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Abstract

Knowledge of the importance of algae in the Earth's hydrosphere emerged after the discovery of the microscope and microorganisms at the beginning of the 18th century. Due to the beauty and morphological distinctiveness of diatoms, the majority of protist research has been focused on those intriguing silicate cells. Today, the vast species diversity of diatoms can only be estimated, but the taxa that have been explored over the years are stored in collections that represent an important resource for modern taxonomy, phylogeny and evolution, ecology, paleoecology, biogeography, phylogeography, applied biology, monitoring and conservation. The Croatian National Diatom Collection (HRNDC) was established in 2018 on the basis of long-term work by Croatian algologists. Today it represents a collection of 2883 permanent specimens that store valuable information on the diatom biodiversity of all waterbodies and store important holotypes, isotypes and paratypes of described new species for science. The future brings the ­challenge of keeping the collection sustainable, digitalized, and more accessible to the scientific community as well as capable of meeting the challenge of the omics era. The HRNDC is a priceless contribution to the legacy of the Croatian natural heritage.

Keywords

diatoms collection freshwater and marine environment natural heritage

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Copyright (c) 2025 Zrinka Ljubešić, Dunja Jurina, Tin Pavlović, Mario Živolić, Maja Mucko, Sunčica Bosak, Marija Gligora Udovic, Zlatko Levkov

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Ljubešić, Z., Jurina, D., Pavlović, T., Živolić, M., Levkov, Z., Mucko, M., … Gligora Udovič, M. (2025). The Croatian National Diatom Collection – an overview and future challenges. Acta Botanica Croatica, 84(2), 141–162. https://doi.org/10.37427/botcro-2025-025
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References

  1. Adl, S. M., Bass, D., Lane, C. E., Lukeš, J., Schoch, C. L., Smirnov, A., Agatha, S., Berney, C., Brown, M. W., Burki, F., Cárde-nas, P., Čepička, I., Chistyakova, L., del Campo, J., Dunthorn, M., Edvardsen, B., Eglit, Y., Guillou, L., Hampl, V., Heiss, A. A., Hoppenrath, M., James, T. Y., Karnkowska, A., Karpov, S., Kim, E., Kolisko, M., Kudryavtsev, A., Lahr, D. J. G., Lara, E., Le Gall, L., Lynn, D. H., Mann, D. G., Massana, R., Mitchell, E. A. D., Morrow, C., Park, J. S., Pawlowski, J. W., Powell, M. J., Richter, D. J., Rueckert, S., Shadwick, L., Shimano, S., Spiegel, F. W., Torruella, G., Youssef, N., Zlatogursky, V., Zhang, Q., 2019: Revisions to the classification, nomenclature, and diversity of eukaryotes. Journal of Eukaryotic Microbiol-ogy 66(1), 4–119. https://doi.org/10.1111/jeu.12691
  2. Al-Handal, A. Y., 2022: Pinnularia furatensis sp. nov. (Bacillariophyceae): a new brackish water diatom from the Euphrates River, Southern Iraq. Fundamental and Applied Limnology 196(1), 75–81. https://doi.org/10.1127/fal/2022/1462
  3. Al-Handal, A. Y., Mucko, M., Peharec Štefanić, P., Wulff, A., 2023: Entomoneis grisslehamnensis, a new diatom (Bacillari-ophyceae) from the Baltic Coast of Sweden with taxonomic and ecological notes on Entomoneis paludosa (W. Smith) Reimer. Diatom Research 38(1), 55–68. https://doi.org/10.1080/0269249X.2023.2215110
  4. Al-Handal, A.Y., Mucko, M., Wulff, A., 2020a: Entomoneis annagodhei sp. nov., a new marine diatom (Entomoneidaceae, Bacillariophyta) from the west coast of Sweden. Diatom Research 35(3), 269–279. https://doi.org/10.1080/0269249X.2020.1787229
  5. Al-Handal, A. Y. 2020. Entomoneis annagodheae Al-Handal & Mucko, the correct name for E. annagodhei Al-Handal & Mucko. Diatom Research 35(4), 395. https://doi.org/10.1080/0269249X.2020.1842253
  6. Alverson, A. J., 2008: Molecular systematics and the diatom species. Protist 159(3), 339–353. https://doi.org/10.1016/j.protis.2008.04.001
  7. Arapov, J., Bužančić, M., Penna, A., Casabianca, S., Capellacci, S., Andreoni, F., Skejić, S., Bakrač, A., Straka, M., Mandić, J., Ninčević Gladan, Ž., 2020: High proliferation of Pseudo-nitzschia cf. arenysensis in the Adriatic Sea: ecological and morphological characterisation. Mediterranean Marine Science 21(3), 759–774. https://doi.org/10.12681/mms.22932
  8. Baricevic, A., Kogovsek, T., Smodlaka Tankovic, M., Grizancic, L., Knjaz, M., Vlasicek, I., Podolsak, I., Kuzat, N., Pfannkuchen, M., Maric Pfannkuchen, D., 2024: Coastal eukaryotic plankton diversity of the Southern Adriatic as revealed by metabarcoding. Diversity 16(5), 293. https://doi.org/10.3390/d16050293
  9. Bosak, S., Šupraha, L., Nanjappa, D., Kooistra, W. H. C. F., Sarno, D., 2015: Morphology and phylogeny of four species from the genus Bacteriastrum (Bacillariophyta). Phycologia 54(2), 130–148. https://doi.org/10.2216/14-62
  10. Brunnthaler, J., 1900: Plankton - Studien. Prošćansko jezero (Croatien). Verhandlungen der Zoologisch-Botanischen Ge-sellschaft in Wien 50, 382–383.
