Luokat: Kaikki - atmosphere - spores - adaptation

jonka nurul izzati 11 vuotta sitten

399

Mind Map of Atmospheric Habitat

Endospores and xenospores represent different survival strategies for microorganisms. Endospores are adapted for survival, formed within vegetative cells, and increase the chance of survival under harsh conditions.

Mind Map of Atmospheric Habitat

Atmospheric Habitat

xenospores and endospores

both are more resistant than parental cells
biomass in the atmosphere (surface to 3km)
survival in air dried states
many high surface area: weight ratios
pigmentation protects against UV light and photooxidation
thick cell walls protects again dessication
very low metabolic rates (low maintenance energy)

endosopres

forms that are primarily adapted to resistance rather than reproduction
limited to gram-positive bacteria

physical features of the aerial environment

precipitation
average time of water vapour in air = about 9 days
water vapour --> continually recycled
radiation
mostly absorbed or reflected back but most microorganism at higher region of troposphere may be exposed to damaging doses
radiation from the sun
air movements in the troposphere
principle

displacement pf air occur

sun heats up the ground, create gradient

temperature decreases with altitude

kinetic energy for movements of air --> provided by solar energy
main agent of dispersal

dispersal of airborne particles

3 stages
(c)deposition

methods

rainwashing

electrostatic deposition

brownian movements

impaction wioth surfaces

sedimentation due to the gravity

(b)dispersion in air currents

environment

convection (changes of air due to the temperature)

air humidity

turbulence

wind movements

spore

density

degree of surface roughness

shape

size

depend on physical characteristic of particle (eg spore) and the atmosphere

a) liberation and take-off into the air

features of adaption for airborne dispersal

fungi have many adaption features

eg tall sporophores ; forceful ways to projects spores into air

virus and bacteria are poorly adapted

requies energy to overcome adhesive forces and still air layer

community diversity is low

other extreme environments

antartica
food web --> 3-4 levels of species
environmental condition

high radiation

high velocity of desiccating winds

low humidity

low temperature

salt lakes
adaption feature

require a sodium ion of min [1.5M], OPTIMUM [3-4M]

cell structure and enzyme naturally require stabilization from sodium

predominant bacteria: Halobacterium
high salt causes

precipitation of intracellular proteins

dehydration

high concentration of sodium chloride
acid springs and lakes
Ferroplasma acidarmanus

no cell wall

posesses a single peripheral cytoplasmic membrane

capable of massive surface growth in flowing waters in the subsurface

pH 2.0

pH 3 or less
hot springs
predominant bacterium: Bacillus stearothermophilus
grows of microorganism limited by

Subtopic

low concentration of organic matter

high acidity or alkalinity

high temperature

at volcanic areas
ionizing radiation
lack of nutrients, water availability
toxic chemicals
irradiation
pH
high or low temperature
with severe conditions

xenospores vs. endospores

endospores represents an adaption for survival
one cell --> one spores --> survival rate high
xenospores represents an adaption for fecundity
one cell --> many spores --> survival rate low
endospores forms within the vegetative cells
xenospores form on or in specialized structures

xenospores

forms that are primarily adapted to reproduction vs. resistant to environmental stress
bacteria

eg. actinomycetes

protozoans
algae
fungi

sopres better adapted to atmospheric

small size and low density --> airborne
some are pigmented --> protection against UV radiation
thick cell walls --> against dessication
are produced in high numbers
have low mwtabolic rates

regions in atmosphere

ionosphere
extreme UV and ionizing radiation levels
45km to 100km
exosphere
Helium and Hydrogen predominant
extending into outer space
thermosphere
temperature increases with altitude
mesosphere
temperature decreasing with height
stratosphere
lacking liquid water
extreme low temperature
location of good ozone, limits UV light
increasing temperature with height --> -10km to 45km
troposphere
from surface to about 10km

location of the 'bad' ozone

upper levels too extreme to support life

temperature at upper levels reach -43 to -83

most highly populated area among region
characteristic

water radiation

organic Carbon

concentration oxygen

atm pressure

ait temperature

nearest to earth