Biology:Metzgeriales

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Short description: Order of liverwort plants

Metzgeriales
Temporal range: Upper Devonian[1] to recent
Riccardia multifida (Vielspaltiges Riccardimoos) IMG 0162.jpg
Riccardia multifida
Scientific classification e
Kingdom: Plantae
Division: Marchantiophyta
Class: Jungermanniopsida
Subclass: Metzgeriidae
Order: Metzgeriales
Chalaud, 1930[2]
Families[3]

Aneuraceae
Metzgeriaceae
Metzgeriites

See also classification.
Synonyms

Anacrogynae (various authors)
Frondosae Endlicher, 1841

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.

Description

Members of the Metzgeriales typically are small and thin enough to be translucent, with most of the tissues only a single cell layer in thickness. Because these plants are thin and relatively undifferentiated, with little evidence of distinct tissues, the Metzgeriales are sometimes called the "simple thalloid liverworts".

Noteroclada, a "leafy" member of the Metzgeriales

There is considerable diversity in vegetative structure of the Metzgeriales.[4] As a rule, simple thalloid liverworts do not have structures resembling leaves. However, a few genera, such as Fossombronia, and Symphyogyna, are "semileafy" and have a thallus that is very deeply lobed, thus giving the appearance of leafiness. The genus Phyllothallia has a more striking leafiness, with paired lobes of tissue spaced regularly at swollen nodes along a central, forked stem.[5] The several semileafy groups within the Metzgeriales are not closely related to each other, and the currently accepted view is that the leafy condition evolved separately and independently in each of the groups where it occurs.[6]

Members of the Metzgeriales also differ from the related Jungermanniales in the location of their archegonia (female reproductive structures). Whereas archegonia in the Jungermanniales develop directly from the apical cell at the tip of a fertile branch, archegonia in the Metzgeriales develop from a cell that is behind the apical cell.[7] As a result, the female reproductive organs, and the sporophytes that develop within them, are always located on the dorsal surface of the plant.[8] Because these structures do not develop at the apex of the branch, their development in the Metzgeriales is described as anacrogynous, from Greek ἀν- (an-, "not") + ἄκρος (akros, "tip") + γυνή (gynē, “female”). The group was accordingly known as the Anacrogynae prior to being recognized as a separate order.

Distribution and ecology

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.[6]

One simple thalloid liverwort is not photosynthetic. The species Cryptothallus mirabilis is white as a result of lacking chlorophyll, and has plastids that do not differentiate into chloroplasts.[9] This species is a myco-heterotroph that obtains its nutrients from fungi growing among its tissues. These plants grow in bogs and are typically found under peat moss near birch trees.[10]

Classification

The beginning of modern liverwort nomenclature is marked with the 1753 publication of Linnaeus' Species Plantarum,[11] although this relied heavily upon the prior work of Micheli (1729)[12] and Dillenius (1741).[13] Linnaeus included all 25 known species of liverworts, together with mosses, algae, and fungi, within a single class Cryptogamia. Linnaeus' system was heavily revised by workers in the early nineteenth century, so that by the time Endlicher published his Enchiridion Botanicum in 1841, five orders of liverworts were defined, and the "Frondosae" were segregated as a group that is congruent with the modern concept of the Metzgeriales.[14] Endlicher's "Frondosae" included five subgroups (Metzgerieae, Aneureae, Haplolaeneae, Diplomitrieae, and Codonieae) with no assigned taxonomic rank, but these groups were termed Familien by Dědeček in 1886.[15] The same five subgroups of "Frondosae", without significant change, were used in the Synopsis Hepaticarum of Gottsche, Lindenberg, and Nees.[16]

A more thorough understanding of the Metzgeriales was not achieved until the morphological and developmental work of Leitgeb in the late nineteenth century.[14] Leitgeb was among the first to recognize and appreciate the significance of development and reproductive morphology as a guide to distinguishing liverwort groups. His careful examinations guided revisions made in the classification published from 1893 to 1895 by Schiffner in Engler and Prantl.[17] Schiffner thus divided his "Jungermanniales" into two broad groups according to whether the archegonia were terminal on reproductive branches (Jungermanniales akrogynae) or sub-terminal (Jungermanniales anakrogynae). This latter group included what are now recognized as the Metzgeriales, Sphaerocarpales, and Haplomitriales.