  11. Burić, Z., Caput, K., Viličić, D., 2004: Distribution of the diatom Cocconeis scutellum in the karstic estuary (Zrmanja, eastern Adriatic Sea). Biologia, Bratislava 59(1), 1–7.
  12. Burić, Z., Viličić, D., Caput Mihalić, K., Kralj, K., Ljubešić, N., 2008: Pseudo-nitzschia blooms in the Zrmanja River estuary (eastern Adriatic Sea). Diatom Research 23(1), 51–63. https://doi.org/10.1080/0269249X.2008.9705736
  13. Caput, K., Plenković-Moraj, A., 2000: Epiphytic diatoms on sawgrass (Cladium mariscus) in the karstic waters Plitvice Lakes, Croatia. Biologia 55, 343–350.
  14. Caput Mihalić, K., Galović, I., Wetzel, C. E., Ector, L., Ilijanić, N., Miko, S., Wishkerman, A., Hamilton, P. B., Levkov, Z., 2020: Envekadea vranaensis sp. nov. a new diatom species (Bacillariophyta) from the lacustrine Holocene sediments of Lake Vrana, Croatia. Nova Hedwigia 110(1-2), 1–19. https://doi.org/10.1127/nova_hedwigia/2019/0561
  15. Caput Mihalić, K., Gligora Udovič, M., Galović, I., Stanković, I., Šušnjara, M., Žutinić, P., Kulaš, A., Špoljarić, I., Levkov, Z., 2019: Tetramphora croatica sp. nov. –A new brackish-water species from lake vransko, Croatia. Phytotaxa 401(4), 276–286. https://doi.org/10.11646/phytotaxa.401.4.5
  16. Caput Mihalić, K., Viličić, D., Ahel, M., Burić, Z., Carić, M., 2008: Periphytic algae development in the upper reach of the Zrmanja Estuary (eastern Adriatic coast). Vie et Milieu 58(3-4), 203–213.
  17. Car, A., Hafner, D., Dupčić Radić, I., Kaleli, A., Ljubimir, S., Solak, C. N., 2021: Comparison of benthic diatom community structures on natural and artificial substrates in marine lake (Adriatic Sea). Acta Adriatica 62(1), 21–44. https://doi.org/10.32582/aa.62.1.1
  18. Car, A., Hafner, D., Ljubimir, S., Dupčić Radić, I., Bobanović-Ćolić, S., Jasprica, N., 2020: Colonization of bacteria and dia-toms on an artificial substrate in a marine lake (eastern Adriatic Sea, NE Mediterranean). Acta Botanica Croatica 79(2), 212–227. https://doi.org/10.37427/botcro-2020-028
  19. Car, A., Witkowski, A., Dobosz, S., Burfeind, D. D., Meinesz, A., Jasprica, N., Ruppel, M., Kurzydłowski, K. J., Płociński, T., 2012: Description of a new marine diatom, Cocconeis caulerpacola sp. nov. (Bacillariophyceae), epiphytic on invasive Caulerpa species. European Journal of Phycology 47(4), 433–448. https://doi.org/10.1080/09670262.2012.735255
  20. Car, A., Witkowski, A., Dobosz, S., Jasprica, N., Ljubimir, S., 2019a: Epiphytic diatom assemblages on invasive algae Caulerpa taxifolia and autochthonous Halimeda tuna and Padina sp. from the Adriatic Sea – summer/autumn aspect. Oceanological and Hydrobiological Studies 48(3), 209–226. https://doi.org/10.2478/ohs-2019-0019
  21. Car, A., Witkowski, A., Jasprica, N., Ljubimir, S., Čalić, M., Dobosz, S., Dupčić Radić, I., Hrustić, E., 2019b: Epilithic diatom communities from areas of invasive Caulerpa species (Caulerpa taxifolia and Caulerpa cylindracea) in the Adriatic Sea, NE Mediterranean. Mediterranean Marine Science 20(1), 151–173. https://doi.org/10.12681/mms.14330
