya bulat atau bulat panjang. Pada umumnya sporozoa bersel satu dan tidak memiliki alat gerak, dan hampir semuanya bersifat parasit.

    Sporozoa dapat membentuk spora pada fase zigot dan menginfeksi inangnya. Reproduksi dengan dua cara yaitu aseksual (vegetatif) yang dibagi lagi menjadi schizogoni, yaitu pembelahan diri yang berlangsung dalam tubuh inang, dan sporongoni, yaitu pembentukan spora yang berlangsung di dalam tubuh inang perantaranya. Secara seksual (generatif) disebut gamogoni (gametogenesis) yang berupa pembentukan dan peleburan sel-sel gamet jantan dan betina yang terjadi di dalam tubuh inang perantara (hospes intermediate).

Salah satu contoh sporozoa yaitu Plasmodium yang bereproduksi secara metagenesis (pergiliran keturunan) yang terdiri dari dua fase berikut:

a)  Fase Generatif (Sporongoni)

    Fase ini terjadi dalam tubuh nyamuk sebagai inang perantaranya dimana nyamuk menghisap darah manusia yang menderita malaria maka makrogametosit (betina) dan mikrogametosit (jantan) akan ikut terhisap dan masuk ke dalam tubuh nyamuk, kemudian makrogametosit dan mikrogametosit berkembang menjadi makrogamet dan mikrogamet dan selanjutnya akan terjadi fertilisasi antara makrogamet (betina/ovum) dan mikrogamet (jantan/sperma) dalam saluran pencernaan nyamuk, fertilisasi ini menghasilkan zigot diploid (Ookinet), setelah itu ookinet membentuk kista dan dalam kista zigot akan berkembang menjadi sporozoit yang selanjutnya akan menuju saluran kelenjar ludah nyamuk.

b)  Fase Vegetatif (Schizogoni).

    Fase ini terjadi dalam tubuh manusia ( inang tetap) alurnya yaitu sporozoit berpindah ke tubuh manusia setelah digigit nyamuk anopheles betina, sporozoit kemudian menuju hati dan menetap selama kurang lebih tiga hari dan berkembang menjadi merozoit, merozoit menyerang sel-sel darah merah sehingga sel-sel tersebut pecah, dan dalam keadaan ini manusia (penderita) mengalami demam malaria. Merozoit kemudian berkembang menjadi gametosit (mikrogametosit dan makrogametosit).

    Plasmodium terdiri dari empat spesies yaitu :

i.  Plasmodium vivax penyebab penyakit malaria tertiana.

ii.  Plasmodium malarie penyebab penyakit malaria kuartana.

iii.  Plasmodium ovale penyebab penyakit malaria dengan gejala yang sama dengan malaria tertiana.

iv.  Plasmodium falcifarium penyebab penyakit malaria tropika.

5)  Filum Foraminifera

    Foraminifera memiliki cangkang berwarna cerah dan pada permukaannya terdapat lubang kecil. Gerakan organisme ini sangat lambat. Foraminifera hidup di laut dan menempel di bebatuan atau sebagai plankton, cangkang foraminifera sering digunakan sebagai petunjuk adanya kandungan minyak bumi dan gas alam. Contoh polistomella.

6) Filum Actinopoda

    Actinopoda memiliki pseudopodia yang ramping dan menyebar yang disebut axopodia dan umumnya berbentuk seperti bola. Contoh spesies actinopoda adalah hellozoa, radiozoa.

2. Alga, Protista mirip tumbuhan.

a. Ciri-ciri Alga

    Di alam Alga mempunyai ukuran yang beranekaragam, mulai dari ukuran mikroskopis (hanya dapat diamati dengan bantuan alat seperti mikroskop) seperti Euglena sp dan navicula, sampai yang berukuran makroskopis (dapat dilhat tanpa bantuan alat) seperti laminaria dan euchema. Alga bersifat eukariotik karena intinya mempunyai membran dan selnya dikelilingi oleh dinding sel sehingga bentuknya bersifat tetap.

