Potamogeton Heterocaulis
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''Potamogeton'' is a genus of aquatic, mostly freshwater, plants of the family
Potamogetonaceae The Potamogetonaceae, commonly referred to as the pondweed family, is an aquatic family of monocotyledonous flowering plants. The roughly 110 known species are divided over six genera. The largest genus in the family by far is ''Potamogeton'', w ...
. Most are known by the
common name In biology, a common name of a taxon or organism (also known as a vernacular name, English name, colloquial name, country name, popular name, or farmer's name) is a name that is based on the normal language of everyday life; and is often contrast ...
pondweed, although many unrelated plants may be called pondweed, such as Canadian pondweed (''Elodea canadensis''). The genus name means "river neighbor", originating from the Greek ''potamos'' (river) and ''geiton'' (neighbor).


Morphology

''Potamogeton'' species range from large (stems of 6 m or more) to very small (less than 10 cm). Height is strongly influenced by environmental conditions, particularly water depth. All species are technically perennial, but some species disintegrate in autumn to a large number of asexually produced resting buds called turions, which serve both as a means of overwintering and dispersal. Turions may be borne on the rhizome, on the stem, or on
stolon In biology, stolons (from Latin '' stolō'', genitive ''stolōnis'' – "branch"), also known as runners, are horizontal connections between organisms. They may be part of the organism, or of its skeleton; typically, animal stolons are external s ...
s from the rhizome. Most species, however, persist by perennial creeping
rhizomes In botany and dendrology, a rhizome (; , ) is a modified subterranean plant stem that sends out roots and shoots from its nodes. Rhizomes are also called creeping rootstalks or just rootstalks. Rhizomes develop from axillary buds and grow hori ...
. In some cases the turions are the only means to differentiate species. The leaves are alternate, which contrasts with the closely related genus '' Groenlandia'', where the leaves are opposite or whorled. In many species, all the leaves are submerged, and in these cases, they are typically thin and translucent. Some species, especially in ponds and very slow-moving waters, have floating leaves which tend to be opaque with a leathery texture. Leaf shape has been found to be highly plastic, with variability due to changes in light, water chemistry, planting depth, sediment conditions, temperature, photo period, waves, and seasonality. All ''Potamogeton'' have a delicate membranous sheathing scale, the stipule, at the leaf axil. This may be wholly attached, partly attached, or free of the leaf, and it may have inrolled margins or appear as a tube. The morphology of the stipule is an important character for species identification. The stems have small scales. The flowers, which are often overlooked, are greenish-brown and are composed of four rounded segments borne in a spike. They are 2-4 merous, with superior ovaries and anthers that turn outward. The fruits are spheroidal and green to brown, usually 1–3 mm in diameter, with a noticeable 'beak'. Their pollen is inaperturate, monad, apolar and spherical. Most fine-leaved pondweeds are diploid, with 2n = 26 (such as '' P. pusillus'' or '' P. trichoides'') or less commonly 28 ('' P. compressus'', '' P. acutifolius''). Broad-leaved taxa are mainly tetraploid, with 2n = 52 (e.g. '' P. alpinus'', '' P. praelongus''), but a few species are diploid (e.g. '' P. coloratus'' or octaploid (2n = 104)(e.g. '' P. illinoensis'').


Taxonomy

''Potamogeton'' is a genus of freshwater
aquatic plant Aquatic plants are plants that have adapted to living in aquatic environments (saltwater or freshwater). They are also referred to as hydrophytes or macrophytes to distinguish them from algae and other microphytes. A macrophyte is a plant that ...
s in the
Potamogetonaceae The Potamogetonaceae, commonly referred to as the pondweed family, is an aquatic family of monocotyledonous flowering plants. The roughly 110 known species are divided over six genera. The largest genus in the family by far is ''Potamogeton'', w ...
. Molecular analysis has identified '' Groenlandia'' as the
sister group In phylogenetics, a sister group or sister taxon, also called an adelphotaxon, comprises the closest relative(s) of another given unit in an evolutionary tree. Definition The expression is most easily illustrated by a cladogram: Taxon A and t ...
to ''Potamogeton,'' although the Angiosperm Phylogeny Group also lists '' Zannichellia,'' '' Althenia'' and ''Pseudoalthenia'' as closely related genera. Some researchers have used molecular analysis and pollen grain shape to argue for the placement of ''
Stuckenia ''Stuckenia'' is a genus of flowering aquatic plants. It contains approximately 30 species that grow in shallow water. Pondweed is a common name for plants in this genus. Description These herbs have rhizomes but not turions. Tubers can be absen ...
'' at the genus level, but others have argued there is not enough difference to justify the change, and have kept ''Stuckenia'' as a subgenus of ''Potamogeton.'' The genus is generally divided into two groups: broad-leaved and linear-leaved. The broad-leaved group includes such species as ''P. natans'', ''P. perfoliatus'' and ''P. alpinus''. The linear-leaved group includes such species as ''P. rutilus'', ''P. compressus'' and ''P. berchtoldii''. Series ''Batrachoseris'' historically contained only one species, '' Potamogeton crispus,'' however more recent research has also added ''P. maackianus'' and ''P. robbinsii'' into this grouping. These general divisions have been supported by molecular analysis, except that ''P. crispus'' clusters with broad-leaved species in section ''Potamogeton''. In a detailed review of the genus, Wiegleb and Kaplan recognised 69 species, but the variability of many species means that there is disagreement regarding the exact number of species. Currently, the number of accepted names is 94. Hybridisation provides an added complexity to the taxonomy.