  22. Car, L., 1906: Das Microplancton der Seen des Karstes. Annales de biologie Lacustre 1, 50–56.
  23. Casellato, S., 2008: Marine biology in the Adriatic Sea: An historical review. Proceedings of the California Academy of Sciences 59, 191–203.
  24. Emili, H., 1958: Hidrološka istraživanja na Plitvičkim jezerima (Hydrological research on the Plitvice Lakes). In: Šafar, J. (ed.), Plitvička jezera, 173–226. Nacionalni park Plitvička jezera, Grafički zavod Hrvatske, Zagreb.
  25. Ercegović, A., 1925: Litofitska vegetacija vapnenaca i dolomita u Hrvatskoj (Lithophytic vegetation of limestone and do-lomite in Croatia). Acta Botanica Croatica 1(1), 64–114.
  26. Ercegović, A., 1936: Études qualitative et quantitative du phytoplancton dans les eaux côtiéres de l’Adriatique oriental moyen au cours de l’année 1934. Acta Adriatica 1, 1–124.
  27. European Community, 2000: Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a framework for Community action in the field of water policy. Official Journal of the European Commu-nities L327, 1–72.
  28. Gligora, M., Kralj, K., Plenković-Moraj, A., Hinz, F., Acs, E., Grigorszky, I., Cocquyt, C., Van de Vijver, B., 2009: Observations on the diatom Navicula hedinii Hustedt (Bacillariophyceae) and its transfer to a new genus Envekadea Van de Vijver et al. gen. nov. European Journal of Phycology 44(1), 123–138. https://doi.org/10.1080/09670260802389783
  29. Gligora Udovič, M., Cvetkoska, A., Žutinić, P., Bosak, S., Stanković, I., Špoljarić, I., Mršić, G., Kralj Borojević, K., Ćukurin, A., Plenković-Moraj, A., 2017: Defining centric diatoms of most relevant phytoplankton functional groups in deep karst lakes. Hydrobiologia 788, 169–191. https://doi.org/10.1007/s10750-016-2996-z
  30. Gligora Udovič, M., Kulaš, A., Šušnjara, M., Arapov, J., Blanco, S., Levkov, Z., 2022: Cymbopleura amicula stat nov. et. nom. nov. (Bacillariophyceae) - a rare diatom species from a karst river in Croatia. Phytotaxa 532(2), 139–151. https://doi.org/10.11646/phytotaxa.532.2.2
  31. Gligora Udovič, M., Ljubešić, Z., 2021: The Croatian National Diatom Collection. Acta Botanica Croatica 80(1). Retrieved October 24, 2024 from https://www.abc.botanic.hr/index.php/abc/article/view/3184
  32. Gligora Udovič, M., Šušnjara, M., Kulaš, A., Goreta, G., Arapov, J., Levkov, Z., 2023: One new species of Aneumastus D.G. Mann et Stickle (Bacillariophyceae) from Krka River, Croatia. Fottea 23(1), 21–29. https://doi.org/10.5507/fot.2022.010
  33. Gligora Udovič, M., Žutinić, P., Kralj Borojević, K., Plenković-Moraj, A., 2015: Co-occurrence of functional groups in phy-toplankton assemblages dominated by diatoms, chrysophytes and dinoflagellates. Fundamental and Applied Limnolo-gy 187(2), 101–111. https://doi.org/10.1127/fal/2015/0759
  34. Gligora Udovič, M., Žutinić, P., Piltaver, I. K., Kulaš, A., Ozimec, R., Tofilovska, S., 2018: Gomphosphenia plenkoviciae sp. nov., a new species from Crveno jezero, Croatia. Phytotaxa 351(3), 229–238. https://doi.org/10.11646/phytotaxa.351.3.4
  35. Godrijan, J., Marić, D., Imešek, M., Janeković, I., Schweikert, M., Pfannkuchen, M., 2012: Diversity, occurrence, and habi-tats of the diatom genus Bacteriastrum (Bacillariophyta) in the northern Adriatic Sea, with the description of B. jadranum sp. nov. Botanica Marina 55(4), 415–426. https://doi.org/10.1515/bot-2011-0021
