Advanced search
Publication Cover
Palynology Volume 47, 2023 - Issue 1
Submit an article Journal homepage
1,034
Views
1
CrossRef citations to date
0
Altmetric
Research Articles

Acritarch clusters from the Cambrian (Miaolingian) of the Příbram-Jince Basin, Czech Republic

Vojtěch KovářInstitute of Geology and Palaeontology, Faculty of Science, Charles University, Prague, Czech RepublicCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-0679-7132View further author information
ORCID Icon,
Oldřich FatkaInstitute of Geology and Palaeontology, Faculty of Science, Charles University, Prague, Czech RepublicORCID Iconhttps://orcid.org/0000-0003-1898-3319View further author information
ORCID Icon &
Jakub VodičkaInstitute of Geology and Palaeontology, Faculty of Science, Charles University, Prague, Czech RepublicORCID Iconhttps://orcid.org/0000-0003-0136-1804View further author information
ORCID Icon
Article: 2115574 | Published online: 26 Sep 2022

References

  • Agić H. 2016. A new species of small acritarch with a porous wall structure from the early Cambrian of Estonia and implications for the fossil record of eukaryotic picoplankton. Palynology. 40(3):343–356.
  • Al-Ameri TK. 1986. Observations on the wall structure and the excystment mechanism of acritarchs. Journal of Micropalaeontology. 5(2):27–35.
  • Armstrong HA, Brasier MD. 2005. Microfossils. 2nd ed. Oxford (UK): Blackwell Publishing Ltd.
  • Babu R, Singh VK, Mehrotra NC. 2014. Neoproterozoic age based on microbiotas from the Raipur Group of Baradwar Sub-basin, Chhattisgarh. Journal of the Geological Society of India. 84(4):442–448.
  • Bubík M. 2001. Foraminifera in the middle Cambrian of the Barrandian area (Czech Republic). Journal of the Czech Geological Society. 46(3–4):195–198.
  • Burd AB, Jackson GA. 2009. Particle aggregation. Annual Review of Marine Science. 1:65–90.
  • Burmann G. 1968. Diacrodien aus dem unteren Ordovizium. Paläontologische Abhandlungen, Abteilung B. 2(4):635–652.
  • Butterfield NJ. 1997. Plankton ecology and the Proterozoic-Phanerozoic transition. Paleobiology. 23(2):247–262.
  • Butterfield NJ. 2009. Modes of pre-Ediacaran multicellularity. Precambrian Research. 173(1-4):201–211.
  • Butterfield NJ, Harvey THP. 2012. Small carbonaceous fossils (SCFs): a new measure of early Paleozoic paleobiology. Geology. 40(1):71–74.
  • Combaz A. 1962. Sur un nouveau type de microplanctone cénobial fossile du Gothlandien de Libye, Deflandastrum nov. gen. Comptes rendus de l'Académie des Sciences. 255(16):1977–1979.
  • Combaz A. 1967. Un microbios du Trémadocien dans un sondage d’Hassi–Messaoud. Actes de la Société Linnéenne de Bordeaux Série B. 104(29):1–26.
  • Combaz A, Lange FW, Pansart J. 1967. Les ‘leiofusidae’ Eisenack 1938. Review of Palaeobotany and Palynology. 1(1-4):291–307.
  • Cramer FH. 1966a. Additional morphographic information on some characteristic acritarchs of the San Pedro and Furada formations (Silurian Devonian boundary) in Leon and Asturias, Spain. Notas y comunicaciones del Instituto Geológico y Minero de España. 83:27–48.
  • Cramer FH. 1966b. Palynology of Silurian and Devonian rocks in Northwest Spain. Boletín Geológico y Minero de España. 77:223–286.
  • Cramer FH. 1970. Distribution of selected Silurian acritarchs. Revista Española de Micropaleontología, Número Extraordinario. 1:1–203.
  • Cramer FH, Díez de Cramer MdC. 1972. North American Silurian palynofacies and their spatial arrangement: acritarchs. Palaeontographica Abteilung B. 138(5–6):107–180.