Distribution

''Potamogeton'' species are found worldwide in many aquatic ecosystems. However, the greatest diversity of species occurs in the northern hemisphere, especially in North America, which is thought to be where the genus originated. Molecular evidence suggests that several independent colonizations of the southern hemisphere have occurred. However, due to their self-propagation from turions, ''Potamogeton'' populations show very low infrapopulation diversity, especially when living in deep, shaded or turbulent water where colonies do not expend energy on flowers. This has made it very difficult to use genetic data to find patterns of geographical differentiation.


Hybrids

''Potamogeton'' species hybridise freely. At least 27 hybrids have been observed in the British Isles alone, and more than 50 worldwide, of which 36 have been confirmed using genetic techniques. The majority of these are sterile, but many are long-lived and may occur in the absence of one or even both parents. Most hybrids have been described between broad-leaved species, but this probably reflects the relative scarcity of characters among fine-leaved taxa, so that hybrids are much more difficult to identify. Use of genetic markers suggests that hybrid taxa are also reasonably frequent among fine-leaved species. At least one species, '' P. obtusifolius'', is thought to have arisen via hybridisation.


Taxonomic history

Several species of European pondweeds, including ''P. natans'', ''P. lucens'' and ''P. crispus'', were included in Linnaeus's ''Species Plantarum'' in 1753. Much of the European ''Potamogeton'' flora was subsequently named during the late 18th and early 19th century. As botanists ventured further afield, pondweeds began to be collected and named from other parts of the world. The North America flora was largely named by the start of the 20th century. Alfred Fryer became interested in ''Potamogeton'' in the 1880s, and was a recognised authority on the genus. The first parts of his work ''The Potamogetons (Pond Weeds) of the British Isles'' were published in 1898. His death intervened, and the work was completed by Arthur Bennett (1843-1929), who named a large number of specimens sent to him from around the world. Robert Morgan (1863-1900) illustrated Fryer's contribution to the monograph, his colour plates drawing praise from later critics. In 1916, Johan Hagström published ''Critical researches on the Potamogetons'' from detailed measurements of dozens of vegetative, anatomical and reproductive characteristics such as fruit beak, peduncle rigidity and leaf apex across hundreds of specimens. It was a pioneering work that preceded the development of cladistics by more than 30 years, and his clustering of groups into broad-leaf and linear-leaf is still considered the framework for all subsequent classification systems of ''Potamogeton.'' Hagström's work was developed further by
Merritt Fernald Merritt Lyndon Fernald (October 5, 1873 – September 22, 1950) was an American botanist. He was a respected scholar of the taxonomy and phytogeography of the vascular plant flora of temperate eastern North America. During his career, Fernald pub ...
(1873-1950) who created a detailed phylogeny for the linear-leaved species, and by Eugene Ogden who did so for the broad-leaved species. New species continue to be described from less well-studied areas such as Asia and Africa, and it is possible that molecular analysis may reveal hitherto unknown
cryptic species In biology, a species complex is a group of closely related organisms that are so similar in appearance and other features that the boundaries between them are often unclear. The taxa in the complex may be able to hybridize readily with each oth ...
.


