Advanced search
Publication Cover
European Journal of Phycology Volume 54, 2019 - Issue 2
Submit an article Journal homepage
375
Views
4
CrossRef citations to date
0
Altmetric
Articles

Endemism, palaeoendemism and migration: the case for the ‘European endemic’, Mallomonas intermedia

Peter A. SiverDepartment of Botany, Connecticut College, New London, CT06320, USACorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0001-5956-8889View further author information
ORCID Icon,
Asbjørn SkogstadSkoklefall Terrasse 82, 1452Nesoddtangen, NorwayView further author information
&
Yvonne NemcovaDepartment of Botany, Charles University, CZ-128 01, Praha 2, Czech RepublicView further author information
Pages 222-234 | Received 18 Jul 2018, Accepted 29 Sep 2018, Published online: 11 Mar 2019

References

  • Archibald, S.B., Basinger, J.F., Greenwood, D.R., Mathewes, R.W. & Wilson, M.V.H. (2005). Significance of the Horsefly Fossil Site, British Columbia. British Columbia Paleontological Alliance, British Columbia.
  • Archibald, S.B., Morse, G.E., Greenwood, D.R. & Mathewes, R.W. (2014). Fossil palm beetles refine upland winter temperatures in the Early Eocene Climatic Optimum. Proceedings of the National Academy of Sciences USA, 111: 8095–8100.
  • Arseneau, K.M.A., Driscoll, C.T., Cummings, C.M., Pope, G. & Cumming, B.F. (2016). Adirondack (NY, USA) reference lakes show a pronounced shift in chrysophyte species composition since ca. 1900. Journal of Paleolimnology, 56: 349–364.
  • Asmund, B. (1959). Electron microscope observations on Mallomonas species and remarks on their occurrence in some Danish ponds and lakes III. Dansk Botanisk Arkiv, 18: 1–50.
  • Baas-Becking, L.G.M. (1934). Geobiologie of Inleding tot de Milieukunde. W.P. Van Stockum & Zoon N.V., Den Haag.
  • Barreto, S. (2001). Three new Mallomonas species (Synurophyceae) from a mountain area in North-Hungary. Nordic Journal of Botany, 21: 437–447.
  • Barreto, S. (2005). The silica-scaled chrysophyte flora of Hungary. Nova Hedwigia Beiheft, 128: 11–41.
  • Boo, S.M., Kim, H.S., Shin, W., Boo, G.H., Cho, S.M., Jo, B.Y., Siver, P.A., Wolfe, A.P., Bhattacharya, D., Andersen, R.A. & Yoon, H.S. (2010). Complex phylogeographic patterns in the freshwater alga Synura provide new insights into ubiquity vs. endemism in microbial eukaryotes. Molecular Ecology, 19: 4328–4338.
  • Brinkhuis, H.S., Schouten, M.E., Collinson, A., Sluijs, A., Sinninghe Damsté, J.S., Dickens, G.R., Huber, M., Cronin, T., Onodera, J., Takahashi, K., Bujak, J.P., Stein, R., van der Burgh, J., Eldrett, J.S., Harding, I.C., Lotter, A.F., Sangiorgi, F., Zijlstra, G., van Konijnenburg-van Cittert, H., de Leeuw, J.W., Matthiessen, J., Backman, J., Moran, K. & the Expedition 302 Scientists. (2006). Episodic fresh surface waters in the Eocene Arctic Ocean. Nature, 441: 606–609.
  • Brodie, J., Andersen, R.A., Kawachi, M. & Millar, A.J.K. (2009). Endangered algal species and how to protect them. Phycologia, 48: 423–438.
  • Calado, A. & Craveiro, S. (1995). Notes on the ecology of Synurophycean algae found in Portugal. Nordic Journal of Botany, 15: 641–654.
  • Cronberg, G. (2010). Mallomonas pseudocoronata Prescott (Synurophyceae), a recent arrival in Scania, southern Sweden? Nova Hedwigia Beiheft, 136: 139–151.
  • Cronberg, G. & Kristiansen, J. (1980). Synuraceae and other Chrysophyceae from central Småland, Sweden. Botaniska Notiser, 133: 595–618.
