Marsileaceae | |
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Pilularia (top) andMarsilea (bottom) | |
Scientific classification![]() | |
Kingdom: | Plantae |
Clade: | Tracheophytes |
Division: | Polypodiophyta |
Class: | Polypodiopsida |
Order: | Salviniales |
Family: | Marsileaceae Mirb. |
Genera | |
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Marsileaceae (/mɑːrˌsɪliˈeɪsi.iː/) is a smallfamily ofheterosporousaquatic and semi-aquaticferns, though at first sight they do not physically resemble other ferns. The group is commonly known as the "pepperwort family" or as the "water-clover family" because the leaves of the genusMarsilea superficially resemble the leaves of afour-leaf clover. In all, the family contains threegenera and 50 to 80 species with most of those belonging toMarsilea.[1][2]
Members of the Marsileaceae areaquatic or semi-aquatic. Plants often grow in dense clumps inmud along the shores ofponds orstreams, or they may grow submerged in shallow water with some of the leaves extending tofloat on the water surface. They grow in seasonally wet habitats, but survive the winter or dry season by losing their leaves and producing hard,desiccation-resistant reproductive structures.[3]
There are only three living genera in the family Marsileaceae. The majority of species (about 45 to 70) belong to the genusMarsilea, which grows worldwide in warm-temperate andtropical regions.[1][2]Marsilea can be distinguished from the other two genera by the presence of four leaflets on each leaf, although some species occasionally produce six leaflets per leaf. A second genusRegnellidium includes a single living species that grows only in southernBrazil[3] and neighboring parts ofArgentina;[2] it has only two leaflets per leaf. The third genusPilularia grows widely in temperate regions of both the northern and southern hemispheres.[3] Its leaves do not subdivide into leaflets but are slender and tapered to a point, so that it is often overlooked and mistaken for agrass. There are only about five species known.[2]
The closest relatives of the Marsileaceae are theSalviniaceae, which are also aquatic and heterosporous.[4][5] However, both of these other fern families float freely on the surface of ponds or lakes instead of rooting in soil or mud. The close relationship of these groups to the Marsileaceae is supported by both morphologic and molecular analysis,[4] as well as by the discovery of an intermediatefossil namedHydropteris.[6] In general, the Salviniaceae and Azollaceae have a much better fossil record than the Marsileaceae.[7] Until recently,Rodeites dakshinii was the oldest fossil member known; it is a preservedsporocarp containingspores, found inTertiarychert ofIndia.[7] In 2000, the discovery of fossilized sporocarps from theCretaceous of easternNorth America was announced.[8] These fossils were assigned to the speciesRegnellidium upatoiensis, and pushed the known history of the Marsileaceae back into theMesozoic. Other remains includeRegnellites nagashimae from the UpperJurassic or LowerCretaceous ofJapan.[9] The fossils include leaves with visible veins, as well as sporocarps. The currently oldest known member of the family isFlabellariopteris, described in 2014 from isolated leaves dating to theLate Triassic inLiaoning, China.[10]
The Marsileaceae share many of the basic structural characteristics common to most ferns, but the differences are more noticeable than the similarities. Species of this family have long, slenderrhizomes that creep along or beneath the ground. Theirfronds (leaves) grow in distinct clusters atnodes along the rhizome, with wide spacing between leaf clusters. As a result, the plants appear to be more stem than leaf, unlike other ferns.
Roots grow primarily from the same nodes as the leaves, but may also grow from other locations along the rhizome. The roots ofMarsilea andRegnellidium are noteworthy for containingvessel elements. Vessels have also been found in the rhizome of two species ofMarsilea. These vessels have evolved independently of vessels in other groups of plants.[11]
The leaves are the most easily observed characteristic for the Marsileaceae; they have a long slenderleaf stalk ending in zero, two, or four (occasionally six) leaflets. The number of leaflets differs among the three genera and can therefore be used for identification.[2] InPilularia, the leaves are narrowly cylindrical and taper to a point. Leaves ofRegnellidium bear two broad leaflets, while leaves ofMarsilea bear four leaflets at the tip. The four leaflets on the leaf ofMarsilea are not borne equally. Instead, they are borne in pairs with one pair of leaflets attached slightly higher than the other.[12] Thus in the developing leaf, the leaflets are folded more like the wings of abutterfly than like the leaflets of a clover.