List of ''Potamogeton'' species

The following list is based on the latest listing of valid ''Potamogeton'' taxa held o
The Plant List
*'' P. acutifolius'' Link ex Roem. & Schult. 1818 *'' P. alpinus'' Balb. 1804 *'' P. amplifolius'' Tuck. 1848 *'' P. antaicus'' Hagstr. 1916 *'' P. australiensis'' A.Benn. 1910 *'' P. berchtoldii'' Fieber 1838 *'' P. bicupulatus'' Fernald 1932 *'' P. biformis'' Hagstr. 1916 *'' P. brasiliensis'' A.Benn. 1910 *'' P. chamissoi'' A.Benn. 1904 *'' P. cheesemanii'' A.Benn. 1883 *'' P. chongyangensis'' W.X.Wang 1984 *'' P. coloratus'' Hornem. 1813 *'' P. compressus'' L. 1753 *'' P. confervoides'' Rchb. 1845 *'' P. crispus'' L. 1753 *'' P. cristatus'' Regel & Maack, 1861 *'' P. delavayi'' A.Benn. 1892 *'' P. distinctus'' A. Benn. 1904 *'' P. diversifolius'' Raf. 1811 *'' P. drummondii'' Benth. 1878 *'' P. epihydrus'' Raf. 1811 *'' P. ferrugineus'' Hagstr. 1916 *'' P. floridanus'' Small 1903 *'' P. foliosus'' Raf. 1811 *'' P. fontigenus'' Y.H.Guo, X.Z.Sun & H.Q.Wang 1985 *'' P. friesii'' Rupr. 1845 *'' P. fryeri'' A.Benn. 1907 *'' P. gayi'' A.Benn. 1892 *'' P. gramineus'' L. 1753 *'' P. heterocaulis'' Z.S.Diao 1994 *'' P. hillii'' Morong 1881 *'' P. hoggarensis'' Dandy 1937 *'' P. illinoensis'' Morong 1880 *'' P. intortusifolius'' J.B.He, L.Y.Zhou & H.Q.Wang 1988 *'' P. iriomotensis'' Masam. 1934 *'' P. juzepczukii'' P.I.Dorof. & Tzvelev 1983 *'' P. kashiensis'' Z.S.Diao 1995 *'' P. lacunatifolius'' Papch. 2001 *'' P. linguatus'' Hagstr. 1901 *'' P. lucens'' L. 1753 *'' P. maackianus'' A.Benn. 1904 *'' P. mandschuriensis'' (A.Benn.) A.Benn. 1924 *'' P. marianensis'' Cham. & Schltdl. 1827 *'' P. montevidensis'' A.Benn. 1892 *'' P. nanus'' Y.D.Chen 1987 *'' P. natans'' L. 1753 *'' P. nodosus'' Poir. 1816 *'' P. nomotoensis'' Kadono & T.Nog. 1991 *'' P. oakesianus'' J.W.Robbins 1867 *'' P. obtusifolius'' Mert. & W.D.J.Koch 1823 *'' P. ochreatus'' Raoul 1844 *'' P. octandrus'' Poir. 1816 *'' P. ogdenii'' Hellq. & R.L.Hilton 1983 *'' P. oxyphyllus'' Miq. 1867 *'' P. papuanicus'' G.Wiegleb 1993 *'' P. paramoanus'' R.R.Haynes & Holm-Niels. 1982 *'' P. parmatus'' Hagstr. 1908 *'' P. perfoliatus'' L. 1753 *'' P. polygonifolius'' Pourr. 1788 *'' P. polygonus'' Cham. & Schltdl. 1827 *'' P. praelongus'' Wulfen 1805 *'' P. pulcher'' Tuck. 1843 *'' P. punense'' A.Galán 1988 *'' P. pusillus'' L. 1753 *'' P. quinquenervius'' Hagstr. 1916 *'' P. reniacoensis'' Sparre 1956 *'' P. richardii'' Solms 1867 *'' P. richardsonii'' (A.Benn.) Rydb. 1905 *'' P. robbinsii'' Oakes 1841 *'' P. rutilus'' Wolfg. 1827 *'' P. sarmaticus'' Mäemets 1978 publ. 1979 *'' P. schweinfurthii'' A.Benn. 1901 *'' P. sclerocarpus'' K.Schum. 1894 *'' P. sibiricus'' A.Benn. 1890 *'' P. skvortsovii'' Klinkova 1993 *'' P. solomonensis'' G.Wiegleb 1993 *'' P. spathuliformis'' (J.W.Robbins) Morong 1893 *'' P. spirilliformis'' Hagstr. 1916 *'' P. spirillus'' Tuck. 1848 *'' P. stenostachys'' K.Schum. 1894 *'' P. strictifolius'' A.Benn. 1902 *'' P. subnitens'' Hagstr. 1916 *'' P. suboblongus'' Hagstr. 1916 *'' P. sumatranus'' Miq. 1861 *'' P. tennesseensis'' Fernald 1936 *'' P. tepperi'' A.Benn. 1887 *'' P. tricarinatus'' F.Muell. & A.Benn. 1892 *'' P. trichoides'' Cham. & Schltdl. 1827 *'' P. tubulatus'' Hagstr. 1922 *'' P. ulei'' K.Schum. 1894 *'' P. uruguayensis'' A.Benn. & Graebn. *'' P. vaseyi'' J.W.Robbins 1867 *'' P. wrightii'' Morong 1886