  • Cramer FH, Díez de Cramer MdC. 1977. Late Arenigian (Ordovician) acritarchs from Cis-Saharan Morocco. Micropaleontology. 23(3):339–360.
  • Deflandre G. 1937. Microfossiles des silex crétacés. Deuxième partie. Flagellés incertae sedis. Hystrichosphaeridés. Sarcodinés. Organismes divers. Annales de Paléontologie. 26:51–103.
  • Deflandre G. 1946. Radiolaires et Hystrichosphaeridés du Carbonifère de la Montagne Noire. Comptes rendus des séances de l'Académie des sciences. 223(13):515–516.
  • Deflandre G, Deflandre-Rigaud M. 1962. Nomenclature et systématique des Hystrichosphères (sens.lat.), observations et rectifications. Revue de Micropaléontologie. 4(4):190–196.
  • Deunff J. 1954. Veryhachium, genre noveau d'Hystrichosphères du Primaire. Comptes rendus sommaire des séances de la Société géologique de France. 13:305–306.
  • Deunff J. 1961. Un microplancton à Hystrichosphères dans le Tremadoc du Sahara. Revue de Micropaléontologie. 4(1):37–52.
  • Deunff J. 1968. Sur une forme nouvelle d'Acritarche possédant une ouverture polaire (Veryhachium miloni n. sp.) et sur la présence d'une colonie de Veryhachium dans le Trémadocien marocain. Comptes rendus hebdomadaires des séances de l'Académie des sciences. Série D, Sciences naturelles. 267:46–49.
  • Díez de Cramer MdC, Cramer FH. 1976. Acritarches et miospores du Ludlovien de Corniero, province de León, Espagne. Revue de Micropaléontologie. 19(3):121–133.
  • Dorning K. 1981. Silurian acritarchs from the type Wenlock and Ludlow of Shropshire, England. Review of Palaeobotany and Palynology. 34(2):175–203.
  • Downie C. 1973. Observations on the nature of the acritarchs. Palaeontology. 16(2):239–259.
  • Downie C. 1982. Lower Cambrian acritarchs from Scotland, Norway, Greenland and Canada. Transactions of the Royal Society of Edinburgh: Earth Sciences. 72(4):257–285.
  • Drost K, Linnemann U, McNaughton N, Fatka O, Kraft P, Gehmlich M, Tonk C, Marek J. 2004. New data on the Neoproterozoic – Cambrian geotectonic setting of the Teplá–Barrandian volcano–sedimentary successions: geochemistry, U–Pb zircon ages, and provenance (Bohemian Massif, Czech Republic). International Journal of Earth Sciences. 93(5):742–757.
  • Edwards D, Wellman CH, Axe L. 1999. Tetrads in sporangia and spore masses from the Upper Silurian and Lower Devonian of the Welsh Borderland. Botanical Journal of the Linnean Society. 130(2):111–156.
  • Eisenack A. 1938. Hystrichosphaerideen und Verwandte Formen im baltischen Silur. Zeitschrift für Geschiebeforschung und Flachlandsgeologie. 14(1):1–30.
  • Eisenack A. 1958. Tasmanites Newton 1875 und Leiosphaeridia n. g. als Gattungen der Hystrichosphaeridea. Palaeontographica Abteilung A. 110(1–3):1–19.
  • Eisenack A. 1965. Mikrofossilien aus dem Silur Gotlands Hystichosphären, Problematika. Neues Jahrbuch für Geologie und Paläontologie. Abhandlungen. 122(3):257–274.
  • Evitt WR. 1963. A discussion and proposals concerning fossil dinoflagellates, hystrichospheres, and acritarchs, II. Proceedings of the National Academy of Sciences of the United States of America. 49(3):298–302.
  • Fatka O. 1987. Biostratigrafie jineckého souvrství [PhD thesis]. Prague (Czech Republic): Charles University; p. 117.
  • Fatka O. 1989. Acritarch assemblage in the Onymagnostus hybridus Zone (Jince Formation, middle Cambrian, Czechoslovakia). Věstník Ústředního ústavu geologického. 64(6):363–367.