As with other ferns, the leaves develop in acircinate pattern.[11] They begin as small, tightspirals which unroll as the leaf matures. At full maturity they are held erect with the leaflets unfolded, except inPilularia whose leaves have no blade. Temperate species aredeciduous, losing their vegetative leaves in winter.[1] Tropical species may also lose their leaves during thedry season. These leaves arephotosynthetic, and produce most of the food used by the plant.
Some aquatic species ofMarsilea, especially those growing with their rhizome submerged, may have vegetative leaves that aredimorphic. Some of their leaves grow up to the surface of the water, and look just like leaves of species growing out of water. These plants also produce other leaves with shorter leaf stalks that are not long enough to reach the surface, and so the leaflets remain underwater. These leaves have different anatomical andcellular characteristics better suited to their submerged environment.[11]
In addition to their vegetative (sterile) leaflets, all species of Marsileaceae producefertile (spore-producing) leaflets at or near the base of the photosynthetic leaves. This reproductive portion looks and functions very differently from the vegetative portion of the leaves.
Like other ferns, members of the Marsileaceae producespores, but notseeds when they reproduce. Unlike other ferns, the spores in this family are produced insidesporocarps. These are hairy, short-stalked,bean-shaped structures usually 3 to 8 mm in diameter[1] with a hardened outer covering. This outer covering is tough and resistant to drying out, allowing the spores inside to survive unfavorable conditions such as winter frost or summer desiccation. Despite this toughness, the sporocarps will open readily in water if conditions are favorable, and specimens have been successfullygerminated after being stored for more than 130 years.[13] Each growing season, only one sporocarp typically develops per node along the rhizome near the base of the other leaf-stalks, though in some species ofMarsilea there may be two or occasionally as many as twenty.[12][14] The resemblance of the sporocarps topeppercorns gives the family its common name ofpepperwort.[1]
The sporocarps are functionally and developmentally modified leaflets,[14] although they have much shorter stalks than the vegetative leaflets. Inside the sporocarp, the modified leaflets bear severalsori, each of which consists of severalsporangia covered by a thin hood of tissue (theindusium). Each sorus includes a mix of two types of sporangium, each type producing only one of two kinds of spores. Toward the center of each sorus and developing first are themegasporangia, each of which will produce a single large femalemegaspore. Surrounding them at the edge of the sorus and developing later are themicrosporangia, each of which will produce many small malemicrospores.[11]
Because the Marsileaceae produce two kinds of spore (and thus two kinds of gametophyte), they are calledheterosporous. While heterospory is the norm among all plants with seeds, such as theflowering plants andconifers, it is very rare among other groups of plants. Also, most heterosporous plants produce their two kinds of sporangia in different places on the plant. Since the Marsileaceae grow both kinds together in a single cluster, they differ from other plants in this regard as well.
The spores remain dormant inside the sporocarp through unfavorable conditions, but when conditions are suitable and wet, the sporocarp will germinate. It splits into halves, allowing the tissue coiled inside to becomehydrated. As this internal tissue swells with water, it pushes the halves of the hard outer covering apart, and emerges as a long gelatinous worm-likesorophore. The sorophore is a sorus-bearing structure unique to the Marsileaceae; it may extend to more than ten times the length of the sporocarp inside which it was coiled. This extension carries the numerous spore-producing sori attached along each side of the sorophore out into the water.[11][14]
Some species ofMarsilea are cultivated ingarden pools oraquaria.[3] TheIndigenous Australians once made aporridge of pulverizedMarsilea sporocarps callednardoo. However, the sporocarps contain toxic levels ofthiaminase, so careful preparation methods must be used in order for thenardoo to be safe for consumption.[13]
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