The simple thalloids were not given ordinal status until 1930 by Chalaud.[2] Although subsequent systems similarly treated the group as distinct, the name of the order was more often given as "Jungermanniales anacrogynae" (or similar),[18] or the group was retained within the Jungermanniales as a suborder with either this name[19] or the name "Metzgerineae".[20] The highly influential and comprehensive 1966 classification found in Schuster's Hepaticae and Anthocerotae of North America[14] firmly established the name "Metzgeriales" for the group, although he had used this name in his earlier works.[21] Schuster revised his system in 1972[22] and again in 1984.[23] The only change he made in the circumscription of the Metzgeriales was to remove the Treubiales in accordance with that change made in the classification of Schljakov.[24]

Schljakov's 1972 classification had elevated several subordinal groups within the simple thalloids to the rank of order, and treated the Metzgeriales itself as a superorder "Metzgerianae", but Schuster's 1984 system rejected most of these changes. The classification of Crandall-Stotler and Stotler (2000) adopted several of Schljakov's orders, while revising their membership and grouping them within a subclass "Metzgeriidae".[11] These changes reflected a morphological analysis of species that had been presented three years earlier.[25] Although their system changed the rank and the Latin ending of the name, the composition was identical to the Metzgeriales of Schuster (1966), with only the addition of the Haplomitriales to its membership. Subsequent studies incorporating DNA sequence analysis have removed the Haplomitriales, Treubiales, and Blasiales and place those taxa elsewhere.[26][27][28] The remnant of the group, after the removal of these taxa, consists of their Metzgeriales (7 families), Fossombroniales (4 families), and the Phyllothalliaceae.

Families

Pellia epiphylla

The Metzgeriales traditionally included fourteen families, as follows:


Families marked with an asterisk * were classified in the separate order Fossombroniales by Crandall-Stotler and Stotler,[11] but this grouping is not supported by subsequent analysis using DNA sequences.[27][29][30]

Two additional families were formerly included within the Metzgeriales, but since have been transferred to other classes of liverwort. The Blasiaceae has been assigned its own order Blasiales, and phylogenetic studies show that it is more closely related to the Marchantiales than to members of the Metzgeriales. Likewise, the Treubiaceae is now in its own order Treubiales, within the recently recognized class Haplomitriopsida.

A 2016 analysis of liverwort classification has further reduced the Metzgeriales to include only two families, Metzgeriaceae and Aneuraceae, with all other previously included families dispersed into three additional orders: Fossombroniales, Pallaviciniales, and Pelliales.[31]

Families reassigned in the 2016 analysis:

Botanical authority

In previous decades, there has been considerable confusion over the correct attribution of the name "Metzgeriales". The ordinal name Metzgeriales was first published by Chalaud in 1930 with the description “J’ai désigné très généralement les Jungermannniales anacrogynes sous le nom de Metzgériales,”[2] (that is: "I have designated very generally the Jungermannniales anacrogynes under the name of Metzgeriales"). Chalaud cited Underwood 1894[32] in support of his treatment, but Underwood himself used only the name Metzgeriaceae for the group, and considered the whole to represent a single family. The publication of the ordinal name by Chalaud was accepted as correct by Grolle in his 1983 synopsis of the generic and higher-rank names of liverworts.[33]