    Alga terdiri dari alga uniseluler (bersel satu) dan alga multiseluler (bersel banyak). Alga uniseluler sebagian hidup soliter dan yang lain berkoloni, berbentuk bulat, oval, atau seperti buah pir. Sedangkan alga multiseluler biasanya berupa lembaran atau berbentuk benang. Alga biasanya terdapat di air (air tawar/air laut) dan di tempat lembab dan basah.

    Pada alga terdapat plastida berupa kloroplas yang berfungsi menyerap energi cahaya matahari yang berguna dalam proses fotosintesis sehingga alga dikatakan bersifat eukariotik atau mampu membuat makanannya sendiri. Klorofil adalah pigmen yang terdapat pada kloroplas, selain klorofil yang merupakan pigmen utama dalam proses fotosintesis pada setiap jenis alga juga mempunyai pigmen tambahan yang berbeda pada setiap jenis alga seperti karoten, fikobilin, xantofil, dan fukosantin. Kandungan pigmen-pigmen inilah yang dijadikan sebagai dasar klasifikasi alga.

    Pada bagian dalam atau permukaan kloroplas terdapat struktur yang disebut pirenoid yang berfungsi menyimpan cadangan makanan, terdapat berbagai jenis cadangan makanan yang berbeda pada setiap jenis alga diantaranya paramilon, leukosin, laminarin dan zat tepung.

    Reproduksi alga berlansung secara aseksual dan seksual. Reproduksi seksual pada alga terjadi dengan tiga cara yaitu pembelahan biner, fragmentasi, dan pembentukan spora. Pembelahan biner terjadi hanya pada alga uniseluler dimana sel induk alga membelah menjadi 2 bagian, kemudian masing-masing tumbuh menjadi alga baru, contohnya terjadi pada Chlorella, Chlamydomonas, dan navicula. Sedangkan fragmentasi terjadi pada alga multiseluler yang berbentuk benang atau lembaran dimana fragmentasi adalah putusnya sebagian tubuh alga menjadi beberapa bagian dan akan tumbuh menjadi individu-individu baru. Contohnya terjadi pada spirogyra dan volvox. Pembentukan spora terjadi pada alga uniseluler maupun multiseluler, spora dihasilkan dari pembelahan sel induk, dan setelah masak spora keluar dari dinding induk dan tumbuh menjadi alga baru yang haploid.

    Reproduksi seksual pada alga berupa konjugasi yang terjadi pada alga multiseluler yang berbentuk benang atau filamen. Sementara itu untuk alga uniseluler terjadi dengan penyatuan/peleburan gamet yang berbeda jenis untuk menghasilkan zigot yang terjadi dengan perantaraan air. Terdapat beberapa macam penyatuan gamet yaitu isogami, anisogami, dan oogami. Isogami yaitu penyatuan gamet jantan dan betina dengan bentuk dan ukuran sama. Anisogami adalah penyatuan gamet jantan dan betina yang berbentuk sama tapi berbeda ukuran, sedangkan oogami yaitu penyatuan gamet jantan dan betina yang berbeda bentuk maupun ukuran.

b.  Klasifikasi Alga

    Klasifikasi alga terutama didasarkan pada pigmen dominan yang dikandungnya, selain itu beberapa faktor penting lain seperti komponen penyusun dinding sel, struktur flagella, serta jenis makanan cadangan juga ikut diperhatikan.

Alga dikelompokkan dalam tujuh filum yaitu euglenophyta, chlorophyta, chrysophyta, phaeophyta, bacillariophyta (diatom), rhodophyta, dan pyrrophyta (alga api).

1)  Filum Euglenophyta

    Euglenophyta adalah organisme uniseluler menunjukan ciri mirip tumbuhan sekaligus seperti hewan, dikatakan mirip tumbuhan karena mempunyai klorofil untuk melangsungkan proses fotosintesis, selain klorofil euglenophyta juga mempunyai pigmen lain seperti karotenoid dan xantofil. Euglenophyta dikatakan mirip hewan karena selnya tidak mempunyai dinding sel, bergerak bebas juga terdapat bintik mata. Tidak adanya dinding sel pada euglenophyta digantikan oleh selaput protein (pelikel) yang lentur, sedangkan bintik mata pada euglenophyta berisi fotoreseptor menyebabkan pergerakannya menuju cahaya.