  36. Grbin, D., Pfannkuchen, M., Babić, I., Mejdandžić, M., Mihanović, H., Marić Pfannkuchen, D., Godrijan, J., Peharec Štefan-ić, P., Olujić, G., Ljubešić, Z., 2017: Multigene phylogeny and morphology of newly isolated strain of Pseudo-nitzschia mannii Amato & Montresor (Adriatic Sea). Diatom Research 32(1), 127-131. https://doi.org/10.1080/0269249X.2017.1284158
  37. Grižančić, L., Baričević, A., Smodlaka Tanković, M., Vlašiček, I., Knjaz, M., Podolšak, I., Kogovšek, T., Pfannkuchen, M. A., Marić Pfannkuchen, D., 2023: A metabarcode based (species) inventory of the northern Adriatic phytoplankton. Bio-diversity Data Journal 11, e106947. https://doi.org/10.3897/BDJ.11.e106947
  38. Guiry, M. D., Guiry, G. M., 2024: AlgaeBase. World-wide electronic publication, University of Galway. Retrieved Septem-ber 25, 2024 from https://www.algaebase.org
  39. Hafner, D., Car, A., Jasprica, N., Kapetanović, T., Dupčić Radić, I., 2018a: Relationship between marine epilithic diatoms and environmental variables in oligotrophic bay, NE Mediterranean. Mediterranean Marine Science 19(2), 223–239. https://doi.org/10.12681/mms.14151
  40. Hafner, D., Jasprica, N., Car, A., 2018b: Taxonomic survey of benthic diatoms in Neum Bay, southeastern Adriatic. Natura Croatica 27(1), 1–26. https://doi.org/10.20302/NC.2018.27.1
  41. Hajós, M., 1973: Faciological and stratigraphic importance of the Miocene diatoms in Hungary. Beihefte zur Nova Hed-wigia 45, 365–390.
  42. Hanžek, N., Gligora Udovič, M., Kajan, K., Borics, G., Várbíró, G., Stoeck, T., Orlić, S., Stanković, I., 2023: Comparative iden-tification of phytoplankton taxonomic and functional group approach in karst lakes using classical microscopy and eDNA metabarcoding for ecological status assessment. Hydrobiologia 851, 1015–1034. https://doi.org/10.1007/s10750-023-05344-x
  43. Hanžek, N., Gligora Udovič, M., Kajan, K., Borics, G., Várbíró, G., Stoeck, T., Žutinić, P., Orlić, S., Stanković, I., 2021: As-sessing ecological status in karstic lakes through the integration of phytoplankton functional groups, morphological approach and environmental DNA metabarcoding. Ecological Indicators 131, 108166. https://doi.org/10.1016/j.ecolind.2021.108166
  44. Hasle, G. R., Fryxell, G. A., 1970: Diatoms: Cleaning and mounting for light and electron microscopy. Transactions of the American Microscopical Society 89(4), 469–474. https://doi.org/10.2307/3224555
  45. Hauck, T., 1872: Ueber das Massenauftreten der Nitzschia closterium (Ehr.) Sm. in der Adria. Oesterreichische Botani-sche Zeitschrift 37, 253–254.
  46. Hustedt, F., 1927-1966: Die Kieselalgen Deutschlands, Österreichs und der Schweiz mit Berücksichtigung der übrigen Länder Europas sowie der angrenzenden Meeresgebeite. In: Dr. L. Rabenhorst›s Kryptogramen-Flora von Deutsch-land, Österreich und der Schweiz. Band 7, 1–920, Akademische Verlagsgeselschaft, Leipzig.
  47. Hustedt, F., 1945: Diatomeen aus Seen und Quellgebieten der Balkan-Halbinsel. Archiv für Hydrobiologie 40(4), 867–973.
  48. Hustedt, F., 1955: Neue und wenig bekannte Diatomeen. VIII. Abhandlungen des Naturwissenschaftlichen Verein zu Bremen 34, 47–68.
  49. Jörgensen, E., 1920: Mediterranean Ceratia. Report on the Danish oceanographical expeditions 1908-10 to the Medi-terranean and adjacent seas. II Biology J1, 1–110. Copenhagen.
  50. Jörgensen, E., 1923: Mediterranean Dinophysiaceae - Report on the Danish oceanographical expeditions 1908–1910 to the Mediterranean and adjacent seas. II Biology. 2., 1–48. Copenhagen.