List of ''Potamogeton'' hybrids

*'' P. × anguillanus'' Koidz. *'' P. × angustifolius'' J.Presl *'' P. × apertus'' Miki *'' P. × argutulus'' Hagstr. *'' P. × attenuatus'' Hagstr. *'' P. × babingtonii'' A.Benn. *'' P. × billupsii'' Fryer *'' P. × cadburyae'' Dandy & G.Taylor *'' P. × cognatus'' Asch. & Graebn. *'' P. × cooperi'' (Fryer) Fryer *'' P. × faurei'' (A.Benn.) Miki *'' P. × fluitans'' Roth *'' P. × franconicus'' G.Fisch. *'' P. × gessnacensis'' G.Fisch. *'' P. × griffithii'' A.Benn. *'' P. × grovesii'' Dandy & G.Taylor *'' P. × haynesii'' Hellq. & G.E.Crow *'' P. × inbaensis'' Kadono *'' P. × kamogawaensis'' Miki *'' P. × kyushuensis'' Kadono & Wiegleb *'' P. × lanceolatifolius'' (Tiselius) C.D.Preston *'' P. × lanceolatus'' Sm. *'' P. × leptocephalus'' Koidz. *'' P. × lintonii'' Fryer *'' P. × malainoides'' Miki *'' P. × mariensis'' Papch. *'' P. × mysticus'' Morong *'' P. × nericius'' Hagstr. *'' P. × nerviger'' Wolfg. *'' P. × nitens'' Weber *'' P. × olivaceus'' Baagøe ex G.Fisch. *'' P. × orientalis'' Hagstr. *'' P. × philippinensis'' A.Benn. *'' P. × prussicus'' Hagstr. *'' P. × pseudofriesii'' Dandy & G.Taylor *'' P. × rectifolius'' A.Benn. *'' P. × salicifolius'' Wolfg. *'' P. × schreberi'' G.Fisch. *'' P. × scoliophyllus'' Hagstr. *'' P. × sparganiifolius'' Laest. ex Fr. *'' P. × spathulatus'' Schrad. ex W.D.J.Koch & Ziz *'' P. × subsessilis'' Hagstr. *'' P. × sudermanicus'' Hagstr. *'' P. × undulatus'' Wolfg. *'' P. × vaginans'' (Bojer ex A.Benn.) Hagstr. *'' P. × varians'' Morong *'' P. × variifolius'' Thore *'' P. × vepsicus'' A.A.Bobrov & Chemeris : List source :


Ecology

Reproduction of pondweeds occurs both vegetatively and by seed, though studies suggest that in some species or situations reproduction by seed is rare. The fruits may be produced in large quantities from midsumer onwards, and are ingested by waterfowl. Germination experiments have shown that the seeds are viable after passing through the digestive tracts of birds and this mechanism is probably the only natural mechanism for long-distance dispersal between isolated water bodies. Vegetative propagation occurs by a variety of mechanisms including turions, and via growth and fragmentation of rhizomes and shoots. Vegetative reproduction is evidently an effective means of ensuring local persistence, as sterile hybrids have been recorded at some sites for over 100 years. Although they occur in a range of environments, most species prefer standing or slow-flowing waters with some calcium and fairly low nutrient levels. In general the fine-leaved species are more tolerant of human impacts such as eutrophication. They are important as food and habitat for animals including insect larvae, water snails, ducks and other waterfowl, and aquatic mammals such as beavers. Most species are not weedy, but a few can become troublesome, such as curly-leaf pondweed (''Potamogeton crispus''). In relation to the ecosystem as a whole, ''Potamogeton ''is often a common habitat for insects. For example, ''
C. annularius ''Chironomus annularius'' (commonly known as bayfly or mufflehead) is a species of non-biting midge in the family Chironomidae. It is usually found in regions with bodies of fresh water but can be found in almost every environment. It tends to fo ...
'' and other insects from the ''Chironomus ''genera have been found to inhabit and mate around certain species of ''Potamogeton''. The closeness to a fresh water source as well as cover from predators allows ''C. annularius'' to thrive.


References

{{Taxonbar, from=Q161728 Aquatic plants Alismatales genera