    Euglenophyta mempunyai habitat di air tawar, air tanah, dan tempat-tempat lembab dan banyak ditemukan di sawah atau air yang menggenang, cadangan makanan pada euglenophyta adalah paramilon (sejenis zat pati). Contoh organisme euglenophyta adalah euglena sp.

Euglena sp berbentuk oval memanjang dan di salah satu ujungnya terdapat mulut sel dan bergerak menggunakan flagella. Reproduksi euglena sp dengan cara pembelahan biner.

2)  Filum Chlorophyta (ganggang hijau)

    Chlorophyta sebagian besar hidup di habitat air tawar (90 persen), dan dilaut (10 persen) yaitu jenis yang berukuran besar, ada yang bersifat uniseluler dan ada pula yang multiseluler. Pigmen dominan pada chlorophyta adalah klorofil a dan b, selain itu juga terdapat pigmen lain yaitu karoteniod yang menyebabkan tubuhnya berwarna hijau. Selain itu dinding selnya tersusun atas bahan selulosa, dan memiliki cadangan makanan berupa amilum yang dihasilkan dan disimpan di pirenoid.

Chlorophyta bereproduksi secara seksual dan aseksual, secara seksual dengan cara konjugasi yaitu isogami atau anisogami. Sedangkan reproduksi aseksual dengan cara pembelahan biner, fragmentasi, dan pembentukan zoospora. Beberapa contoh spesies chlorophyta adalah chlorella, chlamydomonas, volvox globator, spirogyra, hidrodictyon, chroococcus, ulva, chara, oedogonium.

a)  Chlorella

    Merupakan organisme uniseluler yang berbentuk bulat dan mempunyai kloroplas seperti mangkuk. Chlorella memiliki habitat di air tawar, air laut dan tempat lembab. Reproduksinya secara aseksual yaitu dengan pembelahan sel. Chlorella mengandung protein tinggi dan dapat dimanfaatkan sebagai bahan obat-obatan, kosmestik, dan bahan makanan.

b)  Chlamydomonas

    Berbentuk bulat telur dan memiliki dua flagella dan kloroplasnya berbentuk seperti mangkuk. Selain itu terdapat juga stigma (bintik mata) dan pirenoid sebagai tempat pembentukan dan penyimpanan zat tepung serta terdapat 2 vakuola kontraktil. Cara repoduksi seksual dengan cara konjugasi sedang reproduksi aseksualnya dengan cara membentuk zoospora.

c)  Volvox globator

    Volvox banyak ditemukan di air tawar dan hidup berkoloni dan berbentuk bola, volvox bergerak menggunakan flagella dan mempunyai bintik mata. Reproduksi seksualnya secara konjugasi dan aseksual dengan cara fragmentasi.

d)  Spirogyra

    Selnya berbentuk seperti benang serta kloroplasnya berbentuk spiral. Spirogyra memiliki habitat di air tawar yang jernih dan tenang. Spirogyra juga memiliki pirenoid dan reproduksi seksualnya dengan cara konjugasi dan aseksual secara dengan cara fragmentasi.

e)  Hidrodictyon

    Hidrodictyon hidup berkoloni membentuk jala dan banyak ditemukan di air tawar. Reproduksi seksualnya dengan cara konjugasi dan aseksual dengan melakukan fragmentasi.

f)  Chrococcus

    Merupakan organisme uniselular yang tidak mempunyai alat gerak dan memiliki habitat di air tawar. Bereproduksi secara seksual dengan cara konjugasi dan aseksual dengan membentuk zoospora.

g)  Ulva lactuca

    Ulva memiliki habitat di dasar perairan laut yang dangkal, berbentuk seperti lembaran daun, daur hidupnya mengalami metagenesis. Reproduksi seksualnya dengan cara konjugasi sedangkan reproduksi aseksualnya dengan cara membentuk zoospora, ulva memiliki manfaat sebagai bahan makanan (selada laut).

