9218329
Description
Question 1
Question
Choose the incorrect statement about trophic nourishment.
Answer
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Chemoheterotrophs can get their energy and carbon from the same organic compound.
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A phototroph uses light as en energy source, and can be oxygenic or anoxygenic.
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A chemotroph uses chemical energy as an energy source.
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Autotrophs can make complex carbons from CO2.
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Anoxygenic phototrophs oxidise molecules like H2S and do not produce oxygen.
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Oxygenic phototrophs reduce H2O and produce oxygen.
Question 2
Question
Choose the correct statements about cyanobacteria.
Answer
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They use light as an energy source.
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They oxidise water for electrons.
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They use complex carbons for a carbon source.
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They carry out oxygenic photosynthesis.
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They reduce water for electrons.
Question 3
Question
Choose the incorrect statement about green and purple cyanobacteria.
Answer
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They are photoautotrophs.
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They oxidise H2S to S for an electron source.
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They use CO2 for an energy source.
Question 4
Question
Choose the correct statement about colourless sulfur bacteria(Beggiatoa).
Answer
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They sit below green and purple sulfur bacteria in the Winogradsky column.
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They are chemoheterotrophs.
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They oxidise H2S to SO4.
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They use complex organic carbons for a carbon source.
Question 5
Question
Sulfate reducing bacteria are chemoheterotrophs that essentially reverse the processes that colourless sulfur bacteria carry out.
Answer
- True
- False
Question 6
Question
Organisms which carry out fermentation are [blank_start]chemoheterotrophs[blank_end]. Their energy source, carbon source, and electron donor, are always [blank_start]complex carbons[blank_end] (organic molecules) and sometimes are even the same molecule. An example of [blank_start]a fermenting chemoheterotroph[blank_end] are cellulose degrading bacteria, which break pyruvate down into [blank_start]acetate[blank_end] and simultaneously degrade cellulose into [blank_start]lactate[blank_end]. Other examples include clostridium and [blank_start]rumen[blank_end] bacteria.
Answer
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chemoheterotrophs
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chemoautotrophs
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complex carbons
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fermenting chemoheterotrophs
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fermenting chemoautotrophs
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acetate
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acetic acid
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lactate
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lactose
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rumen
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colourless sulfur
Question 7
Question
Microbial growth in a [blank_start]closed batch[blank_end] culture system is not like nature, in that it is a 'Feast and [blank_start]Famine[blank_end]' situation controlled by the examiner. There are four stages which characterise the growth [blank_start]curve[blank_end] for bacteria in this system.
Firstly, there is a [blank_start]lag phase[blank_end]. It is shown as little to no change in the population size. The lag period [blank_start]differs depending[blank_end] on how much the inoculum must evolve and adjust before it is suited to the environment/has the proper [blank_start]biosynthetic reactions[blank_end] taking place.
The next phase is the [blank_start]exponential phase[blank_end]. During this phase there are [blank_start]no limited resources[blank_end] or competition and so the bacterial population can [blank_start]double[blank_end] in size every generation via binary fission, displaying exponential population growth.
The next phase is the [blank_start]stationary phase[blank_end]. This appears to be a stable population size, but does not indicate static activity. Instead, it reflects the cryptic growth of the organisms. Cryptic growth is the state of [blank_start]dynamic[blank_end] equilibrium where organisms survive by feeding from the lysed, dead bodies of deceased organisms.
Finally, there will be a [blank_start]death phase[blank_end] where the population size decreases until it is at a stable end point.
Answer
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closed batch
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open batch
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Famine
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curve
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lag phase
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exponential phase
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stationary phase
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death phase
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depends
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biosynthetic reactions
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double
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no limited resources
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limited resources
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dynamic
Question 8
Question
What might cause a persistent bacterial infection?
Answer
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Microbes which are able to degrade antibiotics.
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Microbes not all being in the same stage of a life cycle, and the non-dividing organisms not being targeted by antibiotics.
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Microbes which can repopulate faster than a patient can be medicated.
Question 9
Question
To be antibiotic resistant a microbe must carry the genes which confer resistance.
Answer
- True
- False
Question 10
Question
Choose the incorrect statement about microbial behaviour.
Answer
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Some bacteria are very large e.g. thiomargarita.
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Some bacteria have organelles e.g. Anammox bacteria
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Myxobacteria display social behaviour.
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None of these are incorrect.
Question 11
Question
Which statement best describe the 'sliding' behaviour displayed by myxobacteria.
Answer
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It is a form of social motility wherein each bacteria pulls with pili and secretes slime like a propellent.
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It is the microbial version of hunting like a wolf pack.
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It is swarm feeding cooperatively by sharing enzymes and attacking targets as a group.
Question 12
Question
When a food source is exhausted, myxobacteria form 3D structures of endospores. What are these referred to as?
Answer
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Fruiting bodies
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Sporing bodies
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Endospikes
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