  • Fatka O, Kordule V. 1992. New fossil sites in the Jince Formation (middle Cambrian, Bohemia). Věstník Českého geologického ústavu. 67(1):47–60.
  • Fatka O, Kordule V, Szabad M. 2004. Stratigraphical distribution of Cambrian fossils in the Příbram-Jince Basin (Barrandian area, Czech Republic). Senckenbergiana Lethaea. 84(1-2):367–381.
  • Fatka O, Szabad M. 2014a. Cambrian biostratigraphy in the Příbram-Jince Basin (Barrandian area, Czech Republic). Bulletin of Geosciences. 89(2):413–429.
  • Fatka O, Szabad M. 2014b. Family Dibrachicystidae (Echinodermata: Rhombifera) from the ‘Middle’ Cambrian of the Barrandian area, Czech Republic. Paläontologische Zeitschrift. 88(2):159–166.
  • Fatka O, Budil P, Grigar L. 2015. A unique case of healed injury in a Cambrian trilobite. Annales de Paléontologie. 101(4):295–299.
  • Fatka O, Valent M. 2019. Cambrian hyoliths of the Příbram–Jince Basin (Barrandian area, the Czech Republic): a review of recorded taxa. Fossil Imprint. 75(1):128–140.
  • Filipiak P, Kondas M, di Pasquo M, Rice BJ, Doughty PT, Grader GW, Isaacson PE. 2021. New colonial acritarch Involusphaeridium gutschicki gen. et sp. nov. from the Lower Sappington Formation (Upper Famennian), western Montana, USA. Review of Palaeobotany and Palynology. 284:104344–104348.
  • Fleming J. 1831. On the occurrence of scales of vertebrated animals in the Old Red Sandstone of Fifeshire. Edinburgh Journal of Natural and Geological Science. 3:81–86.
  • Fombella MA. 1977. Acritarcos de edad Cámbrico Medio-Inferior de la provincia de León, España. Revista Española de Micropaleontología. 9(1):115–124.
  • Geyer G, Elicki O, Fatka O, Żylińska A. 2008. Cambrian. In: McCann T, editor. Geology of Central Europe. London (UK): Geological Society of London; p. 155–202.
  • Hamm CE. 2002. Interactive aggregation and sedimentation of diatoms and clay-sized lithogenic material. Limnology and Oceanography. 47(6):1790–1795.
  • Hammer Ø, Harper DAT, Ryan PD. 2001. PAST: paleontological statistics software package for education and data analysis. Palaeontologia Electronica. 4(1):1–9.
  • Hansen FC, Reckermann M, Klein Breteler WCM, Riegman R. 1993. Phaeocystis blooming enhanced by copepod predation on protozoa: evidence from incubation experiments. Marine Ecology Progress Series. 102:51–57.
  • Harvey THP, Butterfield N. 2011. Great Canadian Lagerstätten 2. Macro- and microfossils of the Mount Cap Formation (early and middle Cambrian, Northwest Territories). Geoscience Canada. 38(4):165–173.
  • Havlíček V. 1971. Stratigraphy of the Cambrian of Central Bohemia. Sborník geologických věd, Geologie. 20:7–52.
  • Henry JL. 1964. Sur la conservation d'un rassemblement d'Acritarches (micro-organismes incertae sedis) sous forme de colonie, dans l'Ordovicien du Finistère. Comptes Rendus de l'Académie des Sciences, Série II. 258:1001–1003.
  • Huntley M, Tande K, Eilertsen HC. 1987. On the trophic fate of Phaeocystis pouchetii (Hariot). II. Grazing rates of Calanus hyperboreus (Krøyer) on diatoms and different size categories of Phaeocystis pouchetii. Journal of Experimental Marine Biology and Ecology. 110(3):197–212.
  • Jackson GA, Burd AB. 1998. Aggregation in the marine environment. Environmental Science and Technology. 32(19):2805–2814.