h)  Chara

    Chara memiliki habitat di air tawar dan menyerupai tumbuhan tingkat tinggi yaitu mempunyai struktur berbentuk menyerupai batang beruas-ruas dan memiliki cabang, pada ruas tubuh terdapat nukula yang mengandung arkegonium yang menghasilkan ovum serta globula yang mengandung anteridium penghasil spermatozoid, peleburan ovum dan spermatozoid menghasilkan zigospora yang akan menjadi individu baru.

i)  Oedogonium

    Memiliki habitat di air tawar. Reproduksi seksualnya yaitu dengan cara fertilisasi ovum oleh spermatozoid, sedangkan reproduksi aseksualnya dengan membentuk zoospora.

3)  Filum Chrysophyta

    Chrysophyta sebagian bersifat uniseluler (bersel satu) dan sebagian bersifat multiseluler (bersel banyak), kebanyakan sebagai fitoplankton di ekosistem perairan. Habitatnya sebagian besar berada di air tawar dan laut, pigmen utama pada chrysophyta adalah klorofil, selain itu terdapat pigmen karotenoid dan xantofil sehingga menyebabkan tubuhnya berwarna coklat keemasan.

    Sebagian Chrysophyta memiliki flagela untuk membantu pergerakan. Reproduksi seksual chrysophyta dengan cara peleburan sperma dan ovum sehingga menghasilkan zigot sedangkan reproduksi aseksual dengan pembelahan biner atau pembentukan zoospora pada organisme uniseluler dan multiseluler. Beberapa contoh organisme chrysophyta adalah ochromonas (uniseluler), vaucheria (multiseluler), dan synura.

a)  Ochromonas

    Terdapat kloroplas yang melengkung. Ochromonas berbentuk bola dan memiliki alat gerak berupa 2 flagela.

b)  Vaucheria

    Habitatnya berada di air tawar dan payau, berbentuk benang yang tak bersekat. Reproduksi seksualnya adalah secara oogonium dengan menggunakan anteridium, sedangkan reproduksi aseksual dengan membentuk zoospora.

4)  Filum Phaeophyta

    Phaeophyta adalah organisme multiseluler yang menyerupai tumbuhan tingkat tinggi karena mempunyai struktur seperti akar, batang dan daun. Phaeophyta memiliki tubuh berwarna kecoklatan karena mengandung pigmen fukosantin selain dari pigmen utama yaitu klorifil a dan c. phaeophyta sebagian besar hidup di perairan dengan talus yang terapung di permukaan, dinding selnya mengandung selulosa dan algin (asam alginat) dan memiliki cadangan makanan berupa laminarin yang disimpan dalam pirenoid.

    Reproduksi seksual phaeophyta dengan peleburan sel gamet, sedangkan secara aseksual dengan cara membentuk zoospora. Salah satu contoh spesies phaeophyta adalah laminaria, laminaria menghasilkan asam alginat sebagai bahan pembuat gel untuk industri makanan, pakaian dan kosmestik. Contoh lain phaeophyta adalah Fucus, macrocystis, ascophylum, sargassum, dan turbinaria.

5)  Filum Bacillariophyta (Diatom)

    Bacillariophyta adalah organisme uniseluler yang memiliki habitat di laut dan air tawar dan sebagian berperan sebagai phytoplankton. Pada dinding selnya mempunyai dua struktur yaitu belahan kotak (hipoteka) dan tutup (epiteka). Pigmen yang dikandungnya adalah klorofil a dan c, serta karotenoid dan xantofil. Pada dinding sel tersusun dari bahan silikat hidrat (zat kersik), dan memiliki cadangan makanan berupa amilum. Contoh organisme bacillariophyta adalah navicula, pinnularia, dan dermidium.

6)  Filum Rhodophyta

    Merupakan organisme multiseluler dengan bentuk tubuh seperti rumput dan sering disebut rumput laut (sea weed), habitatnya sebagian besar hidup di laut, dan sisanya hidup di air tawar. Pigmen yang dikandungnya adalah klorofil a dan b, karotenoid dan fikobilin sehingga tubuhnya berwarna merah. Cadangan makanannya berupa zat tepung florid dan dinding selnya terdiri atas selulosa dan pectin.

