Chapter 9: Microbial Growth

Halophiles

"salt-loving" archaea that live in environments that have very high salt concentrations

environmental factors that influence microbes

-Oxygen requirements -Temperature -pH -Osmotic pressure -Barometric pressure

Media used for bacterial growth

-chemically defined media -complex media -selective media -Differential media -Enriched media

most cells have developed enzymes that neutralize these chemicals:

-superoxide dismutase -catalase

Atmospheric CO2

0.03%

binary fission process

1. DNA replication 2. formation of division septum 3. cell separation

organisms exhibit 3 distinct temperatures:

1. Minimum 2.Maximum 4. Optimum

oxygen requirements for microbial growth

Aerobes: utilize oxygen Anaerobe: does not utilize oxygen

Capnophiles

Microbes that require high CO2 conditions (3%-10%)

most bacteria are:

Neutrophiles AND they grow best at near-neutral pH

Chemostat

addition and removal of fluids adjusted to maintain the culture in the log phase.

binary fission

asexual reproduction in which a cell divides into two equal parts

Bacteria normally reproduce by

binary fission

Barophiles

can survive under extreme pressure and will rupture if exposed to normal atmospheric pressure

complex media

chemical composition is not known

Psychrophiles

cold-loving microbes. grows at 0°C and below; optimum temp <15°C

Direct (total) cell count

counting chambers electronic counters

measurement of bacterial growth

direct counts, plate count methods, indirect methods

Osmotolerant

do not require high concentration of solute but can tolerate it when it occurs

enriched media

encourages the growth of most bacteria

chemically defined media

exact chemical composition is known

4. Death/decline phase

exponential decrease in number of living bacterial cells

2. Log phase

exponential increase in number of living bacterial cells

Acidophiles pH

grow at extreme acid pH values near 3

Alkaliphiles pH

grow optimally at pH above 9

most microbes exist under:

hypotonic or isotonic conditions

Microbial growth

increase in cell and population size

serial dilution

involves diluting a fixed volume of cells to calculate the concentration of microorganisms.

what if a microbe is not capable of dealing w/ toxic oxygen?

it's forced to live in oxygen-free (anaerobic) habitats

microbial growth curve

lag phase, log phase, stationary phase, death phase

differential media

makes it easy to distinguish colonies of different microbes

1. lag phase

no increase in number of living cells

Mesophiles

optimum temperature 20°C-45°C

Thermophiles

optimum temperature of 50°C to maximum of 80°C

direct viable cell count

plating methods - spread plate -pour plate membrane filtration method. start w/ a serial dilution

Hyperthermophiles

ranges from 80°C to maximum of 110°C

3. Stationary Phase

rate of cell division and death roughly equal

selective media

suppress unwanted microbes and encourage desired microbes

exponential growth

the increase of a population by a factor of 2

pour plate method

the sample is mixed in liquid warm agar. The resulting colonies are counted

spread plate method

the sample is poured onto solid agar. The resulting colonies are counted and provide an estimate of the number of cells in the sample.

generation/doubling time

the time required for a population to double in size

Indirect cell count

turbidity, metabolic activity, dry weight