  • Jackson GA, Lochmann SE. 1992. Effect of coagulation on nutrient and light limitation of an algal bloom. Limnology and Oceanography. 37(1):77–89.
  • Jachowicz-Zdanowska M. 2013. Cambrian phytoplankton of the Brunovistulicum – taxonomy and biostratigraphy. Polish Geological Institute Special Papers. 28:1–150.
  • Jankauskas TV. 1979. The Lower Riphean microbiota of the southern Urals. Doklady of the Academy of Sciences of the USSR. Earth Sciences Sections. 242:913–915.
  • Kaźmierczak J, Kremer B. 2009. Spore–like bodies in some early Paleozoic acritarchs: Clues to chlorococcalean affinities. Acta Palaeontologica Polonica. 54(3):541–551.
  • Kiørboe T. 2001. Formation and fate of marine snow: small–scale processes with large–scale implications. Scientia Marina. 65(S2):57–71.
  • Kukal Z. 1971. Sedimentology of Cambrian deposits of the Barrandian area (Central Bohemia). Sborník geologických věd, Geologie. 20:53–100.
  • Le Hérissé A. 1989. Acritarches et kystes d'algues prasinophycées du Silurien de Gotland, Suède. Palaeontographia Italica. 76:57–302.
  • Le Hérissé A. 2001. Evolution of Devonian phytoplanktonic assemblages in the upper Ererê Formation and Curuá Group (Barreirinha and lower Curiri formations) Tapajós River area, Amazon Basin, northern Brazil. In: Melo JHG, Terra GJS, editors. Correlação de sequências Paleozóicas Sul-Americanas. Rio de Janeiro: Petrobras. (Ciênciatécnica-petróleo. Seção: exploração de petróleo. Vol. 20); p. 117–124.
  • Le Hérissé A, Al-Tayyar H, van der Eem H. 1995. Stratigraphic and paleogeographical significance of Silurian acritarchs from Saudi Arabia. Review of Palaeobotany and Palynology. 89(1-2):49–74.
  • Lister TR. 1970. The acritarchs and chitinozoa from the Wenlock and Ludlow Series of the Ludlow and Millichope areas, Shropshire. Monographs of the Palaeontographical Society. 124(528):1–100.
  • Loeblich AR. 1970. Morphology, ultrastructure and distribution of Paleozoic acritarchs. Proceedings of the North American Paleontological Convention. G; Chicago, IL; p. 705–788.
  • Loeblich AR, Drugg WS. 1968. New acritarchs from the Early Devonian (Late Gedinnian) Haragan of Oklahoma, USA. Tulane Studies in Geology. 6(4):129–137.
  • Loeblich AR, Tappan H. 1969. Acritarch excystment and surface ultrastructure with descriptions of some Ordovician taxa. Revista Española de Micropaleontología. 1:45–57.
  • Lurling M, Beekman W. 2006. Pallmeloids formation in Chlamydomonas reinhardtii defence against rotifer predators? Annales de Limnologie – International Journal of Limnology. 42(2):65–72.
  • Machado G, Slavík L, Moreira N, Fonseca PE. 2020. Prasinophyte bloom and putative fungi abundance near the Kačák event (Middle Devonian) from the Odivelas Limestone, Southwest Iberia. Palaeobiodiversity and Palaeoenvironments. 100(3):593–603.
  • Martin F. 1966. Les Acritarches du sondage de la brasserie Lust, à Kortrijk (Courtrai) (Silurien belge). Bulletin de la Société belge de géologie, de paléontologie et d'hydrologie. 74(2):354–400.
  • Martin F. 1977. Acritarches de Cambro-Ordovicien du Massif de Brabant, Belgique. Institute royal des Sciences naturelles de Belgique, Sciences de la terre, Bulletin. 51:1–33.
  • Martin F, Dean WT. 1981. Middle and Upper Cambrian and Lower Ordovician acritarchs from Random Island, eastern Newfoundland. Geological Survey of Canada, Bulletin. 343:1–43.
