Within this phylum are four groups — coccidians, gregarines, haemosporidians (or haematozoans, including in addition piroplasms), and marosporidians. The coccidians and haematozoans appear to be relatively closely related.
Gregarines The gregarines are generally parasites of
annelids,
arthropods, and
molluscs. They are often found in the
guts of their hosts, but may invade the other tissues. In the typical gregarine lifecycle, a
trophozoite develops within a host cell into a schizont. This then divides into a number of
merozoites by
schizogony. The
merozoites are released by lysing the host cell, which in turn invade other cells. At some point in the apicomplexan lifecycle,
gametocytes are formed. These are released by lysis of the host cells, which group together. Each gametocyte forms multiple
gametes. The gametes fuse with another to form
oocysts. The oocysts leave the host to be taken up by a new host.
Coccidians '' (Coccidia) parasites In general, coccidians are parasites of
vertebrates. Like gregarines, they are commonly parasites of the
epithelial cells of the gut, but may infect other tissues. The coccidian lifecycle involves merogony, gametogony, and sporogony. While similar to that of the gregarines it differs in
zygote formation. Some trophozoites enlarge and become
macrogamete, whereas others divide repeatedly to form
microgametes (anisogamy). The microgametes are motile and must reach the macrogamete to fertilize it. The fertilized macrogamete forms a zygote that in its turn forms an oocyst that is normally released from the body. Syzygy, when it occurs, involves markedly anisogamous gametes. The lifecycle is typically haploid, with the only diploid stage occurring in the zygote, which is normally short-lived. The main difference between the coccidians and the gregarines is in the gamonts. In the coccidia, these are small, intracellular, and without epimerites or
mucrons. In the gregarines, these are large, extracellular, and possess epimerites or mucrons. A second difference between the coccidia and the gregarines also lies in the gamonts. In the coccidians, a single gamont becomes a macrogametocyte, whereas in the gregarines, the gamonts give rise to multiple gametocytes.
Haemosporidia '' (Haemosporidia) parasite among human red blood cells The Haemosporidia have more complex lifecycles that alternate between an arthropod and a vertebrate host. The trophozoite parasitises
erythrocytes or other tissues in the vertebrate host. Microgametes and macrogametes are always found in the blood. The gametes are taken up by the insect vector during a blood meal. The microgametes migrate within the gut of the insect vector and fuse with the macrogametes. The fertilized macrogamete now becomes an
ookinete, which penetrates the body of the vector. The ookinete then transforms into an oocyst and divides initially by meiosis and then by mitosis (haplontic lifecycle) to give rise to the
sporozoites. The sporozoites escape from the oocyst and migrate within the body of the vector to the salivary glands where they are injected into the new vertebrate host when the insect vector feeds again.
Marosporida The class Marosporida Mathur, Kristmundsson, Gestal, Freeman, and Keeling 2020 is a newly recognized lineage of apicomplexans that is sister to the Coccidia and Hematozoa. It is defined as a phylogenetic
clade containing
Aggregata octopiana Frenzel 1885,
Merocystis kathae Dakin, 1911 (both Aggregatidae, originally coccidians),
Rhytidocystis sp. 1 and
Rhytidocystis sp. 2 Janouškovec et al. 2019 (
Rhytidocystidae Levine, 1979, originally coccidians,
Agamococcidiorida), and
Margolisiella islandica Kristmundsson et al. 2011 (closely related to Rhytidocystidae). Marosporida infect marine invertebrates. Members of this clade retain
plastid genomes and the canonical apicomplexan plastid metabolism. However, marosporidians have the most reduced apicoplast genomes sequenced to date, lack canonical plastidial RNA polymerase and so provide new insights into reductive organelle evolution. ==Ecology and distribution==