  • Dürrschmidt, M. (1984). Studies on scale-bearing Chrysophyceae from the Giessen area, Federal Republic of Germany. Nordic Journal of Botany, 4: 123–143.
  • Fenchel, T. & Finlay, B.J. (2004). Here and there or everywhere? Response from Fenchel and Finlay. Bioscience, 54: 884–885.
  • Finlay, B.J. (2002). Global dispersal of free-living microbial eukaryote species. Science, 296: 1061–1063.
  • Finlay, B.J. & Clarke, K.J. (1999). Ubiquitous dispersal of microbial species. Nature, 400: 828.
  • Furlotte, A., Ferguson, J.A. & Wee, J.L. (2000). A floristic and biogeographic survey of the Synurophyceae from Southeastern Australia. Nordic Journal of Botany, 20: 247–256.
  • Greenwood, D.R., Archibald, S.B., Mathewes, R.W. & Moss, P.T. (2005). Fossil biotas from the Okanagan Highlands, southern British Columbia and northeastern Washington State: climates and ecosystems across an Eocene landscape. Canadian Journal of Earth Sciences, 42: 167–185.
  • Greenwood, D.R., Basinger, J.F. & Smith, R.Y. (2010). How wet was the Arctic Eocene rain forest? Estimates of precipitation from Paleogene Arctic macrofloras. Geology, 38: 15–18.
  • Gutowski, A. (1997). Mallomonas species (Synurophyceae) in eutrophic waters of Berlin (Germany). Nova Hedwigia, 65: 299–335.
  • Hällfors, G. & Hällfors, S. (1988). Records of chrysophytes with siliceous scales (Mallomonadaceae and Paraphysomonadaceae) from Finnish inland waters. In Flagellates in Freshwater Ecosystems (Jones, R. & Ilmavirta, V., editors), 1–29. Kluwer Academic, Dordrecht.
  • Hansen, A.F., Johansen, J.E. & Skovgard, A. (1993). Floristik undersøgelse af skælbærende gulalger i Dyrehaven. Urt, 17: 13–18.
  • Harris, K. (1953). A contribution to our knowledge of Mallomonas. Botanical Journal of the Linnean Society, 55: 88–102.
  • Harris, K. & Bradley, D.E. (1957). An examination of the scales and bristles of Mallomonas in the electron microscope using carbon replicas. Journal of the Royal Microscopical Society, 76: 37–46.
  • Harris, K. & Bradley, D.E. (1960). A taxonomic study of Mallomonas. Journal of General Microbiology, 22: 750–777.
  • Hickey, L.J., West, R.M., Dawson, M.R. & Choi, D.K. (1983). Arctic terrestrial biota: paleomagnetic evidence of age disparity with mid-northern latitudes during the Late Cretaceous and early Tertiary. Science, 221: 1153–1156.
  • Jahren, A.H. (2007). The Arctic forest of the Middle Eocene. Annual Review of Earth and Planetary Sciences, 35: 509–540.
  • Jo, B.Y., Shin, W., Kim, H.S., Siver, P.A. & Andersen, R.A. (2013). Phylogeny of the genus Mallomonas (Synurophyceae) and descriptions of five new species on the basis of morphological evidence. Phycologia, 52: 266–278.
  • Kristiansen, J. (1988). Seasonal occurrence of silica-scaled chrysophytes under eutrophic conditions. Hydrobiologia, 161: 171–184.
  • Kristiansen, J. (1996). Dispersal of freshwater algae – a review. Hydrobiologia, 336: 151–157.
  • Kristiansen, J. (2001). Biogeography of silica-scaled chrysophytes. Nova Hedwigia Beiheft, 122: 23–39.
  • Kristiansen, J. (2002). The genus Mallomonas (Synurophyceae): a taxonomic survey based on the ultrastructure of silica scales and bristles. Opera Botanica, 139: 1–218.
  • Kristiansen, J. (2005). Golden Algae: A Biology of Chrysophytes. A. R. G. Gantner Verlag, K.G., Ruggell.
