2. An explanation for this unexpected development is sought in a consideration of the conditions necessary for the preservation of bryophytes as fossils.

3. It is concluded that the chances of preservation depend not so much on the conditions suitable for the growth of bryophytes or the possession of resistant structures (although both can be important contributory factors) but on the occurrence of the right kind of sedimentation in the right place at the right time.

4. The fossil history of the main Orders of the Bryophyta is then systematically reviewed, with special reference to first records in the Palaeozoic and Mesozoic.

5. A number of problematic bryophyte-like fossils of Palaeozoic age are also reviewed. Four (Protosalvtnia Dawson, Sporogonites Halle, Tetrapterites Sullivan and Hibbert, and a Dicranum-like plant from South Africa) are accepted as probably bryophytic; three (Musciphyton Greguss, Hepaticaephyton Greguss, and an alleged bryalean sporogonium from the Rhynie Chert) are rejected on the grounds of insufficient evidence.

6. The bearing of the fossil evidence on bryophyte evolution is briefly considered.

7. It is shown that the principal groups of both liverworts and mosses had already been differentiated before the end of the Palaeozoic.

8. A polyphyletic origin of the Bryophyta is therefore highly probable.

9. Beyond this, the early fossil evidence as yet gives no unequivocal answers and more detailed phylogenetic speculation based on the present state of knowledge of fossil bryophytes has little value.

10. Further knowledge of the early fossil history of bryophytes is needed and it is suggested that this is most likely to be obtained by patient systematic search in finegrained freshwater sediments by bulk maceration techniques.