  • Martin F, Dean WT. 1984. Middle Cambrian acritarchs from the Chamberlains Brook and Manuels River formations at Random Island, eastern Newfoundland. Current Research, Part A, Geological Survey of Canada, Paper. 84-lA:429–440.
  • Martin F, Dean WT. 1988. Middle and upper Cambrian acritarch and trilobite zonation at Manuels River and Random Island, eastern Newfoundland. Geological Survey of Canada, Bulletin. 381:1–91.
  • McGregor DC, Narbonne GM. 1978. Upper Silurian trilete spores and other microfossils from the Read Bay Formation, Cornwallis Island, Canadian Arctic. Canadian Journal of Earth Sciences. 15(8):1292–1303.
  • Mcnown JS, Malaika J. 1950. Effects of particle shape on settling velocity at low Reynolds numbers. Transactions, American Geophysical Union. 31(1):74–82.
  • Mertens KN, Ribeiro S, Bouimetarhan I, Caner H, Combourieu Nebout N, Dale B, De Vernal A, Ellegaard M, Filipova M, Godhe A, et al. 2009. Process length variation in cysts of a dinoflagellate, Lingulodinium machaerophorum, in surface sediments: investigating its potential as salinity proxy. Marine Micropaleontology. 70(1-2):54–69.
  • Mikuláš R. 2000. Trace fossils from the Cambrian of the Barrandian area. Czech Geological Survey Special Papers. 12:1–29.
  • Miller MA, Vecoli M, Cesari C. 2017. New palynomorphs from the Ordovician–Silurian boundary interval: eastern North America and Saudi Arabia. Palynology. 41(sup1):106–120.
  • Moczydłowska M. 1991. Acritarch biostratigraphy of the Lower Cambrian and the Precambrian–Cambrian boundary in southeastern Poland. Fossils and Strata. 29:1–127.
  • Moczydłowska M. 2011. The early Cambrian phytoplankton radiation: acritarch evidence from the Lükati Formation, Estonia. Palynology. 35(1):103–145.
  • Moczydłowska M. 2016. Algal affinities of Ediacaran and Cambrian organic-walled microfossils with internal reproductive bodies: Tanarium and other morphotypes. Palynology. 40(1):83–121.
  • Moczydłowska M, Nagovitsin KE. 2012. Ediacaran radiation of organic-walled microbiota recorded in the Ura Formation, Patom Uplift, East Siberia. Precambrian Research. 198-199:1–24.
  • Moczydłowska M, Stockfors M. 2004. Acritarchs from the Cambrian‐Ordovician boundary interval on Kolguev Island, Arctic Russia. Palynology. 28(1):15–73.
  • Mullins GL. 2003. Aggregates of the acritarch Dilatisphaera laevigata: faecal pelletization, phytoplankton bloom or defence against phagotrophy? Journal of Micropalaeontology. 22(2):163–167.
  • Naumova SN. 1961. Sporovo-pyltsevye kompleksy rifeiskikh i nizhne kembriiskikh otlozhenii SSSR (Spore-pollen complexes of the Riphean and Lower Cambrian in the SSSR). Mezhdunarodnyi Geologicheskii Kongress, 21 sessiya 1960, Doklady Sovetskikh Geologov. Moscow: Nauka; 109–117.
  • Navidi-Izad N, Hashemi H, Cascales-Miñana B, Régnier S, Wellman CH, Servais T. 2020. Colonial palynomorphs from the Upper Ordovician of north-eastern Iran: ‘thalli’, coenobial Chlorophyceae (Hydrodictyaceae) or cyanobacteria? Palynology. 44(4):575–585.
  • Palacios T. 2015. Acritarch assemblages from the Oville and Barrios Formations, northern Spain: a pilot proposal of a middle Cambrian (Series 3) acritarch biozonation in northwestern Gondwana. Review of Palaeobotany and Palynology. 219:71–105.
  • Palacios T, Jensen S, Barr SM, White CE, Miller RF. 2017. Acritarchs from the Hanford Brook Formation, New Brunswick, Canada: new biochronological constraints on the Protolenus elegans Zone and the Cambrian Series 2–3 transition. Geological Magazine. 154(3):571–590.
