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3.1.4 Fungi 3.1.6 Protista, e.g. Amoeba 3.1.10.H Growth Curves Follow-Me – iQuiz.

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Presentation on theme: "3.1.4 Fungi 3.1.6 Protista, e.g. Amoeba 3.1.10.H Growth Curves Follow-Me – iQuiz."— Presentation transcript:

1 3.1.4 Fungi 3.1.6 Protista, e.g. Amoeba 3.1.10.H Growth Curves Follow-Me – iQuiz

2 Q. To which kingdom does Amoeba belong? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

3 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

4 Q. What term is applied to the first part of a growth curve? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

5 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

6 Q. What is continuous flow food processing? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

7 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

8 Q. What is meant by saprophytic nutrition? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

9 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

10 Q. Suggest one reason why the contractile vacuole is more active in freshwater amoebae than in marine amoebae. Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

11 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

12 Q. What is the role of the sporangium in the reproduction of Rhizopus? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

13 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

14 Q. What term is applied to the second part of a growth curve? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

15 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

16 Q. State a function of rhizoids. Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

17 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

18 Q. How does asexual reproduction in Rhizopus differ from that in yeast? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

19 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

20 Q. What term is used to describe the process of asexual reproduction in yeast? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

21 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

22 Q. Give one difference between a plant cell and an Amoeba. Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

23 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

24 Q. What is happening during the log or exponential growth phase? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

25 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

26 Q. What is happening during the lag growth phase? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

27 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

28 Q. Give one function of pseudopods (pseudopodia) in Amoeba. Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

29 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

30 Q. What is batch food processing? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

31 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

32 Q. Name one structure in plant cells not found in fungi. Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

33 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

34 Q. Name the structure by which Amoeba gets rid of excess water that has entered by osmosis. Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

35 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

36 Q. Name another form of nutrition (other than heterotrophic) employed by some fungi. Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

37 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

38 Q. In fungi what is the function of the gametangium? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

39 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

40 Q. A single fungal filament is called a … Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

41 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

42 Q. State one function of the contractile vacuole of the Amoeba. Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

43 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

44 Q. A mass of fungal filaments is called a … Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

45 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

46 Q. Name the substrate on which you grew leaf yeast. Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

47 CONGRATULATIONS Please CLICK on THIS BOX for the Next Question

48 Q. Yeasts are eukaryotic organisms. What does this mean? Anchorage; Absorption; Digestion; Enzyme secretion Chloroplast Freshwater more hypotonic; More H 2 O intake Fixed amount of nutrients used at beginning; Bioreactor emptied at end of production Feeding; Movement; Egestion; Homeostasis Log; Exponential phase Living on dead matter Lag phase Hypha Mycelium Organisms are adapting to environment; Low reproductive rate Parasitic Possesses nucleus or membrane-bound organelles Produces gametes; Sexual reproduction Malt agar Water balance; Osmoregulation Protista; Protoctista Production and release of spores Rhizopus produces spores Budding Nutrients constantly fed into bioreactor; Product removed constantly Cell wall Organisms reproducing rapidly Contractile vacuole

49 CONGRATULATIONS You’re Brilliant

50 Incorrect Please CLICK on THIS BOX to Try Again

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