Phaeoceros laevis

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Phaeoceros laevis
Phaeoceros laevis.jpg
Scientific classification Red Pencil Icon.png
Kingdom: Plantae
Division: Anthocerotophyta
Class: Anthocerotopsida
Order: Notothyladales
Family: Notothyladaceae
Genus: Phaeoceros
Species:
P. laevis
Binomial name
Phaeoceros laevis
Synonyms

Anthoceros laevis L.

Phaeoceros laevis, the smooth hornwort, [1] is a species of hornwort of the genus Phaeoceros . It is commonly found in areas where moisture is plentiful, such as moist soils in fields, the banks of streams and rivers or inundated beneath the surface of the rivers. [2] It grows to a maximum height of about 5 millimetres and the plants are monoecious; the sex organs are visible on the dorsal surface. [2]

The thallus is nearly flat on the upper surface. It is of dark green and somewhat lustrous color, devoid of intercellular spaces. Its capsule is commonly 6 inches (150 mm) to 18 inches (460 mm) in length. The base is surrounded by a cylindrical sheath that often flares at the mouth. Spores are yellow with a granular-papillose surface. The elaters are yellowish, often branches, and varying in size and form. The slender green capsules, when produced in large numbers, resemble grass tufts. Mature spores are necessary for species determination. [3]

The cytology of P. laevis has been subject to considerable study. [4] In 1909, Lotsy reported that the plant contained one chloroplast in each cell of the gametophyte and two in each cell of the sporophyte. [5] The sporophyte is likened to an elongated spindle. [2] Research conducted by Lorbeer in 1924 revealed that two plastids are present in a cell when it is undergoing cell division, of which according to McAllister may vary in size. [5] The centrosomes of the species, much like Marchantia polymorpha , are composed of two centrioles apposed end-to end, which are connected by a continuation of their cartwheel structures. [6]

Phaeoceros laevis (D). Illustration from the 1911 Encyclopaedia Britannica Bryophyta 4.png
Phaeoceros laevis (D). Illustration from the 1911 Encyclopædia Britannica

Related Research Articles

Alternation of generations Reproductive cycle of plants and algae

Alternation of generations is the type of life cycle that occurs in those plants and algae in the Archaeplastida and the Heterokontophyta that have distinct haploid sexual and diploid asexual stages. In these groups, a multicellular haploid gametophyte with n chromosomes alternates with a multicellular diploid sporophyte with 2n chromosomes, made up of n pairs. A mature sporophyte produces haploid spores by meiosis, a process which reduces the number of chromosomes to half, from 2n to n.

Moss Division of non-vascular land plants

Mosses are small, non-vascular flowerless plants in the taxonomic division Bryophyta. Bryophyta is now the formal name for mosses alone, whereas "bryophyte" refers to the informal group of liverworts, mosses and hornworts. Mosses typically form dense green clumps or mats, often in damp or shady locations. The individual plants are usually composed of simple leaves that are generally only one cell thick, attached to a stem that may be branched or unbranched and has only a limited role in conducting water and nutrients. Although some species have conducting tissues, these are generally poorly developed and structurally different from similar tissue found in vascular plants. Mosses do not have seeds and after fertilisation develop sporophytes with unbranched stalks topped with single capsules containing spores. They are typically 0.2–10 cm (0.1–3.9 in) tall, though some species are much larger. Dawsonia, the tallest moss in the world, can grow to 50 cm (20 in) in height.

Bryophyte Terrestrial plants that lack vascular tissue

Bryophytes are an informal group consisting of three divisions of non-vascular land plants (embryophytes): the liverworts, hornworts and mosses. They are characteristically limited in size and prefer moist habitats although they can survive in drier environments. The bryophytes consist of about 20,000 plant species. Bryophytes produce enclosed reproductive structures, but they do not produce flowers or seeds. They reproduce via spores. Bryophytes are usually considered to be a paraphyletic group and not a monophyletic group, although some studies have produced contrary results. Regardless of their status, the name is convenient and remains in use as an informal collective term. The term "bryophyte" comes from Greek βρύον, bryon "tree-moss, oyster-green" and φυτόν, phyton "plant".

Embryophyte Subclade of green plants, also known as land plants

The Embryophyta or land plants are the most familiar group of green plants that form vegetation on earth. Embryophyta is a clade within the Phragmoplastophyta, a larger clade that also includes several green algae groups, and within this large clade the embryophytes are sister to the Zygnematophyceae/Mesotaeniaceae and consist of the bryophytes plus the polysporangiophytes. Living embryophytes therefore include hornworts, liverworts, mosses, ferns, lycophytes, gymnosperms and flowering plants.

Marchantiophyta Botanical division of non-vascular land plants that have a gametophyte-dominant life cycle and lack stomata

The Marchantiophyta are a division of non-vascular land plants commonly referred to as hepatics or liverworts. Like mosses and hornworts, they have a gametophyte-dominant life cycle, in which cells of the plant carry only a single set of genetic information.

Hornwort One of the three Divisions of bryophytic plants

Hornworts are a group of bryophytes constituting the division Anthocerotophyta. The common name refers to the elongated horn-like structure, which is the sporophyte. As in mosses and liverworts, the flattened, green plant body of a hornwort is the gametophyte plant.

Antheridium Part of a plant producing and containing male gametes

An antheridium is a haploid structure or organ producing and containing male gametes. The plural form is antheridia, and a structure containing one or more antheridia is called an androecium. Androecium is also the collective term for the stamens of flowering plants.