  • Pedder B. 2012. The palynology and stratigraphy of the Cambrian Nolichucky Shale and associated formations at Thorn Hill, Tennessee, USA [PhD thesis]. Sheffield (UK): University of Sheffield; p. 231.
  • Quadros LP. 1999. Novos acritarcos do Devoniano Superior da Bacia do Amazonas. Acta Geologica Leopoldensia. 33(49):15–27.
  • Rasul SM. 1974. The lower Palaeozoic acritarchs Priscogalea and Cymatiogalea. Palaeontology. 17(1):41–63.
  • Rasul SM. 1979. Acritarch zonation of the Tremadoc series of the Shineton Shales, Wrekin, Shropshire, England. Palynology. 3(1):53–72.
  • Riebesell U. 1991. Particle aggregation during a diatom bloom. II. Biological aspects. Marine Ecology Progress Series. 69:281–291.
  • Riedman LA, Porter SM, Halverson GP, Hurtgen MT, Junium CK. 2014. Organic-walled microfossil assemblages from glacial and interglacial Neoproterozoic units of Australia and Svalbard. Geology. 42(11):1011–1014.
  • Rosovski JR. 2003. Photosynthetic euglenoids. In: Wehr JD, Sheath RG, editors. Freshwater algae of North America ecology and classification. San Diego (CA): Academic Press; p. 383–422.
  • Sahoo D, Baweja P. 2015. General characteristics of algae. In: Sahoo D, Seckbach J, editors. The algae world. Volume 26. Cellular origin, life in extreme habitats and astrobiology. Dordrecht (The Netherlands): Springer Netherlands; p. 3–29.
  • Sergeev VN, Knoll AH, Vorob'Eva NG. 2011. Ediacaran microfossils from the Ura Formation, Baikal-Patom Uplift, Siberia: taxonomy and biostratigraphic significance. Journal of Paleontology. 85(5):987–1011.
  • Servais T, Brocke R, Fatka O, Le Hérissé A, Molyneux SG. 1997. Value and meaning of the term acritarch. In: Fatka O, Servais T, editors. Acritarcha in Praha 1996. Acta Universitatis Carolinae, Geologica. Vol. 40; Prague: Univerzita Karlova; p. 631–643.
  • Servais T, Perrier V, Danelian T, Klug C, Martin R, Munnecke A, Nowak H, Nützel A, Vandenbroucke TRA, Williams M, et al. 2016. The onset of the ‘Ordovician Plankton Revolution’ in the late Cambrian. Palaeogeography, Palaeoclimatology, Palaeoecology. 458:12–28.
  • Shukla Y, Sharma M, Sergeev VN. 2020. Organic walled microfossils from the Neoproterozoic Owk Shale, Kurnool Group, South India. Palaeoworld. 29(3):490–511.
  • Simon M, Grossart H-P, Schweitzer B, Ploug H. 2002. Microbial ecology of organic aggregates in aquatic ecosystems. Aquatic Microbial Ecology. 28(2):175–211.
  • Slater BJ, Harvey THP, Guilbaud R, Butterfield NJ. 2017. A cryptic record of Burgess Shale-type diversity from the early Cambrian of Baltica. Palaeontology. 60(1):117–140.
  • Slater BJ, Willman S. 2019. Early Cambrian small carbonaceous fossils (SCFs) from an impact crater in western Finland. Lethaia. 52(4):570–582.
  • Slavíková K. 1968. New finds of acritarchs in the Middle Cambrian of the Barrandian (Czechoslovakia). Věstník Ústředního ústavu geologického. 43(3):199–205.
  • Smayda TJ, Reynolds CS. 2003. Strategies of marine dinoflagellate survival and some rules of assembly. Journal of Sea Research. 49(2):95–106.
  • Smetacek VS. 1985. Role of sinking in diatom life-history cycles: ecological, evolutionary and geological significance. Marine Biology. 84(3):239–251.