Writing in 1984, Rudolf M. Schuster questioned the correct authority for the ordinal name. He believed that Underwood had first used the term, but concluded that as neither Underwood nor Chalaud had provided a formal description, the order should be cited as "Metzgeriales Schust. emend. Schljak."[23] He ascribed first use of the name with a description to his own 1953 work on the liverworts of Minnesota.[21] This work included a considerable description sufficient to distinguish the order from all others, but Schuster relied on the 1972 emendation by Schljakov[24] to provide the Latin diagnosis required by the International Code of Botanical Nomenclature.[34] Schuster reaffirmed his position on the authority for publication in 1992.[6]

In the publication of their revised liverwort classification in 2000, Crandall-Stotler and Stotler agreed with Schuster as to the attribution of the name, although they restricted their circumscription of the order considerably.[11] However, upon additional review of the Chalaud paper, they reversed their opinion.[35] They concluded that Chalaud's diagnosis, although "terse", was nonetheless adequate to satisfy the requirements for publication of a botanical name, and that the Code's requirement for a Latin diagnosis did not apply, since the Chalaud paper was published prior to 1 January 1935.[36] Chalaud is therefore the correct authority in citing the name "Metzgeriales".

Evolution

Phylogeny

The Metzgeriales are a paraphyletic group of liverworts, in that they do not include all the descendants of their most recent common ancestor.[26][27] Specifically, the Jungermanniales (leafy liverworts) are more closely related to the Aneuraceae and Metzgeriaceae than are other simple thalloid groups.[11]

The diagram at right summarizes a portion of a 2006 cladistic analysis of liverworts based upon three chloroplast genes, one nuclear gene, and one mitochondrial gene.[30] The genus Sandeothallus and the species Mizutania riccardioides and Vandiemenia ratkowskiana (each the only member of its respective family) were not included in the study.

Linked names at the tips of clade branches are families currently assigned to the Metzgeriales. Names which are not linked belong to other groups. The results agree with the view that the Metzgeriales are paraphyletic as a result of including neither the Jungermanniales nor Pleuroziaceae (both shown in bold), which nest among the simple thalloid liverworts.

Marchantiophyta
Haplomitriopsida

Haplomitriales

Treubiales

Marchantiopsida

Blasiales

Sphaerocarpales

Marchantiales

Jungermanniopsida

Jungermanniales

Pleuroziaceae

Aneuraceae

Metzgeriaceae

Mizutaniaceae

Pelliaceae

Calyculariaceae

Makinoaceae

Allisoniaceae

Fossombroniaceae

Petalophyllaceae

Phyllothalliaceae

Hymenophytaceae

Moerckiaceae

Pallaviciniaceae

Sandeothallaceae

Fossil record

Metzgeria furcata

Because plants belonging to the Metgeriales lack hard tissues, and the plants often decay or die back, preservation of fossils is dependent upon rapid burial by floods or volcanic ash.[37] Bryophytes are considered "delicate" plants, and this characteristic is often cited as the reason for the apparently poor fossil record of the group.[38] However, fossils of the Metzgeriales are distributed widely, both geographically and stratigraphically, and the fossils which have been found are often highly detailed and well-preserved.[39]

The oldest fossil bryophyte is a compression fossil of Pallavicinites devonicus from Upper Devonian rocks[40] that has been confidently assigned to the Metzgeriales.[14] Portions of the fossil that have been isolated for microscopic examination reveal an extraordinary degree of cellular detail. The plant consisted of a thin, ribbon-like, bifurcating thallus with a thicker central midrib.[41] The plant is remarkably similar in structure to members of the extant liverwort family Pallaviciniaceae, but no reproductive structures have been found.[14][42] Additional species assigned to the genus Pallavicinites have been found in rocks dating from the Carboniferous to the Pleistocene.[43]

