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Megascolecidae
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Megascolecidae is a family of native to Madagascar, Australia, New Zealand, Asia, and North America. At up to 2 meters in length, their large size distinguishes the Megascolecidae from other earthworm families. They are an essential part of maintaining , minor carbon sequestration, and maintaining terrestrial ecosystems.

Physiological features
Different of the Megascolecidae have different physiological features, but some similarities of physiological features can be found between species. The family contains relatively large individuals. The length of earthworms can vary from to . The number of pores is normally paired, but multiples can be present in some species. The location of spermathecal pores and how they are positioned in different segmental locations is used in the identification of different megascolecidids.

Earthworms ingest a variety of organic materials in the soil since they live in terrestrial environments. Earthworms in this family have the ability to decompose , which requires assistance from in their . Aside from microorganisms, digestive enzymes such as and , and can be found in different regions of the gut. Chemical digestion mainly occurs in the intestinal caeca of earthworms, which have higher activity than other parts of the gut.

Genital markings in the Megascolecidae family can be used to distinguish species.

Reproductive system
The Megascolecidae are , laying eggs to reproduce. They are . The ideal condition of for the megascolecidids is 25 °C, where the eggs hatch the quickest and have the highest cocoon production.

The male reproductive organ of the Megascolecidae includes testes, seminal vesicles, spermathecae, prostate glands, and spermathecal pores. The sperm can be found in testes and seminal vesicles, but cannot be found in spermathecae. The female reproductive organ consists of female pores, which normally occur in pairs. Both male and female reproductive organs are present in earthworms because they are . To breed, two earthworms exchange sperm. Long after they are separated, the egg case is secreted. It forms a ring around the worm, then the worm removes the ring from its body and injects its own eggs and the other worm's sperm into it. Afterwards, the egg case is sealed and ready to hatch, grow, and become a cocoon.

Lifecycle
The Megascolecidae lifecycle takes around 50–57 days, depending on the external environments and . The rate of growth during the first 14 days is very low, however; after 21–28 days, the rate of growth increases and then cycles up and down throughout the worm's life with no pattern. The growth rate of these worms is correlated to the of their environment. As temperatures increase from 30 °C, a significant growth rate and decreasing the time to sexual maturity are seen. The ideal living temperature of megascolecidids is around 15–30 °C. Overall mean growth can range from 1.34–1.79 mg/day, depending on the abundance of worms, environmental conditions, and size. The cocoon production of Megascolecidae species also is correlated with the temperature of the environment.

Distribution and habitat
Megascolecidae species can be found in Australia, , Asia, North America, South America, and Europe. The intercontinental presence of Megascolecidae species can be explained by the Permanence of Continent Theory, which provides the explanation of most Cenozoic distributions; this theory, though, does not explain the presence of European Megascolecidae in North America. The intercontinental distribution of Megascolecidae has two different theories that explains its phenomenon; land bridges and continental drift.Reynolds, J.W. 1995. The distribution of earthworms (Annelida, Oligochaeta) in North America. Pp. 133- 153 In: Mishra, P.C., N. Behera, B.K. Senapati and B.C. Guru (eds.). Advances in Ecology and Environmental Sciences. New Delhi: Ashish Publishing House, 651 pp.

The Megascolecidae family originated in Australia. Australia has a number of species that are native to different parts of the country; Anisochaeta sebastiani is an example. This species can be found from to . Fifty-three known species of these earthworms can be found in Western Australia; Graliophilus georgei and G. secundus are some examples. G. zeilensis can be found in the Northern Territory, specifically in , West MacDonnell Ranges. Graliophilus zeilensis also can be found on the highest point of the mountain where of the region is 250 mm annually. This distinguishes them from other species from Graliophilus.

Metaphire and are two common genera belonging to Megascolecidae. They can be found in different countries in Asia.

Eight different species of Metaphire can be found in : M. sedimensis, M. hijaunensis, M..e songkhlaensis, M. pulauensis, M. pulauensis, M. fovella, M. balingensis, and M. strellana. These species are commonly found in containing medium to high organic material. such as .

In , 9 different genera can be found; , Archipheretima, Metaphire, Metapheretima, , , Planapheretima, Pleinogaster, and Polypheretima. Pheretimoid is the biggest group of species, which consists of 65 species. Some intrageneric groups are restricted to mainland Asia, but others are native to Indo-Australian Archipelago.

The ideal habitat for Megascolecidae is a terrestrial environment with soil and with a high content of , such as loamy soil, cattle or pig manure, and digested sewage sludge. Megascolecidae species grow and produce more cocoons during the than the , because their lifecycle is highly correlated to the temperature and humidity of the environment. Some Megascolecidae species have adapted to colder temperatures and drier areas, though, which enables them to live in higher-altitude regions of the land.

Ecology
Megascolecidae form an important part of the , in that they indicate soil health and maintain soil productivity. The abundance of earthworms is highly correlated to soil pH, texture, water content, and temperature. Earthworms have the ability to biomonitor . This is because of earthworms' habit serves to facilitate water flow and agrochemicals through the soil profile, so are able to perform carbon sequestration and reduce soil pollutants]. Invasive earthworms can have a significant impact causing changes in soil profiles, nutrient and organic matter content and other or plant communities. In most cases the disturbed areas includes systems or previously areas that are lacking of earthworms would see the biggest impact of the invasive earthworms. The impact of earthworms on soil structure is due to the rate of net nitrogen mineralization.

Genera

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