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Category:Thurn and Taxis
taxis (plural
taxes, ) is an
innate behavioural response by an
organism to a directional
stimulus. A taxis differs from a
tropism (turning response, often growth towards or away from a stimulus) in that the organism has
motility and demonstrates guided movement towards or away from the stimulus
[cite book |author=Kendeigh, S. C. |year=1961 |title=Animal Ecology |publisher=Prentice-Hall, Inc., Englewood Cliffs, N.J. |pages=468 ].
Examples
For example, flagellate
protozoans of the genus
Euglena move towards a light source. Here the directional stimulus is light, and the orientation movement is towards the light. This reaction or behaviour is a positive one to light and specifically termed "positive phototaxis", since phototaxis is a response to a light stimulus, and the organism is moving towards the stimulus. If the organism moves away from the stimulus, then the taxis is negative. Many types of taxis have been identified and named using prefices to specify the stimulus that elicits the response. These include
anemotaxis (stimulation by
wind),
barotaxis (
pressure),
chemotaxis (
chemicals),
galvanotaxis (
electrical current),
geotaxis (
gravity),
hydrotaxis (
moisture),
phototaxis (
light),
rheotaxis (
fluid flow),
thermotaxis (
temperature changes) and
thigmotaxis (
physical contact).
Depending on the type of
sensory organs present, taxes can be classified as
klinotaxes, where an organism continuously samples the environment to determine the direction of a stimulus,
tropotaxes, where bilateral sense organs are used to determine the stimulus direction, and
telotaxes, which are similar to tropotaxes but where a single organ suffices to establish the orientation movement.
Geotaxis
Geotaxis is a response to the attraction due to
gravity. The
planktonic larvae of the
king crab Lithodes aequispinus use a combination of positive phototaxis (movement towards the light) and negative geotaxis (upward movement)
[cite journal |quotes=no |title=Phototaxis and geotaxis of light-adapted zoeae of the golden king crab Lithodes aequispinus (Anomura: Lithodidae) in the laboratory |author=C. F. Adams & A. J. Paul |year=1999 |journal=Journal of Crustacean Biology |volume=19 |issue=1 ]. Both positive and negative geotaxes are found in a variety of
protozoans
[cite journal |quotes=no |url=http://jeb.biologists.org/cgi/reprint/110/1/17 |author=T. Fenchel & B. J. Finlay |title=Geotaxis in the ciliated protozoon Loxodes |journal=Journal of Experimental Biology |year=1984 |volume=110 ].
Phototaxis
Phototaxis is the movement of an organism in response to
light. This is advantageous for phototrophic organisms as they can orientate themselves most efficiently to receive light for photosynthesis. Two types of positive phototaxis are observed in prokaryotes. Scotophobotaxis is observable as the movement of a bacterium out of the area illuminated by a microscope. Entering darkness signals the cell to reverse direction and reenter the light. A second type of phototaxis is true phototaxis, which is a directed movement up a gradient to an increasing amount of light.
Chemotaxis
Chemotaxis is a migratory response elicited by chemicals. Unicellular (e.g. protozoa) or multicellular (e.g. worms) organisms are targets of the substances. A concentration gradient of chemicals developed in a fluid phase guides the vectorial movement of responder cells or organisms. Inducers of locomotion towards increasing steps of concentrations are considered as
chemoattractants, while
chemorepellents result moving off the chemical. However, chemotaxis is described in
prokaryotic and
eukaryotic cells, signalling mechanisms (receptors, intracellular signaling) and effectors are significantly different.
Rheotaxis
Rheotaxis is a response to a
current in a fluid. Positive rheotaxis is shown by fish turning to face into the current. In a flowing stream, this behaviour leads them to hold their position in a stream rather than being swept downstream. Some fish will exhibit negative rheotaxis where they will avoid currents.
Magnetotaxis
Magnetotaxis is the ability of certain motile, aquatic
bacteria to sense a
magnetic field and coordinate their movement in response. It has been suggested that by orientating themselves toward the Earth's poles, marine bacteria are able to direct their movement downwards, towards the sediment. Furthermore, bacteria that are able to metabolise metal compounds may also use magnetosomes to detect deposits of ferrous compounds.
See also
*
Haptotaxis*
Mechanotaxis*
KinesisReferences
de:Taxisja:走性pt:Taxiazh:趨向性