Another early fossil probably belonging to the Metzgeriales is the Carboniferous fossil Thallites willsi,[44] which has been compared to the modern genus Metzgeria.[40] However, it has been assigned to the form genus Thallites, which is used for thalloid fossil plants and algae of uncertain relationships.[1] Most fossils belonging to the Metzgeriales are assigned to the genus Metzgeriites, which was established for this purpose.[45] Specimens from the Upper Carboniferous of Shropshire, England, have been named Hepaticites metzgerioides,[46] and (as the specific epithet indicates) these specimens strongly resemble the genus Metzgeria. However, they have been placed instead in the form genus Hepaticites, used for fossils believed to be liverworts but without confident affiliation with any extant order.[1] This species is not restricted to British localities, but has also been found in the Karagandy Province of Kazakhstan.[39]

Mesozoic fossils of Metzgeriites have also been found. Metzgeriites glebosus has been collected from Jurassic strata of Greenland.[1] The type material, and so far only material collected, consists of a midrib with a thin lamina that is deeply and irregularly lobed.[45] A Cretaceous fossil from Portugal has been named Metzgeriites infracretaceus. Like M. glebosus, it possesses a midrib and thin lamina, but unlike that taxon the lamina of M. infracretaceus is not lobed.[47]

References

  1. 1.0 1.1 1.2 1.3 Oostendorp, Cora (1987). The Bryophytes of the Palaeozoic and the Mesozoic. Bryophytorum Bibliotheca. 34. Berlin & Stuttgart: J. Cramer. pp. 18. ISBN 3-443-62006-X. 
  2. 2.0 2.1 2.2 Chalaud, G. (1930). "Les derniers stades de la spermatogésè chez les hépatiques". Annales Bryologici 3: 41–50. 
  3. Söderström, Lars; Hagborg, Anders; von Konrat, Matt; Bartholomew-Began, Sharon; Bell, David; Briscoe, Laura; Brown, Elizabeth; Cargill, D. Christine et al. (2016). "World checklist of hornworts and liverworts". PhytoKeys (59): 1–828. doi:10.3897/phytokeys.59.6261. ISSN 1314-2003. PMID 26929706. 
  4. Schofield, W. B. (1985). Introduction to Bryology. New York: Macmillan. pp. 180–196. ISBN 0-02-949660-8. 
  5. Schuster, Rudolf M. (1967). "Studies on Antipodal Hepaticae IX. Phyllothalliaceae". Transactions of the British Bryological Society 5 (2): 283–288. doi:10.1179/006813867804804296. 
  6. 6.0 6.1 6.2 Schuster, Rudolf M. (1992). The Hepaticae and Anthocerotae of North America. V. Chicago: Field Museum of Natural History. pp. 287–354. ISBN 0-914868-20-9. 
  7. Dittmer, Howard J. (1964). Phylogeny and Form in the Plant Kingdom. Princeton, NJ: D. Van Nostrand Company. pp. 305–309. ISBN 0-88275-167-0. https://archive.org/details/phylogenyforminp0000ditt. 
  8. Udar, Ram; S. C. Srivastava (1967). "A remarkable Metzgeria". Transactions of the British Bryological Society 5 (2): 338–340. doi:10.1179/006813867804804269. 
  9. Sigee, D. C. (1969). "The fine structure of plastids in the apical region of the gametophyte of Cryptothallus mirabilis Malmb.". Transactions of the British Bryological Society 5 (4): 820–822. doi:10.1179/006813869804146745. 
  10. Hill, David Jackson (1969). "The absence of chlorophyll in the spores of Cryptothallus mirabilis Malmb.". Transactions of the British Bryological Society 5 (4): 818–819. doi:10.1179/006813869804146781. 