References

Andrews, H. N. (1960). Notes on Belgian specimens o Sporogonites. Palaeobotanist 7, 85–9.
PubMed Google Scholar
Arnold, C. A. (1932). Microfossils from Greenland coal. Pap. Mich. Acad. Sci. 15, 51–61.
Google Scholar
Arnold, C. A. (1947). An introduction to paleobotany. New York .
Google Scholar
Arnold, C. A. (1954). Fossil sporocarps of the genus Protosalvinia Dawson, with special reference to P. furcata (Dawson) comb. nov. Svensk. Bot. Tidskr. 48, 292–300.
Google Scholar
Clifford, H. T. & Cookson, I. C. (1953). Muscites yallournensis, a fossil moss capsule from Yallourn, Victoria. Bryologist 56, 53–5.
10.1639/0007-2745(1953)56[53:MYAFMC]2.0.CO;2
Google Scholar
Cookson, I. C. (1949). Yeringian (Lower Devonian) plant remains from Lilydale, Victoria, with notes on a collection from a new locality in the Siluro-Devonian sequence. Mem. natn. Mus., Melb. 16, 117–30.
Google Scholar
Croft, W. N. & Lang, W. H. (1942). The Lower Devonian flora of the Senni Beds of Monmouthshire and Breconshire. Phil. Trans. R. Soc. B 231, 131–63.
10.1098/rstb.1942.0001
Google Scholar
Czeczott, H. (1959). The flora of the Baltic Amber and its age. 4. Pr. Muz. Ziemi 4, 119–31.
Google Scholar
Dawson, J. W. (1884). On rhizocarps in the Palaeozoic Period. Proc. Am. Ass. Adv. Sci. 32, 260–4.
Google Scholar
Dawson, J. W. (1888). On rhizocarps discovered by Prof. E. Orton in the Erian Shales of Columbus, Ohio. Can. Rec. Sci. 3, 137–40.
Google Scholar
Dickson, J. H. (1967). The British moss flora of the Weichselian Glacial. Rev. Palaeobotan. Palynol. 2, 245–53.
10.1016/0034-6667(67)90152-2
Google Scholar
Fleischer, M. (1919). Natiirliches System der Laubmoose. Hedwigia 61, 390–400.
Google Scholar
Greguss, P. (1959). Die Entdeckung von Urkormophyten aus dem Ordovicium. Proc. IXth Int. Bot. Congr., Montreal 1, 1–9.
Google Scholar
Greguss, P. (1961). Die Entdeckung von Urkormophyten aus dem Ordovicium. (2) Acta Univ. szeged. Acta Biologica 7, N.S. 3–30.
Google Scholar
Greguss, P. (1962). Some new data on the Ordovician land plants from Poland. (3) Acta Univ. szeged. Acta Biologica 8, N.S. 45–58.
Google Scholar
Halle, T. G. (1916a). A fossil sporogonium from the Lower Devonian of Norway. Bot. Notiser pp. 79–81.
Google Scholar
Halle, T. G. (1916b). Lower Devonian plants from Roragen in Norway. K. Svensk. Vetensk. Handl. 57, 1–46.
Google Scholar
Halle, T. G. (1936). Notes on the Devonian genu. Sporogonites. Svensk. Bot. Tidskr. 30, 613–23.
Google Scholar
Harris, T. M. (1926). Note on a new method for the investigation of fossil plants. New Phytol. 25, 58–60.
10.1111/j.1469-8137.1926.tb06681.x
Google Scholar
Harris, T. M. (1938). The British Rhaetic flora. London .
Google Scholar
Harris, T. M. (1939). Naiadita, a fossil Bryophyte with reproductive organs. Ann. Bryol. 12, 57–70.
PubMed Web of Science® Google Scholar
Harris, T. M. (1961). The Yorkshire Jurassic flora Thallophyta-Pteridophyta. London .
Google Scholar
Hibbert, F. A. (1967). The use of scanning electron microscopy in the study of Carboniferous miospores. New Phytol. 66, 825–6.
10.1111/j.1469-8137.1967.tb05447.x
Web of Science® Google Scholar
Hueber, F. M. (1961). Hepaticites devonicus, a new fossil liverwort from the Devonian of New York. Ann. Mo. Bot. Gdn 48, 125–32.
10.2307/2394879
Google Scholar
Jeffrey, C. (1962). The origin and differentiation of the Archegoniate land-plants. Bot. Notiser. 115, 446–54.
Google Scholar
Jovet-Ast, S. (1967). Bryophyta. In Traité de Paléobotanique, vol. 2. Paris.
Google Scholar
Jovet-Ast, S. & Huard, J. (1966). Mousses de la flore néogène d'Arjuzanx (Landes). Rev. bryol. lichen. 34, 807–15.
Google Scholar
Kidston R. (1900). The flora of the Carboniferous period. 1. Proc. Yorks. geol. polytech. Soc. 14, 189–230.
10.1144/pygs.14.2.189
Google Scholar
Kidston, R. & Lang, W. H. (1924). On the presence of tetrads of resistant spores in the tissue of Sporocarpon furcatum Dawson from the Devonian of America. Trans. R. Soc. Edinb. 53, 597–601.
10.1017/S0080456800027496
Google Scholar
Kozlowski, R. & Greguss, P. (1959). Discovery of Ordovician land plants (preliminary communication). Acta palaeontol. pol. 4, 1–9.
Google Scholar
KRAuusel, R. (1941). Die Sporokarpien Dawsons, eine neue Thallophyten-klasse des Devons. Palaeontographica B 86, 113–35.
Google Scholar
Krutzsch, W. (1963). Atlas der mittel- und jungtertiaren dispersen Sporen- und Pollen- sowie der Mikro-plankton formen des nordlichen Mitteleuropas. 2. Berlin.
Google Scholar
Lang, W. H. (1937). A specimen of Sporogonites from the ‘Gres de Wepion’. Bull. Mus. r. Hist. nat. Belg. 13, 1–7.
Google Scholar
Lang, W. H. & Cookson, I. C. (1930). Some fossil plants of early Devonian type from the Walhalla Series, Victoria, Australia. Phil. Trans. R. Soc. B 219, 133–63.
10.1098/rstb.1931.0003
Google Scholar
Lemoigne, Y. (1966). Sur un sporogone de Bryale d'age Devonien. Bull. Soc. linn. Lyon 35, 13–16.
Google Scholar
