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Planorbidae

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Planorbidae
A live individual of Indoplanorbis exustus
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Mollusca
Class: Gastropoda
Superorder: Hygrophila
Superfamily: Lymnaeoidea
Family: Planorbidae
Rafinesque, 1815[1]
Genera

See text

Diversity[2]
About 250 freshwater species

Planorbidae, common name the ramshorn snails or ram's horn snails, is a family of air-breathing freshwater snails, aquatic pulmonate gastropod molluscs. Unlike most molluscs, the blood of ram's horn snails contains iron-based hemoglobin instead of copper-based hemocyanin.[3] As a result, planorbids are able to breathe oxygen more efficiently than other molluscs. The presence of hemoglobin gives the body a reddish colour. This is especially apparent in albino animals.

Being air breathers like other Panpulmonata, planorbids do not have gills, but instead, have a lung. The foot and head of planorbids are rather small, while their thread-like tentacles are relatively long. Many of the species in this family have coiled shells that are planispiral, in other words, the shells are more or less coiled flat, rather than having an elevated spire as is the case in most gastropod shells. Although they carry their shell in a way that makes it appear to be dextral, the shell of coiled planorbids is in fact sinistral in coiling, but is carried upside down, which makes it appear to be dextral.

General taxonomic context

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For several taxa, no consensus exists as to whether the taxa should even be assigned to the family Planorbidae. This is certainly the case with the freshwater limpets Ferrissia, and Ancylus. Both of these genera have sometimes been assigned to the family Lymnaeidae. Alternatively, sometimes each one of them is raised to the level of a family. However, according to the taxonomy of the Gastropoda (Bouchet & Rocroi, 2005), these genera are currently placed in the tribe Ancylini within the family Planorbidae, and that is the taxonomic system that is followed here.

2005 taxonomy

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Albino planorbid clearly shows the reddish-colored body tissues due to the pigment hemoglobin

According to the taxonomy of the Gastropoda (Bouchet & Rocroi, 2005), this family consists of the following subfamilies:

  • subfamily Planorbinae Rafinesque, 1815
    • tribe Planorbini Rafinesque, 1815 - synonyms: Choanomphalinae Fisher & Crosse, 1880; Orygoceratidae Brusina, 1882
    • tribe Ancylini Rafinesque, 1815 - synonym: Pseudancylinae Walker, 1923 (inv.)
    • tribe Biomphalariini Watson, 1954 - synonyms: Acrorbini Starobogatov, 1958; Drepanothrematini Zilch, 1959; Taphiinae Harry & Hubendick, 1964
    • tribe Planorbulini Pilsbry, 1934
    • tribe Segmentinini Baker, 1945
  • subfamily Bulininae Fischer & Crosse, 1880
    • tribe Bulinini Fischer & Crosse, 1880 - synonyms: Laevapicinae Hannibal, 1912; Isidorinae Annandale, 1922; Gundlachiinae Starobogatov, 1967
    • tribe Coretini Gray, 1847 - synonyms: Pompholicinae Dall, 1866 (inv.); Camptoceratinae Dall, 1870; Megasystrophinae Tryon, 1871 (inv.); Pompholycodeinae Lindholm, 1927; Helisomatinae Baker, 1928; Bayardellini Starobogatov & Prozorova, 1990; Planorbariini Starobogatov, 1990
    • tribe Miratestini Sararsin & Sarasin, 1897 - synonyms: Ferrissiinae Walker, 1917; Ancylastrinae Walker, 1923; Protancylinae Walker, 1923; Physastrinae Starobogatov, 1958; Ameriannini Zilch, 1959; Patelloplanorbidae Franc, 1968
    • tribe Plesiophysini Bequaert & Clench, 1939
  • subfamily Neoplanorbinae Hannibal, 1912 - synonym: Payettiinae Dall, 1924
  • subfamily Rhodacmeinae Walker, 1917

2007 taxonomy for part of the family

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Albrecht et al. (2007)[4] analyzed a limited number of genera of Planorbidae, based on sequences of mitochondrial 18S ribosomal DNA and cytochrome-c oxidase I (COI) genes, and on the basis of the results, they rearranged the taxonomy like this:

"A-clade" sensu Albrecht et al. (2007)[4]

Tribus Bulinini

Tribus Ancylini Rafinesque-Schmaltz, 1815

"B-clade" sensu Albrecht et al., (2007)[4]

Tribus Camptoceratini

Tribus Planorbini

Tribus Segmentinini

"C-Clade" sensu Albrecht et al., (2007)[4]