  11. 11.0 11.1 11.2 11.3 11.4 Crandall-Stotler, Barbara; Raymond E. Stotler (2000). "Morphology and classification of the Marchantiophyta". in A. Jonathan Shaw. Bryophyte Biology. Cambridge: Cambridge University Press. pp. 21–70. ISBN 0-521-66097-1. 
  12. Micheli, P. A. (1729). Nova Plantarum Genera Juxta Tournefortii Methodum Disposita. Florence. pp. 1–234. 
  13. Dillenius, J. J. (1741). Historia Muscorum in Qua Circiter Sexcentae Species Veteres et Novae ad sua Genera Relatae Describuntur, et Iconibus Genuinis Illustrantur. Oxford. pp. 1–576. 
  14. 14.0 14.1 14.2 14.3 14.4 Schuster, Rudolf M. (1966). The Hepaticae and Anthocerotae of North America. I. New York: Columbia University Press. ISBN 0-231-03567-5. 
  15. Dědeček, J. (1886). Die Lebermoose Böhmens. Archiv f. Naturw. Landesdurchforsch. v. Bóhmen. 5. Prague. pp. 1–71. 
  16. Gottsche, C. M.; J. B. G. Lindenberg; C. G. Nees von Esenbeck (1844–1847). Synopsis Hepaticarum. Hamburg. pp. 1–834. https://archive.org/details/synopsishepatic00esengoog. 
  17. Schiffner, V. (1893–1895). "Hepaticae". in Engler. Die Natürlichen Pflanzenfamilien. 1. pp. 3–141. 
  18. Verdoorn, F. (1932). "Classification of hepatics". Manual of Bryology. The Hague. pp. 413–432. 
  19. Müller, K. (1940). "Beiträge zur Systematik der Lebermoose". Hedwigia 79: 72–80. 
  20. Evans, A. W. (1939). "The Classification of the Hepaticae". Botanical Review 5: 49–96. doi:10.1007/BF02899993. 
  21. 21.0 21.1 Schuster, Rudolf M. (1953). "Boreal Hepaticae: A manual of the liverworts of Minnesota and adjacent regions". American Midland Naturalist 49 (2): 257–684. doi:10.2307/2422089. 
  22. Schuster, Rudolf M. (1972). "Phylogenetic and taxonomic studies on Jungermanniidae". Journal of the Hattori Botanical Laboratory 36: 321–405. 
  23. 23.0 23.1 Schuster, Rudolf M. (1984). "Evolution, Phylogeny, and Classification of the Hepaticae". New Manual of Bryology. Nichinan, Miyazaki, Japan: The Hattori botanical Laboratory. p. 941. 
  24. 24.0 24.1 Schljakov, R. N. (1972). "On the higher taxa of liverworts (Hepaticae s. str.)" (in ru). Bot. Zhurn. (Leningrad) 57: 496–508. 
  25. Crandall-Stotler, Barbara; Raymond E. Stotler; Brent D. Mishler (1997). "Phylogenetic relationships within the Metzgeriidae (simple thalloid liverworts) as inferred from morphological characters". American Journal of Botany 84 (6, suppl): 3–4 [abstract]. 
  26. 26.0 26.1 He-Nygrén, Xiaolan; Inkeri Ahonen; Aino Juslén; David Glenny; Sinikka Piippo (2004). "Phylogeny of Liverworts-Beyond a Leaf and a Thallus". Monographs in Systematic Botany. Molecular Systematics of Bryophytes (Missouri Botanical Garden Press) 98: 87–118. 
  27. 27.0 27.1 27.2 Forrest, Laura L.; Barbara J. Crandall-Stotler (2004). "A Phylogeny of the Simple Thalloid Liverworts (Jungermanniopsida, Metzgeriidae) as Inferred from Five Chloroplast Genes". Monographs in Systematic Botany. Molecular Systematics of Bryophytes (Missouri Botanical Garden Press) 98: 119–140. 
  28. Heinrichs, Jochen; S. Robbert Gradstein; Rosemary Wilson; Harald Schneider (2005). "Towards a natural classification of liverworts (Marchantiophyta) based on the chloroplast gene rbcL". Cryptogamie Bryologie 26 (2): 131–150. 