<i>Marchantia</i> genus of plants in the liverwort family Marchantiaceae

Marchantia is a genus in the family Marchantiaceae of the order Marchantiales, a group of liverworts.

Metzgeriales Order of liverwort plants

Metzgeriales is an order of liverworts. The group is sometimes called the simple thalloid liverworts: "thalloid" because the members lack structures resembling stems or leaves, and "simple" because their tissues are thin and relatively undifferentiated. All species in the order have a small gametophyte stage and a smaller, relatively short-lived, spore-bearing stage. Although these plants are almost entirely restricted to regions with high humidity or readily available moisture, the group as a whole is widely distributed, and occurs on every continent except Antarctica.

<i>Riccia</i> Genus of liverworts

Riccia is a genus of liverworts in the order Marchantiales.

<i>Phaeoceros</i> Genus of hornworts

Phaeoceros is a genus of hornworts in the family Notothyladaceae. The genus is global in its distribution. Its name means 'yellow horn', and refers to the characteristic yellow spores that the plants produce in the horn-shaped sporophyte. The genus Phaeoceros was first recognized in 1951 by Johannes Max Proskauer. The type species is Phaeoceros laevis. The genus is distinguished by having yellow spores, different chloroplast structure, relatively less frilliness of the thallus when compared to Anthoceros, and a relative lack of internal cavities in Phaeoceros.

An elater is a cell that is hygroscopic, and therefore will change shape in response to changes in moisture in the environment. Elaters come in a variety of forms, but are always associated with plant spores. In many plants that do not have seeds, they function in dispersing the spores to a new location. Mosses do not have elaters, but peristomes which change shape with changes in humidity or moisture to allow for a gradual release of spores.

<i>Anthoceros</i> Genus of hornworts

Anthoceros is a genus of hornworts in the family Anthocerotaceae. The genus is global in its distribution. Its name means 'flower horn', and refers to the characteristic horn-shaped sporophytes that all hornworts produce.

Tetraphidaceae Family of mosses

Tetraphidaceae is a family of mosses. It includes only the two genera Tetraphis and Tetrodontium, each with two species. The defining feature of the family is the 4-toothed peristome.

<i>Horneophyton</i> Extinct genus of early plants

Horneophyton is an extinct early plant which may form a "missing link" between the hornworts and the Rhyniopsida. It is a member of the class Horneophytopsida. Horneophyton is among the most abundant fossil organisms found in the Rhynie chert, a Devonian Lagerstätte in Scotland. A single species, Horneophyton lignieri, is known. Its probable female gametophyte is the form taxon Langiophyton mackiei.

<i>Pellia epiphylla</i> Species of liverworts in the family Pelliaceae

Pellia epiphylla is a species of thallose liverwort. It occurs in North America, Europe, North Africa and parts of Asia. It grows in patches in damp, sheltered places on neutral or acidic substrates. It is common on the banks of rivers, streams and ditches and also grows in wet woodland, marshes and on wet rocks.

<i>Anthoceros agrestis</i> Species of hornwort

Anthoceros agrestis, commonly called field hornwort, is a bryophyte of the genus Anthoceros. It has complicated taxonomies.

<i>Tetraphis pellucida</i> Species of moss

Tetraphis pellucida, the pellucid four-tooth moss, is one of two species of moss in the acrocarpous genus Tetraphis. Its name refers to its four large peristome teeth found on the sporophyte capsule.

<i>Pogonatum urnigerum</i> Species of moss

Pogonatum urnigerum is a species of moss in the family Polytrichaceae, commonly called urn haircap. The name comes from "urna" meaning "urn" and "gerere" meaning "to bear" which is believed to be a reference made towards the plant's wide-mouthed capsule. It can be found on gravelly banks or similar habitats and can be identified by the blue tinge to the overall green colour. The stem of this moss is wine red and it has rhizoids that keep the moss anchored to substrates. It is an acrocarpous moss that grows vertically with an archegonium borne at the top of each fertilized female gametophyte shoot which develops an erect sporophyte.

References

  1. Edwards, Sean R. (2012). English Names for British Bryophytes. Special Volume - British Bryological Society. British Bryological Society Special Volume. 5 (4 ed.). Wootton, Northampton: British Bryological Society. ISBN   978-0-9561310-2-7. ISSN   0268-8034.
  2. 1 2 3 Isaac, Ivor (1941). "The Structure of Anthoceros laevis in relation to its Water Supply". Annals of Botany. New Series. 5 (2): 339–352. doi:10.1093/oxfordjournals.aob.a087397.
  3. Britton, Nathaniel Lord (1918). Flora of Bermuda. C. Scribner's sons. pp.  469. Retrieved 22 April 2011.
  4. Balfour, Isaac Bayley; Thaxter, Roland; Blackman, Vernon Herbert (1948). Annals of Botany. Academic Press. p. 240. Retrieved 16 April 2011.
  5. 1 2 Lander, Caroline A. (January 1935). "The Relation of the Plastid to Nuclear Division in Anthoceros laevis". American Journal of Botany . 22 (1): 42–51. doi:10.1002/j.1537-2197.1935.tb05007.x. JSTOR   2436172.
  6. Moser, John W. & Kreitner, Gerald L. (February 1, 1970). "Centrosome Structure in Anthoceros Laevis and Marchantia Polymorphia" (PDF). Department of Botany, University of Illinois . Retrieved 16 April 2011.