Cladogram

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The following is a cladogram that shows the phylogenic relationships within the Planorbidae according to Albrecht 2007:[4]

Genera

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The type genus of this family is Planorbis Müller. The following list of genera is organized according to the 2005 taxonomy, because Albrecht's 2007 taxonomy is not available for all genera of Planorbidae. Genera in the family Planorbidae include (subgenera listed according to Glöer (2002):[5]

  • subfamily Planorbinae Rafinesque, 1815
View of the sunken spire of the shell of Anisus septemgyratus

Subfamily = ? (other genera that are not yet sorted are listed here)

The genus Camptoceratops Wenz, 1923 is no longer considered to be a planorbid. It was recognised by Curry (1965, p. 360) as a euthecosomatous pteropod (Heterobranchia) (note by Arie W. Janssen, 092507).

The generic name Taphius Adams & Adams, 1855 is a synonym for Biomphalaria.[6]

Shell description

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Apical, apertural and umbilical view of the shell of Biomphalaria tenagophila. Scale bar is 3 mm.

The shells of most species in this family are disk-like or button-like, being coiled in one plane, although several groups have shells that are more higher-spired, and some are limpet-like.

All coiled shell Planorbidae are sinistral in their shell coiling, as is proved by their internal anatomy (the respiratory and the genital orifice are situated on the left side), however the animals carry their shells with what would normally be the ventral (i.e. umbilical) surface uppermost, and because of this, the shells appear to be dextral.

Indeed, formerly planorbids were thought to have dextral shells, and so species of this family were figured as if they had dextral shells. Although it is now understood that these species are sinistral in shell coiling, disk-like Planorbid shells are often still shown in illustrations oriented as if they were dextral.

Most species of coiled planorbids have a rather thin and moderately smooth shell, although more distinct sculpture such as a keel occurs in, and is diagnostic of, certain species. In the flat, keeled species, the whorls tend to overlap.

The aperture has a sharp outer lip. A peristome can be present, but often the lip is not thickened nor reflected. Those planorbid species which have a high-spired shell may have a narrow umbilicus, but frequently this is covered by callus.

In height most species vary between 6 mm and 6 cm, however, disk-like shells are usually less than about 2 cm in maximum dimension.

Like all pulmonate aquatic snails, ramshorn shells do not have an operculum to close the shell aperture.

Sinistral shells

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Planorbarius corneus. View of the sunken spire (held facing downwards in life)
Planorbarius corneus. View of the umbilicus (held uppermost in life)

Flat-coiled planorbid gastropod shells are hard to understand in terms of their coiling and orientation. Many of the shells of species in this family are almost planispiral in coiling such that one side of the shell often looks rather like the other side, but it is important to bear in mind that nonetheless there is an umbilical side and a spire side of the shell. In addition these are in fact sinistral shells, despite the fact that the snail carries its shell as if it were a normal dextral shell. To make sense of the shell coiling, the following facts are useful:

  • In life, these pond snails hold their shells upside down compared to the normal gastropod shell orientation, with the umbilicus facing upwards.
  • The spire of the shell is quite sunken in many species. In addition, it is carried facing downwards.
  • The umbilicus of the shell is very wide and shallow.
  • In some species the umbilicus is not as deeply "dished" as the sunken spire is, so superficially it can be hard to tell one from the other.

However, once it is understood that the planorbid shell is sinistral, if the shell is held with the aperture on the left and facing the observer, then the sunken spire side of the shell is uppermost. This is a convenience for understanding the shell, but is the opposite of the way the shell is actually carried in life.

The side of the shell which is in fact the spire (a sunken spire) faces down in the living animal, contrary to what is the case in almost all other shelled gastropods. Because the shell is carried "upside down" like this, the aperture of the shell is angled to face downwards also, so the aperture faces a little towards the spire, not away from it, as is usually the case in other shelled gastropods.