  29. Davis, E. Christine (2004). "A Molecular Phylogeny of Leafy Liverworts (Jungermanniidae: Marchantiophyta)". Monographs in Systematic Botany. Molecular Systematics of Bryophytes (Missouri Botanical Garden Press) 98: 61–86. 
  30. 30.0 30.1 Forrest, Laura L.; Christine E. Davis; David G. Long; Barbara J. Crandall-Stotler; Alexandra Clark; Michelle L. Hollingsworth (2006). "Unraveling the evolutionary history of the liverworts (Marchantiophyta): multiple taxa, genomes and analyses". The Bryologist 109 (3): 303–334. doi:10.1639/0007-2745(2006)109[303:UTEHOT2.0.CO;2]. 
  31. Söderström (2016). "World checklist of hornworts and liverworts". PhytoKeys (59): 1–826. doi:10.3897/phytokeys.59.6261. PMID 26929706. 
  32. Underwood, L. M. (1894). "The evolution of the Hepaticae". Botanical Gazette 19: 347–361. doi:10.1086/327089. https://zenodo.org/record/1431371. 
  33. Grolle, Riclef (1983). "Nomina generica Hepaticarum; references, types and synonymies". Acta Botanica Fennica 121: 1–62. 
  34. ICBN 32.1(c)
  35. Stotler, Raymond E.; Barbara J. Crandall-Stotler (2008). "Correct author citations for some upper rank names of liverworts (Marchantiophyta)". Taxon 57 (1): 289–292. 
  36. McNeill, John (2006). International Code of Botanical Nomenclature (Vienna Code ed.). Koeltz Scientific Books. p. Article 36.1. ISBN 978-3-87429-425-6. http://ibot.sav.sk/icbn/main.htm. 
  37. Martin, Ronald E. (1999). Taphonomy: A Process Approach. Cambridge: Cambridge University Press. p. 93. ISBN 0-521-59171-6. https://archive.org/details/taphonomyprocess00mart_963. 
  38. Parihar, N. S. (1961). An Introduction to Embryophyta. 1. Bryophyta (4th ed.). Allahabad: Central Book Depot. 
  39. 39.0 39.1 Lacey, William S. (1979). "Bryophyta". in Rhodes W. Fairbridge. The Encyclopedia of Paleontology. Springer. pp. 141–148. ISBN 0-87933-185-2. 
  40. 40.0 40.1 Stewart, Wilson N.; Gar W. Rothwell (1993). "How the land turned green: Bryophyta". Paleobotany and the Evolution of Plants (2nd ed.). Cambridge University Press. pp. 77–84. ISBN 0-521-38294-7. 
  41. Hueber, F. M. (1961). "Hepaticites devonicus, a new fossil liverwort from the Devonian of New York". Annals of the Missouri Botanical Garden 48 (2): 125–132. doi:10.2307/2394879. 
  42. Gensel, Patricia G. (1999). "Bryophytes". in Ronald Singer. Encyclopedia of Paleontology. 1. Chicago: Fitzroy Dearborn Publishers. pp. 197–204. ISBN 1-884964-96-6. 
  43. Taylor, Thomas N.; Edith L. Taylor (1993). The Biology and Evolution of Fossil Plants. Englewood Cliffs, NJ: Prentice Hall. pp. 139–140. ISBN 0-13-651589-4. 
  44. Walton, J. (1925). "Carboniferous Bryophyta. I. Hepaticae". Annals of Botany 39 (3): 563–572. doi:10.1093/oxfordjournals.aob.a089964. 
  45. 45.0 45.1 Steere, W. C. (1946). "Cenozoic and Mesozoic Bryophytes of North America". American Midland Naturalist 36 (2): 298–324. doi:10.2307/2421507. 
  46. Walton, J. (1928). "Carboniferous Bryophyta. II. Hepaticae and Musci". Annals of Botany 42 (3): 707–716. doi:10.1093/oxfordjournals.aob.a090135. 
  47. Jovet-Ast, S. (1967). "Bryophyta". in E. Boureau. Traité de Paléobotanique. 2. Paris: Masson et Cie. pp. 17–186. 

External links

Wikidata ☰ Q877888 entry