  • Smith WO, Codispoti LA, Nelson DM, Manley T, Buskey EJ, Niebauer HJ, Cota GF. 1991. Importance of Phaeocystis blooms in the high-latitude ocean carbon cycle. Nature. 352(6335):514–516.
  • Smith WO, Liu X, Tang KW, DeLizo LM, Doan NH, Nguyen NL, Wang X. 2014. Giantism and its role in the harmful algal bloom species Phaeocystis globosa. Deep Sea Research Part II: Topical Studies in Oceanography. 101:95–106.
  • Staplin FL, Jansonius J, Pocock SAJ. 1965. Evaluation of some acritarchous hystrichosphere genera. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen. 123(2):167–201.
  • Starr RC. 1984. Colony formation in algae. In: Linskens HF, Heslop-Harrison J, editors. Cellular interactions. Volume 17. Encyclopedia of plant physiology. Berlin (Germany): Springer-Verlag; p. 261–290.
  • Steemans P. 1989. Etude palynostratigraphique du Devonien Inferieur dans l’Ouest de l’Europe. Mémoires pour servir à l’Explication des Cartes Géologiques et Minières de la Belgique. 27:1–452.
  • Stover LE, Brinkhuis H, Damassa SP, de Verteuil L, Helby RJ, Monteil E, Partridge AD, Powell AJ, Riding JB, Smelror M, et al. 1996. Chapter 19. Mesozoic–Tertiary dinoflagellates, acritarchs and prasinophytes. In: Jansonius J, McGregor DC, editors. Palynology: principles and applications. Salt Lake City (UT): American Association of Stratigraphic Palynologists Foundation; p. 641–750.
  • Streel M, Paris F, Riegel W, Vanguestaine M. 1988. Acritarch, chitinozoan and spore stratigraphy from the Middle and Upper Devonian of northeast Libya. In: Arnauti E, Owens B, Thusu B, editors. Aspect of Northeast Libyan Biostratigraphy with emphasis on palynomorphs. Benghazi: Garyounis University Publications; p. 111–128.
  • Strother PK. 1996. Acritarchs. In: Jansonius J, McGregor DC, editors. Palynology: principles and applications. Salt Lake City (UT): American Association of Stratigraphic Palynologists Foundation; p. 81–106.
  • Strother PK. 2008. A new Cambrian acritarch from the Nolichucky Shale, Eastern Tennessee, USA. Palynology. 32(1):205–212.
  • Strother PK, Taylor WA, Beck JH, Vecoli M. 2017. Ordovician spore ‘thalli’ and the evolution of the plant sporophyte. Palynology. 41(sup1):57–68.
  • Strother PK, Taylor WA, van de Schootbrugge B, Leander BS, Wellman CH. 2020. Pellicle ultrastructure demonstrates that Moyeria is a fossil euglenid. Palynology. 44(3):461–471.
  • Sunda WG, Graneli E, Gobler CJ. 2006. Positive feedback and the development and persistence of ecosystem disruptive algal blooms. Journal of Phycology. 42(5):963–974.
  • Szczepanik Z, Żylińska A. 2021. Terreneuvian acritarch assemblages of the Holy Cross Mountains – a new approach. Geological Quarterly. 65(29):1–15.
  • Sztrum AA, Sabatini SE, Rodríguez MC. 2012. Isocitrate lyase activity and antioxidant responses in copper-stressed cultures of Chlamydomonas reinhardtii (Volvocales, Chlorophyceae). Phycologia. 51(2):135–143.
  • Tappan HN. 1980. The paleobiology of plant protists. San Francisco (CA): Freeman.
  • Thusu B. 1973. Acritarches provenant de l'Ilion Shale (Wenlockien), Utica, New York. Revue de Micropaléontologie. 16:137–146.
  • Timofeev BV. 1958. Über das Alter sächsischer Grauwacken. Mikropaläophytologische Untersuchungen von Proben aus der Weesensteiner und Lausitzer Grauwacke. Geologie. 7(3–6):826–845.