Lignier, O. (1914). Sur une Mousse houillere a structure conservee. Bull. Soc. linn. Normandie 7, 128–31.
Google Scholar
Lundblad, B. (1954). Contributions to the geological history of the Hepaticae. Fossil Marchantiales from the Rhaetic-Liassic coalmines of Skromberga (Province of Scania), Sweden. Svensk. Bot. Tidskr. 48, 381–417.
Google Scholar
Lundblad, B. (1955). Contributions to the geological history of the Hepaticae. 2. On a fossil member of the Marchantineae from the Mesozoic plant-bearing deposits near Lago San Martin, Patagonia (Lower Cretaceous). Bot. Notiser. 108, 22–39.
Google Scholar
Mamay, S. H. (1952). An epiphytic American species of Tubicaulis Cotta. Ann. Bot. 16, 145–63.
Web of Science® Google Scholar
Meyen, S. V. (1963). Mosses from the Palaeozoic of Angarida. Priroda 5, 73–6. (In Russian.).
Google Scholar
Meyen, S. V. (1966). On the occurrence of true Mosses in the Upper Permian deposits of Southern Priuralia. Dokl. Akad. Nauk. S.S.R. 166, 924–7. (In Russian.).
Google Scholar
Neuberg, M. F. (1956). Discovery of leafy Moss shoots in the Permian deposits of the U.S.S.R. Dokl. Akad. Nauk. SSR 107, 321–4.(In Russian.).
Google Scholar
Neuberg, M. F. (1958). Palaeozoic mosses from Angarida. XXth Int. Geol. Congr., Mexico, 1956, vol. 7, pp. 97–106. (In Russian, with English summary.).
Google Scholar
Neuberg, M. F. (1960). Leafy mosses from the Permian deposits of Angarida. Trudy geol. Inst., Leningr. 19, 1–104. (In Russian.).
Google Scholar
Oschurkova, M. V. (1967). Palaeophytological stratigraphy of the Karanganda Basin. Akad. Nauk. U.S.S.R., Geol. Inst. (V.S.E.G.E.I.), pp. 1–152. (In Russian.).
Google Scholar
Parihar, N. S. (1959). An introduction to Embryophyta. Vol. 1. Bryophyta. Allahabad .
Google Scholar
Plumstead, E. P. (1966). Recent palaeobotanical advances and problems in Africa. Symposium on Floristics and Stratigraphy of Gondzvanaland, pp. 1–12. Lucknow.
Google Scholar
Reissinger, A. (1950). Die ‘Pollenanalyse’ ausgedehnt auf alle Sedimentgesteine der geologischen Vergangenheit. Palaeontographica B 90, 99–126.
Google Scholar
Renault, B. & Zeiller, R. (1888). Flore fossile de Commentry. Bull. Soc. Industr. Min. 41, 34.
Google Scholar
Savicz-Ljubitzkaja, L. I. & Abramov, I. I. (1959). The geological annals of Bryophyta. Rev. Bryol. Lichen. 28, 330–42.
Google Scholar
Steere, W. C. (1946). Cenozoic and Mesozoic Bryophytes of North America. Am. Midi. Nat. 36, 298–324.
10.2307/2421507
Web of Science® Google Scholar
Stockmans, F. (1940). Végétaux Eodevoniens de la Belgique. Mem. Mus. r. hist. nat. Belg. 93, 1–90.
Google Scholar
Straus, A. (1952). Beiträge zur Pliocänflora von Willerhausen. 3. Die niederen Pflanzengruppen bis zu den Gymnospermen. Palaeontographica B 93, 1–44.
Google Scholar
Stuchlik, L. (1964). Pollen analysis of the Miocene deposits at Rypin. Acta Palaeobot., Cracow 5, 1–111.
Google Scholar
Sullivan, H. J. & Hibbert, F. A. (1964). Tetrapterites visensis–a new spore-bearing structure from the Lower Carboniferous. Palaeontology 7, 64–71.
Google Scholar
Szafran, B. (1952). Miocene mosses from Poland and the adjacent eastern territories. Biul. pdnst. Inst. Geol. Warszawa 68, 5–38.
Google Scholar
Thiergart, F. (1942). Anthoceros Sporen aus jüngeren Braunkohlen. Beih. bot. Zbl. B 61, 619–21.
Google Scholar
Townrow, J. A. (1959). Two Triassic bryophytes from South Africa. J. S. Afr. Bot. 25, 1–22.
Google Scholar
Walton, J. (1925). Carboniferous Bryophyta. 1. Hepaticae. Ann. bot. 39, 563–72.
10.1093/oxfordjournals.aob.a089964
Google Scholar
Walton, J. (1928a). Carboniferous Bryophyta. 2. Hepaticae and Musci. Ann. Bot. 42, 707–16.
10.1093/oxfordjournals.aob.a090135
Web of Science® Google Scholar
Walton, J. (1928b). In E. Greenly (1928). The Lower Carboniferous Rocks of the Menaian Region of Caernarvonshire. Q. Jl. geol. Soc. Lond. 84, 382–439.
10.1144/GSL.JGS.1928.084.01-04.13
Google Scholar
Walton, J. (1949). A thalloid plant (cf. Hepaticites sp.) showing evidence of growth in situ, from the Coal Measures at Dollar, Clackmannanshire. Trans, geol. Soc. Glas. 21, 278–80.
10.1144/transglas.21.2.278
Google Scholar
Watson, E. V. (1964). The structure and life of bryophytes. London .
Google Scholar
White, D. & Stadnichencko, T. (1923). Some mother plants of petroleum in the Devonian Black Shales. Econ. Geol. 18, 238–52.
10.2113/gsecongeo.18.3.238
Google Scholar
Williamson, W. C. (1878). On the organization of the fossil plants in the Coal-Measures. 9. Phil. Trans. R. Soc. 169, 319–64.
10.1098/rstl.1878.0010
Google Scholar
Wills, L. (1914). Plant cuticles from the Coal Measures of Britain. Geol. Mag. N.S. 6, 385.
10.1017/S0016756800152987
Google Scholar
Zalessky, M. D. (1937) Sur la distinction de l'etage Bardien dans le Permien de l'Oural et sur sa flore fossile. Problemy Paleont. 2–3, 37–101.
Google Scholar

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Volume44, Issue2

May 1969

Pages 189-205

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