Habitat

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Most species of planorbids live only in fresh water, such as ponds, lakes, and slow moving rivers. A minority of species are able to survive in brackish water.[citation needed]

Geological history

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Ancestors of ramshorn snails are known with certainty since the Jurassic period. Modern taxa developed in the Jurassic.[citation needed]

Geographical distribution

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Species in this family occur worldwide. In Northwest Europe about 20 species are known (including non-indigenous species). In this region, various extinct taxa are known to have occurred, starting in the Jurassic period.[citation needed]

References

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  1. ^ Rafinesque C. S. 1815. Analyse de la Nature ou tableau de l'univers et des corps organisés. Palermo, 223 pp., page 143.
  2. ^ Strong E. E., Gargominy O., Ponder W. F. & Bouchet P. (2008). "Global Diversity of Gastropods (Gastropoda; Mollusca) in Freshwater". Hydrobiologia 595: 149-166. hdl:10088/7390 doi:10.1007/s10750-007-9012-6.
  3. ^ Lieb, Bernhard; et al. (8 August 2006). "Red blood with blue-blood ancestry: Intriguing structure of a snail hemoglobin". Proceedings of the National Academy of Sciences of the United States of America. 103 (32): 12011–12016. Bibcode:2006PNAS..10312011L. doi:10.1073/pnas.0601861103. PMC 1567689. PMID 16877545. We present here the complete cDNA and predicted amino acid sequence of two hemoglobin polypeptides from the planorbid Biomphalaria glabrata...Moreover, we identified a previously undescribed rosette-like hemolymph protein that has been mistaken for hemoglobin. We also detected expression of an incomplete hemocyanin as trace component. The combined data show that B. glabrata hemoglobin evolved from pulmonate myoglobin, possibly to replace a less-efficient hemocyanin, and reveals a surprisingly simple evolutionary mechanism to create a high molecular mass respiratory protein from 78 similar globin domains.
  4. ^ a b c d e Albrecht C., Kuhn K. & Streit B. (2007). "A molecular phylogeny of Planorboidea (Gastropoda, Pulmonata): insights from enhanced taxon sampling". Zoologica Scripta 36: 27-39.doi:10.1111/j.1463-6409.2006.00258.x.
  5. ^ (in German) Glöer P. 2002. Die Süßwassergastropoden Nord- und Mitteleuropas. Die Tierwelt Deutschlands, ConchBooks, Hackenheim, 326 pp., ISBN 3-925919-60-0, page 19-20.
  6. ^ a b c d e f g h i j k l m Bouchet, Philippe; Rocroi, Jean-Pierre; Frýda, Jiri; Hausdorf, Bernard; Ponder, Winston; Valdés, Ángel & Warén, Anders (2005). "Classification and nomenclator of gastropod families". Malacologia. 47 (1–2). Hackenheim, Germany: ConchBooks: 1–397. ISBN 3-925919-72-4. ISSN 0076-2997.
  7. ^ Starobogatov, Y. I. (1967). On the systematization of freshwater pulmonate molluscs. Trudy Zoologicheskogo Instituta, Leningrad, 42, 280–304.
  8. ^ Liu L et al. (2010) "The phylogeography of Indoplanorbis exustus (Gastropoda: Planorbidae) in Asia". Parasites & Vectors 3: 57. doi:10.1186/1756-3305-3-57.
  9. ^ Mollusc Specialist Group (1996). Culmenella rezvoji. In: IUCN 2010. IUCN Red List of Threatened Species. Version 2010.4. <www.iucnredlist.org>. Downloaded on 08 March 2011.
  • (in Dutch) Gittenberger, E., Janssen, A.W., Kuijper, W.J., Kuiper, J.G.J., Meijer, T., Velde, G. van der & Vries, J.N. de (1998) De Nederlandse zoetwatermollusken. Recente en fossiele weekdieren uit zoet en brak water Nederlandse Fauna 2. Nationaal Natuurhistorisch Museum Naturalis, KNNV Uitgeverij & EIS-Nederland, Leiden, 288 pp.
  • (in French) Fischer, P.H. (1880-1887) Manuel de Conchyliologie et de Paléontologie conchyliologique ou histoire naturelle des Mollusques vivants et fossiles suivi d'un appendice sur les Brachiopodes par D. Oehlert. – XXIV + 1369 pp.
  • (German) Thiele, J. (1929-1935) Handbuch der Systematischen Weichtierkunde. Jena, (1), 1–376, 1929; (2), 377–778, 1931; 779–1022, 1934; 1023–1134, 1935.
  • (in English) Vaught, K.C. (1989) A classification of living mollusca. American Malacologists Inc., Melbourne USA, ISBN 0-915826-22-4 & 0-915826-22-6, 195 pp.
  • (German) Wenz, W. (1923-1930) Gastropoda extramarina tertiaria. Fossilium Catalogus I. (4 vols.), 3387 pp.
  • (German) Zilch, A. (1959-1960) Euthyneura. In: H. Schindewolf (ed.), Handbuch der Paläozoologie, 6(2): pp. I-XII + 1–834.
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