  • Timofeev BV. 1959. The ancient flora of the Baltic region and its stratigraphic significance. Trudy VNIGRI. 129:1–320.
  • Timofeev BV. 1966. Mikropaleofitologicheskoe issledovanie drevnikh svit. [Micropaleontological investigations of ancient formations]. Moscow (Russia): Akademiya Nauk SSSR, Izdatelstvo Nauka; p. 147.
  • Tonarová P. 2006. Morfologická variabilita vybraných druhů kambrických akritarch [MSc thesis]. Prague (Czech Republic): Charles University; p. 130.
  • Turner JT. 2015. Zooplankton fecal pellets, marine snow, phytodetritus and the ocean’s biological pump. Progress in Oceanography. 130:205–248.
  • Vanguestaine M. 1978. Critères palynostratigraphiques conduisant à la reconnaissance d’un pli couché Revinien dans le sondage de Grand-Halleux. Annales de la Société géologique de Belgique. 100:249–276.
  • Vanguestaine M, Brück PM. 2008. A middle and late Cambrian age for the Booley Bay Formation, County Wexford, Ireland: new acritarch data and its implications. Revue de Micropaléontologie. 51(1):67–95.
  • Vavrdová M. 1982. Phytoplankton communities of Cambrian and Ordovician age of Central Bohemia. Věstník Ústředního ústavu geologického. 57(3):45–155.
  • Vavrdová M. 1990a. Early Ordovician acritarchs from the locality Mýto near Rokycany (late Arenig, Czechoslovakia). Časopis pro mineralogii a geologii. 35(3):239–250.
  • Vavrdová M. 1990b. Coenobial acritarchs and other palynomorphs from the Arenig/Llanvirn boundary, Prague Basin. Věstník Ústředního ústavu geologického. 65(4):237–242.
  • Vavrdová M. 1997. Early Ordovician provincialism in acritarch distribution. Review of Palaeobotany and Palynology. 98(1-2):33–40.
  • Volkova, NA. 1969. Acritarchs of the Northwestern Russian Platform. In: Peive AV, Kuznetsova KI, Menner VV, Timofeev PP, editors. The Tommotian Stage and the Cambrian lower boundary problem. Moscow (Russia): Publishing Office “Nauka”; p. 224–235.
  • Wassmann P, Vernet M, Mitchell BG, Rey F. 1990. Mass sedimentation of Phaeocystis pouchetii in the Barents Sea. Marine Ecology Progress Series. 66:183–193.
  • Wei S, Bian Y, Zhao Q, Chen S, Mao J, Song C, Cheng K, Xiao Z, Zhang C, Ma W, et al. 2017. Salinity-induced palmella formation mechanism in halotolerant algae Dunaliella salina revealed by quantitative proteomics and phosphoproteomics. Frontiers in Plant Science. 8(810):810–827.
  • Wellman CH, Edwards D, Axe L. 1998. Permanent dyads in sporangia and spore masses from the Lower Devonian of the Welsh Borderland. Botanical Journal of the Linnean Society. 127(2):117–147.
  • Wellman CH, Osterloff PL, Mohiuddin U. 2003. Fragments of the earliest land plants. Nature. 425(6955):282–285.
  • Wetzel O. 1933. Die in organischer Substanz erhaltenen Mikrofossilien des baltischen Kreide-Feuersteins mit einem sedimentpetrographischen und stratigraphischen Anhang. I. Teil. Palaeontographica. 77(4–6):141–186.
  • Wood GD. 1997. The acritarch Proteolobus wallii gen. et sp. nov. from the Devonian Iquiri Formation of Bolivia: a possible coenobial alga. Micropaleontology. 43(3):325–331.
  • Wood GD. 2009. Biological implications of uniquely preserved Hoegklintia Dorning 1981 (Acritarcha) from the lower Silurian, mid-continent, United States. Palynology. 33(2):85–97.
  • Xiao M, Li M, Reynolds CS. 2018. Colony formation in the cyanobacterium Microcystis. Biological Reviews of the Cambridge Philosophical Society. 93(3):1399–1420.

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.