  • Kristiansen, J. (2008). Dispersal and biogeography of silica-scaled chrysophytes. Biodiversity and Conservation, 17: 419–426.
  • Kristiansen, J. & Lind, J.F. (2005). Endemicity in silica-scaled chrysophytes. Nova Hedwigia Beiheft, 128: 65–83.
  • Marsicano, L.J. & Siver, P.A. (1993). A paleolimnological assessment of lake acidification in five Connecticut lakes. Journal of Paleolimnology, 9: 209–221.
  • McIver, E.E. & Basinger, J.F. (1999). Early Tertiary floral evolution in the Canadian high arctic. Annals of the Missouri Botanical Garden, 86: 523–545.
  • Mead, C. (1983). Bird Migration. Country Life Books, Feltham.
  • Nemcova, Y., Neustupa, J., Novakova, S. & Kalina, T. (2002). Silica-scaled chrysophytes of the Sumava National Park and the Trebonsko UNESCO Biosphere Reserve (Southern Bohemia, Czech Republic). Nordic Journal of Botany, 22: 375–383.
  • Nemcova, Y., Neustupa, J., Novakova, S. & Kalina, T. (2003). Silica-scaled chrysophytes of the Czech Republic. Acta Universitatis Carolinae. Biologica, 47: 285–346.
  • Nemcova, Y., Kreidlova, J., Kosova, A. & Neustupa, J. (2012). Lakes and pools of Aquitaine region (France) – a biodiversity hotspot of Synurales in Europe. Nova Hedwigia, 95: 1–24.
  • Péterfi, L.S. (1967). Studies on the Rumanian Chrysophyceae (I). Nova Hedwigia, 13: 117–137.
  • Péterfi, L.S. & Momeu, L. (1977). Observations on some Mallomonas species from Romania in light and transmission electron microscopes. Nova Hedwigia, 28: 155–202.
  • Péterfi, L.S., Momeu, L., Padisák, J. & Varga, V. (1998). Silica-scaled chrysophytes from permanent and temporary waters of Hortobágy, Eastern Hungary. Hydrobiologia, 369/370: 339–351.
  • Péterfi, L.S., Momeu, L., Padisák, J. & Torok, A.R. (2002). Silica-scaled flagellates (Synurophyceae) of the “Mestecănişu de la Reci”. Covasna County, Transylvania, Romania. Contribuţii Botanice, 37: 113–118.
  • Péterfi, L.S., Momeu, L., Kiss, K.T. & Acs, E. (2005). Recent occurrence of Mallomonas intermedia Kisselev (Synurophyceae, Chrysophyta) in Transylvania (Romania), based on scanning electron microscopy. Acta Botanica Hungarica, 47: 145–149.
  • Pisera, A., Siver, P.A. & Wolfe, A.P. (2013). A first account of freshwater potamolepid sponges (Demospongiae, Spongillina, Potamolepidae) from the middle Eocene: biogeographic and paleoclimatic implications. Journal of Paleontology, 87: 373–378.
  • Potapova, M.G. & Charles, D.F. (2002). Benthic diatoms in USA rivers: distributions along spatial and environmental gradients. Journal of Biogeography, 29: 167–187.
  • Preisig, H.R. (1989). Mallomonas alphaphora (Chrysophyceae): a new species from Western Australia. Plant Systematics and Evolution, 164: 209–214.
  • Řezáčová, M. & Neustupa, J. (2007). Distribution of the genus Mallomonas (Synurophyceae) – ubiquitous dispersal in microorganisms evaluated. Protist, 158: 29–37.
  • Roijackers, R.M.M. (1981). Chrysophyceae from freshwater localities near Nijmegen, the Netherlands. Hydrobiologia, 76: 179–189.
  • Roijackers, R.M.M. & Kessels, H. (1981). Chrysophyceae from freshwater localities near Nijmegen, the Netherlands. II. Hydrobiologia, 80: 231–239.
  • Roijackers, R.M.M. & Kessels, H. (1986). Ecological characteristics of scale-bearing Chrysophyceae from the Netherlands. Nordic Journal of Botany, 6: 373–385.
