1)The increase in species richness or biodiversity that occurs from the poles to the tropics, often
referred to as the latitudinal diversity gradient (LDG), is one of the most widely recognized
patterns in ecology. Put another way, in the present day localities at lower latitudes generally
have more species than localities at higher latitudes.
The key factors that explains the gradients depends upon Species richness ultimately depends on
whatever proximate factors are found to affect processes of :
2)Differentiate between primary and secondary succession
THE FACILITATION MODEL.
Whether the conditions are those of primary or secondary succession, the outcome of the
preceeding disturbance is such that resources are now widely available, but there is little
competition for them. One way of describing this situation is through what is known as the
facilitation model, which identifies \"pioneer species\" as those life-forms most capable of
establishing a presence on the site of the disturbance.
Pioneers modify a site by their presence, for instance, by regenerating the soil with organic
material, thus making the area more attractive for invasion by other species. Eventually, new
species move in, edging out the pioneers as they do so. This process may repeat itself several
times, until the ecosystem reaches the climax stage. At the climax stage, there are few biological
\"openings\" for further change, and change is only very slight and slow—at least until another
disturbance arises and starts the process over again.
THE TOLERANCE MODEL.
The tolerance model is another possible mechanism of succession. According to this concept, all
species involved in succession are equally capable of establishing themselves on a recently
disturbed site, but those capable of attaining a large population size quickly are most likely to
become dominant. Unlike the facilitation model, the tolerance model does not depict earlier
inhabitants as preparing the site biologically for new invader species; rather, this model is more
akin to natural selection.
According to the tolerance model, some species will prove themselves more tolerant of
biological stresses that occur within the environment as succession proceeds. Among these
stresses is competition, and those species less tolerant of competition may succeed earlier on,
when there is little competition for resources. Later in the succession process, however, such
species will be eliminated in favor of others more capable of competing.
THE INHIBITION MODEL.
Yet another model of succession is the inhibition model, which, like the tolerance model, starts
with the premise of an open situation at the outset: in other words, all species have equal
opportunity to establish populations after a disturbance. In the inhibition model, however, some
of the early species actually make the site less suitable for the development of other species. An
example of this is when plants secrete toxins in the soil, thus inhibiting the establis.
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1)The increase in species richness or biodiversity that occurs from .pdf
1. 1)The increase in species richness or biodiversity that occurs from the poles to the tropics, often
referred to as the latitudinal diversity gradient (LDG), is one of the most widely recognized
patterns in ecology. Put another way, in the present day localities at lower latitudes generally
have more species than localities at higher latitudes.
The key factors that explains the gradients depends upon Species richness ultimately depends on
whatever proximate factors are found to affect processes of :
2)Differentiate between primary and secondary succession
THE FACILITATION MODEL.
Whether the conditions are those of primary or secondary succession, the outcome of the
preceeding disturbance is such that resources are now widely available, but there is little
competition for them. One way of describing this situation is through what is known as the
facilitation model, which identifies "pioneer species" as those life-forms most capable of
establishing a presence on the site of the disturbance.
Pioneers modify a site by their presence, for instance, by regenerating the soil with organic
material, thus making the area more attractive for invasion by other species. Eventually, new
species move in, edging out the pioneers as they do so. This process may repeat itself several
times, until the ecosystem reaches the climax stage. At the climax stage, there are few biological
"openings" for further change, and change is only very slight and slow—at least until another
disturbance arises and starts the process over again.
THE TOLERANCE MODEL.
The tolerance model is another possible mechanism of succession. According to this concept, all
species involved in succession are equally capable of establishing themselves on a recently
disturbed site, but those capable of attaining a large population size quickly are most likely to
become dominant. Unlike the facilitation model, the tolerance model does not depict earlier
inhabitants as preparing the site biologically for new invader species; rather, this model is more
akin to natural selection.
According to the tolerance model, some species will prove themselves more tolerant of
biological stresses that occur within the environment as succession proceeds. Among these
stresses is competition, and those species less tolerant of competition may succeed earlier on,
when there is little competition for resources. Later in the succession process, however, such
species will be eliminated in favor of others more capable of competing.
THE INHIBITION MODEL.
Yet another model of succession is the inhibition model, which, like the tolerance model, starts
with the premise of an open situation at the outset: in other words, all species have equal
opportunity to establish populations after a disturbance. In the inhibition model, however, some
2. of the early species actually make the site less suitable for the development of other species. An
example of this is when plants secrete toxins in the soil, thus inhibiting the establishment and
growth of other species. Nevertheless, in time the inhibitory species die, thus creating
opportunities that can be exploited by later successional species.
Solution
1)The increase in species richness or biodiversity that occurs from the poles to the tropics, often
referred to as the latitudinal diversity gradient (LDG), is one of the most widely recognized
patterns in ecology. Put another way, in the present day localities at lower latitudes generally
have more species than localities at higher latitudes.
The key factors that explains the gradients depends upon Species richness ultimately depends on
whatever proximate factors are found to affect processes of :
2)Differentiate between primary and secondary succession
THE FACILITATION MODEL.
Whether the conditions are those of primary or secondary succession, the outcome of the
preceeding disturbance is such that resources are now widely available, but there is little
competition for them. One way of describing this situation is through what is known as the
facilitation model, which identifies "pioneer species" as those life-forms most capable of
establishing a presence on the site of the disturbance.
Pioneers modify a site by their presence, for instance, by regenerating the soil with organic
material, thus making the area more attractive for invasion by other species. Eventually, new
species move in, edging out the pioneers as they do so. This process may repeat itself several
times, until the ecosystem reaches the climax stage. At the climax stage, there are few biological
"openings" for further change, and change is only very slight and slow—at least until another
disturbance arises and starts the process over again.
THE TOLERANCE MODEL.
The tolerance model is another possible mechanism of succession. According to this concept, all
species involved in succession are equally capable of establishing themselves on a recently
disturbed site, but those capable of attaining a large population size quickly are most likely to
become dominant. Unlike the facilitation model, the tolerance model does not depict earlier
inhabitants as preparing the site biologically for new invader species; rather, this model is more
akin to natural selection.
According to the tolerance model, some species will prove themselves more tolerant of
3. biological stresses that occur within the environment as succession proceeds. Among these
stresses is competition, and those species less tolerant of competition may succeed earlier on,
when there is little competition for resources. Later in the succession process, however, such
species will be eliminated in favor of others more capable of competing.
THE INHIBITION MODEL.
Yet another model of succession is the inhibition model, which, like the tolerance model, starts
with the premise of an open situation at the outset: in other words, all species have equal
opportunity to establish populations after a disturbance. In the inhibition model, however, some
of the early species actually make the site less suitable for the development of other species. An
example of this is when plants secrete toxins in the soil, thus inhibiting the establishment and
growth of other species. Nevertheless, in time the inhibitory species die, thus creating
opportunities that can be exploited by later successional species.