difference between haplodiplontic and diplohaplontic?

Answer 1

The two are described at this site. I think you will see the difference.

Answer 2

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difference between haplodiplontic and diplohaplontic?

Answer 3

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Answer 4

Biological life cycle
A life cycle is a period involving one generation of an organism through means of reproduction, whether through asexual reproduction or sexual reproduction. 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 alternating haploid and diploid phases (n and 2n). The haploid organism becomes diploid through fertilization, which joins of gametes. This results in a zygote which then germinates. To return to a haploid stage, meiosis must occur (see Cell division). The cycles differ in the product of meiosis, and whether mitosis (growth) occurs. Zygotic and gametic meioses 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 mitosis per phase). Sporic meiosis, on the other hand, has two mitosis events (diplobiontic): one in each phase.


Haplontic life cycle
Zygotic meiosisA 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:

Most fungi
Some green algae
Many protozoa

Diplontic life cycle
Gametic meiosisIn 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 unicellular diploid cells. Cells from the diploid individuals then undergo meiosis to produce haploid cells or gametes. Haploid cells may divide to form more haploid cells, as in many yeasts, but the haploid phase is not the predominant life cycle phase. In most diplonts, mitosis occurs only in the diploid phase, i.e. gametes usually form quickly and fuse to produce diploid zygotes.

In the whole cycle, gametes are usually the only haploid cells, and mitosis usually 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:

Animals
Some brown algae
Some fungi, e.g. brewer's yeast

Diplobiontic life cycle
Sporic meiosis


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. In a diagram, the complex halves of gametic meiosis and zygotic meiosis seem to be 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 isomorphy. Not all species with sporic meiosis have both large gametophyte and sporophyte generations, however. The trend in higher plants is to have smaller gametophytes that are more dependent and parasitic on sporophytes, a phenomena known as heteromorphy.