  • Rujoiu-Mare, M.R., Olariu, B., Mihai, B.A. (2015). Space planning in Prahova Subcarpathians, Romania. Landslides – land cover relationship analysis. Cinq Continents, 6: 21–41.
  • Santos, L.M.A., Calado, A. & Craveiro, S. (1996). Silica-scaled chrysophytes from three alpha-mesosaprobic water-bodies of central Portugal. Nova Hedwigia Beiheft, 114: 171–191.
  • Schmitz, B. & Paujalte, V. (2007). Abrupt increase in seasonal extreme precipitation at the Paleocene-Eocene boundary. Geology, 35: 215–218.
  • Siver, P.A. (1991). The Biology of Mallomonas: Morphology, Taxonomy and Ecology. Kluwer Academic Publishers, Dordrecht.
  • Siver, P.A. (1993). Inferring lakewater specific conductivity with scaled chrysophytes. Limnology and Oceanography, 38: 1480–1492.
  • Siver, P.A. (2015a). Synurophyte algae. In Freshwater Algae of North America. 2nd ed. (Wehr, J.D., Sheath, R.G. & Kociolek, J.P., editors), 607–655. Academic Press, San Diego.
  • Siver, P.A. (2015b). Mallomonas schumachii sp. nov., a fossil synurophyte bearing large scales described from an Eocene maar lake in Northern Canada. Nova Hedwigia, 101: 285–298.
  • Siver, P.A. (2018). Mallomonas aperturae sp. nov. (Synurophyceae) reveals that the complex cell architecture observed on modern synurophytes was well established by the middle Eocene. Phycologia, 57: 273–279.
  • Siver, P.A. & Glew, J.R. (1990). The arrangement of scales and bristles on Mallomonas (Chrysophyceae), a proposed mechanism for the formation of the cell covering. Canadian Journal of Botany, 68: 374–380.
  • Siver, P.A. & Lott, A.M. (2012). Biogeographic patterns in scaled chrysophytes from the east coast of North America. Freshwater Biology, 57: 451–467.
  • Siver, P.A. & Wolfe, A.P. (2005). Eocene scaled chrysophytes with pronounced modern affinities. International Journal of Plant Sciences, 166: 533–536.
  • Siver, P.A. & Wolfe, A.P. (2009). Tropical ochrophyte algae from the Eocene of northern Canada: a biogeographic response to past global warming. Palaios, 24: 192–198.
  • Siver, P.A., Hamer, J. & Kling, H. (1990). Separation of Mallomonas duerrschmidtiae sp. nov. from M. crassisquama and M. pseudocoronata: implications for paleolimnological research. Journal of Phycology, 26: 728–740.
  • Siver, P.A., Voloshko, L.N., Gavrilova, O.V. & Getsen, M.V. (2005). The scaled chrysophyte flora of the Bolshezemelskaya tundra (Russia). Nova Hedwigia Beiheft, 128: 125–150.
  • Siver, P.A., Lott, A.M. & Wolfe, A.P. (2009). Taxonomic significance of asymmetrical helmet and lance bristles in the genus Mallomonas (Synurophyceae) and their discovery in Eocene lake sediments. European Journal of Phycology, 44: 447–460.
  • Siver, P.A., Jo, B.Y., Kim, J.I., Shin, W., Lott, A.M. & Wolfe, A.P. (2015). Assessing the evolutionary history of the class Synurophyceae (Heterokonta) using molecular, morphometric, and paleobiological approaches. American Journal of Botany, 102: 1–21.
  • Škaloud, P., Škaloudová, M., Pichrtová, M., Němcová, Y., Kreidlová, J. & Puzstai, M. (2013a). www.chrysophytes.eu – a database on distribution and ecology of silica-scaled chrysophytes in Europe. Nova Hedwigia Beiheft, 142: 141–146.
  • Škaloud, P., Kristiansen, J. & Škaloudová, M. (2013b). Developments in the taxonomy of silica-scaled chrysophytes – from morphological and ultrastructural to molecular approaches. Nordic Journal of Botany, 31: 385–402.
