From Wikipedia,
the free encyclopedia.
A life cycle is a time
of development of one
generation of a
species, whether through
asexual reproduction or
sexual reproduction, and
especially in regard to its
ploidy. There are three types
of cycles:
- haplontic life cycle
- diplontic life cycle
- diplobiontic life cycle
(also referred to as
diplohaplontic, haplodiplontic
or dibiontic life cycle)
These three types of cycles
feature the alternating
haploid and
diploid phases (n and
2n). The haploid organism
becomes diploid through
fertilizations of
gametes, resulting in a
zygote (see
Reproduction). To return to
the haploid stage,
meiosis occurs (see
Cell division).
The cycles differ in the
product of meiosis, and if
mitosis (growth) occurs.
Zygotic and gametic meiosis have
one mitotic stage and form: during
the n phase in zygotic
meiosis and during the 2n
phase in gametic meiosis.
Therefore, zygotic and gametic
meiosis are collectively term
haplobiontic (single meiosis
per phase). Sporic meiosis, on the
other hand, has two meiosis events
(diplobiontic): one in each
phase.
Haplontic life cycle
A zygotic meiosis is a
meiosis of a
zygote immediately after
karyogamy, which is the fusion
of two
cell nuclei. This way, the
organism ends its diploid phase
and produces several haploid
cells. These cells divide
mitotically to form either
larger, multicellular individuals,
or more haploid cells. Two
opposite types of gametes (e.g.,
male and female) from these
individuals or cells fuse to
become a zygote.
In the whole cycle, zygotes are
the only diploid cell; mitosis
occurs only in the haploid phase.
The individuals or cells as a
result of mitosis are haplonts,
hence this life cycle is also
called haplontic life cycle.
Haplonts are:
Diplontic life cycle
In gametic meiosis,
instead of immediately dividing
meiotically to produce haploid
cells, the zygote divides
mitotically to produce a
multicellular diploid individual
or a group of more diploid cells.
Cells from the diploid individuals
then undergo meiosis to produce
gametes. The haploid gametes
do not divide mitotically,
however. Without growing larger,
the gametes would fuse and produce
the diploid zygote with gametes of
the opposite type.
In the whole cycle, gametes are
the only haploid cells; mitosis
occurs only in the diploid phase.
The diploid multicellular
individual is a diplont,
hence a gametic meiosis is also
called a diplontic life cycle.
Diplonts are:
Diplobiontic life cycle
Main article:
Alternation of generations
In sporic meiosis, also
known as intermediary meiosis,
mitoses occur in both the
diploid and haploid phases. It
exhibits
alternation of generations,
which features of
spore-producing multicellular
sporophytes and
gamete-producing multicellular
gametophytes. Diagramatically,
sporic meiosis looks like the
complex halves of gametic meiosis
and zygotic meiosis are merged
into one.
This type of cycle is
diplobiontic (also known as
diplohaplontic,
haplodiplontic, or
dibiontic).
Sporic meiosis occurs in
plants and many
algae. Having multicellular
individuals in both phases means
that for some
seaweeds, it is difficult to
determine if a macroscopic
specimen is gametophytic or
sporophytic unless observed under
a microscope, this is called
isogamy. However, not all species
with sporic meiosis have both
large gametophyte and sporophyte
generations. The trend in
higher plants is having
smaller gametophytes that are more
dependent (parasitic)
on soporophytes, this is called
heterogamy.