    Reproduksi seksual pada rhodophyta adalah adalah secara oogami sedangkan secara aseksual dengan membentuk spora. Contoh organisme rhodophyta adalah euchema spinosum, gelidium pusillum, palmaria palmate, gracillaria verrucosa.

7)  Filum Pyrrophyta (Alga api)

    Pyrrophyta sering juga disebut dinoflagelata dan mempunyai ciri uniseluler dan bergerak aktif, sebagian besar hidup di laut dan yang lain di air tawar. Pigmen yang dikandungnya adalah klorofil a dan c, karotenoid, dan xantofil. Reproduksinya secara aseksual yaitu dengan cara membelah diri. Beberapa jenis pyrrophyta seperti nocticula mampu berpendar (fluoresen) di laut sehingga tampak bercahaya pada malam hari dan jumlahnya melimpah sehingga membentuk red tide, yaitu air laut yang tampak berwarna merah kecoklatan.

    Beberapa spesies pyrrophyta dapat menghasilkan racun (toksin) yang dapat membunuh hewan laut yang berada disekitarnya seperti Gymnodinium breve, dan gonyaulax. Dinding selnya berupa selulosa submembran dan memiliki 2 flagela, sedangkan cadangan makanannya berupa amilum.

3.  Protista Mirip jamur

a.  Ciri-ciri Protista mirip jamur

    Protista yang menyerupai jamur tidak dimasukkan dalam klasifikasi jamur karena mempunyai struktur tubuh dan cara reproduksi yang tidak sama dengan kelompok jamur biasa. Pada jamur lendir, reproduksinya mirip fungi tapi pada fase vegetatifnya menyerupai amoeba, sedangkan pada jamur air (Oomycota) struktur selnya lebih menyerupai alga dibanding fungi. Protista mirip jamur ada yang bersifat uniseluler dan ada yang bersifat multiseluler selain itu juga tidak memiliki klorofil.

b.  Klasifikasi Protista mirip jamur

    Protista mirip jamur dibagi dalam 3 filum yaitu Oomycota (Jamur Air), Myxomycota ( Jamur Lendir Plasmodial), dan Acrasiomycota (Jamur Lendir Bersel).

1)  Filum Oomycota (Jamur Air)

    Jamur Air mempunyai habitat di tempat lembap dan berair. Selnya mempunyai banyak inti yang terdapat didalam benang-benang hifa yang tidak bersekat sedangkan dindingnya terdiri dari selulosa.

    Jamur Air sebagian bersifat saprofit dan sebagian bersifat parasit. Reproduksi seksualnya yaitu dengan cara fertilisasi yang membentuk zigot yang kemudian berkembang menjadi oospora, oospora ini dilengkapi dengan alat gerak berupa 2 buah flagela. Contoh Oomycota adalah Saprolegnia sp, Phytophthora sp, pythium sp.

2)  Filum Myxomycota ( Jamur Lendir Plasmodial)

    Myxomycota dapat ditemukan di hutan basah, batang kayu yang busuk, tanah lembap,dan tempat-tempat lembap lainnya. Myxomycota sebagian besar memiliki tubuh yang berwarna cerah misalnya kuning atau oranye. Myxomycota tidak memiliki klorofil, dan struktur molekul membran sel jamur mirip alga. Struktur tubuh vegetatifnya berbentuk seperti lendir dan sifat pada fase vegetatifnya mirip amoeba, sedangkan cara reproduksinya mirip fungi.

    Reproduksi seksual Myxomycota adalah dengan cara singami dan reproduksi aseksualnya dengan cara membentuk spora. Contoh Acrysia, lycogala, dan physarium.

3)  Filum Acrasiomycota (Jamur Lendir Bersel)

    Acrasiomycota memiliki habitat di air tawar, tanah lembap, dan tempat-tempat berair lainnya. Acrasiomycota bergerak dengan menggunakan kaki semu yang juga berguna untuk memfagosit bakteri dan mikroorganisme lainnya.