  • Škaloud. P., Škaloudová, M., Procházková, A. & Němcová, Y. (2014). Morphological delineation and distribution patterns of four newly described species within the Synura petersenii species complex (Chrysophyceae, Stramenopiles). European Journal of Phycology, 49: 213–229.
  • Skogstad, A. (1984). Vegetative cells and cysts of Mallomonas intermedia (Mallomonadaceae, Chrysophyceae. Nordic Journal of Botany, 4: 275–278.
  • Skogstad, A. & Kristiansen, J. (1996). Mallomonas lychenensis f. symposiaca f. nov. (Mallomonadaceae, Synurophyceae). Nova Hedwigia Beiheft, 114: 81–89.
  • Smol, J.P. (1988). The North American endemic Mallomonas pseudocoronata (Mallomonadaceae, Chrysophyta) in an Austrian lake. Phycologia, 27: 427–429.
  • Stevenson, R.J. & Smol, J.P. (2015). Use of algae in ecological assessments. In Freshwater Algae of North America. 2nd ed. (Wehr, J.D., Sheath, R.G. & Kociolek, J.P., editors), 921–962. Academic Press, San Diego.
  • Suykerbuyk, R.E.M., Roijackers, R.M.M. & Houtman, S.S.J. (1995). Ecological characteristics of scale-bearing chrysophytes in a small eutrophic pond in the Netherlands. Nordic Journal of Botany, 15: 665–676.
  • Vanormelingen, P., Verleyen, E. & Vyverman, W. (2008). The diversity and distribution of diatoms: from cosmopolitanism to narrow endemism. Biodiversity and Conservation, 17: 393–405.
  • Verleyen, E., Vyverman, W., Sterken, M., Hodgson, D.A., De Wever, A., Juggins, S., Van de Vijver, B., Jones, V., Vanormelingen, P., Roberts, D., Flower, R., Kilroy, C., Souffreau, C. & Sabbe, K. (2009). The importance of dispersal related and local factors in shaping the taxonomic structure of diatom metacommunities. Oikos, 118: 1239–1249.
  • Voloshko, L.N. (2010). The chrysophycean algae from glacial lakes of Polar Ural (Russia). Nova Hedwigia Beiheft, 136: 191–211.
  • Vyverman, W., Verleyen, E., Sabbe, K., Vanhoutte, K., Sterken, M., Hodgson, D. A., Mann, D.G., Juggins, S., Van de Vijver, B., Jones, V., Flower, R., Roberts, D., Chepurnov, V.A., Kilroy, C., Vanormelingen, P. & De Wever, A. (2007). Historical processes constrain patterns in global diatom diversity. Ecology, 88: 1924–1931.
  • Wilson, M.V.H. (1977). Paleoecology of Eocene lacustrine varves at Horsefly, British Columbia. Canadian Journal of Earth Sciences, 14: 953–962.
  • Wilson, M.V.H. & Barton, D.G. (1996). Seven centuries of taphonomic variation in Eocene freshwater fishes preserved in varves: paleoenvironments and temporal averaging. Paleobiology, 22: 535–542.
  • Wolfe, A.P. & Edlund, M.B. (2005). Taxonomy, phylogeny, and paleoecology of Eoseira wilsonii gen. et sp. nov., a middle Eocene diatom (Bacillariophyceae: Aulacoseiraceae) from lake sediments at Horsefly, British Columbia, Canada. Canadian Journal of Earth Sciences, 42: 243–257.
  • Wolfe, A.P., Reyes, A.V., Royer, D.L., Greenwood, D.R., Doria, G., Gagen, M., Siver, P.A. & Westgate, J.A. (2017). Middle Eocene CO2 and climate reconstructed from the sediment fill of a subarctic kimberlite maar. Geology, 45: 619–622.
  • Zachos, J.C., Pagani, M., Sloan, L., Thomas, E. & Billups, K. (2001). Trends, rhythms, and aberrations in global climate 65 Ma to present. Science, 292: 686–693.
  • Zachos, J.C., Dickens, G.R. & Zeebe, R.E. (2008). An early Cenozoic perspective on greenhouse warming and carbon-cycle dynamics. Nature, 451: 279–283.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.