  51. Jurilj, A., 1957: Flora of Diatoms of Sarmatic Sea in Environs of Zagreb. Acta Biologica I, 28, 5–153.
  52. Kanjer, L., Mucko, M., Car, A., Bosak, S., 2019: Epiphytic diatoms on Posidonia oceanica (L.) Delile leaves from eastern Adriatic Sea. Natura Croatica 28(1), 1–20. https://doi.org/10.20302/NC.2019.28.1
  53. Kolda, A., Petrić, I., Mucko, M., Gottstein, S., Žutinić, P., Goreta, G., Ternjej, I., Rubinić, J., Radišić, M., Gligora Udovič, M., 2019: How environment selects: Resilience and survival of microbial mat community within intermittent karst spring Krčić (Croatia). Ecohydrology 12(2), 16. https://doi.org/10.1002/eco.2063
  54. Kralj, K., Plenković-Moraj, A., Gligora, M., Primc-Habdija, B., Šipoš, L., 2006: Structure of periphytic community on artifi-cial substrata: influence of depth, slide orientation and colonization time in karstic Lake Visovačko jezero, Croatia. Hydrobiologia 560, 249–258. https://doi.org/10.1007/s10750-005-1330-y
  55. Kralj Borojević, K., Gligora Udovič, M., Žutinić, P., Várbíró, G., Plenković Moraj, A., 2017: Do benthic diatom assemblages reflect abiotic typology: a case study of Croatian streams and rivers. Acta Botanica Croatica 76(1), 1–11. https://doi.org/10.1515/botcro-2016-0051
  56. Krmpotić, J., 1914: Prilog zimskoj flori i fauni Plitvičkih jezera (A contribution to the winter flora and fauna of the Plitvice Lakes). Prirodoslovna istraživanja Hrvatske i Slavonije, Jugoslavenska Akademija Znanosti i Umjetnosti 3, 26–32.
  57. Kulaš, A., Gligora Udovič, M., Ector, L., Van de Vijver, B., 2020: Analysis of the type material of Achnanthes hauckiana Grunow (Achnanthaceae, Bacillariophyceae). Botany Letters 167(4), 439–452. https://doi.org/10.1080/23818107.2020.1808527
  58. Kulaš, A., Gligora Udovič, M., Tapolczai, K., Žutinić, P., Orlić, S., Levkov, Z., 2022: Diatom eDNA metabarcoding and mor-phological methods for bioassessment of karstic river. Science of The Total Environment 829, 154536. https://doi.org/10.1016/j.scitotenv.2022.154536
  59. Kulaš, A., Marković, T., Žutinić, P., Kajan, K., Karlović, I., Orlić, S., Keskin, E., Filipović, V., Gligora Udovič, M., 2021: Succes-sion of microbial community in a small water body within the alluvial aquifer of a large river. Water 13(2), 115. https://doi.org/10.3390/w13020115
  60. Kützing, F. T., 1844: Die Kieselschaligen. Bacillarien oder Diatomeen. Nordhausen.
  61. Kützing, F. T., 1845: Phycologia Germanica, d.i. Deutschlands Algen in bündigen Beschreibungen. Nebst einer Anleitung zum Untersuchen und Bestimmen dieser Gewächse für Anfänger. Nordhausen: zu finden bei Wilh. Köhne.
  62. Levkov, Z., Krstić, S., Metzeltin, D., Nakov, T., 2007: Diatoms of Lakes Prespa and Ohrid, about 500 taxa from ancient lake system. Iconographia Diatomologica 16, 1–613.
  63. Levkov, Z., Mihalić, K. C., Ector, L., 2010: A taxonomical study of Rhoicosphenia Grunow (Bacillariophyceae) with a key for identification of selected taxa. Fottea 10(2), 145–200. https://doi.org/10.5507/fot.2010.010
  64. Li, C., Gastineau, R., Turmel, M., Witkowski, A., Otis, C., Car, A., Lemieux, C., 2019: Complete chloroplast genome of the tiny marine diatom Nanofrustulum shiloi (Bacillariophyta) from the Adriatic Sea. Mitochondrial DNA. Part B, Resources 4(2), 3374–3376. https://doi.org/10.1080/23802359.2019.1673245
  65. Ljubešić, Z., Bosak, S., Viličić, D., Borojević, K. K., Marić, D., Godrijan, J., Ujević, I., Peharec, P., Đakovac, T., 2011: Ecology and taxonomy of potentially toxic Pseudo-nitzschia species in Lim Bay (north-eastern Adriatic Sea). Harmful Algae 10(6), 713–722. https://doi.org/10.1016/j.hal.2011.06.002
  66. Lobarzewski, H. R., 1840: Einige neue Diatomaceen Agardh et auct. der Ostküste des Adriatischen Meeres. Linnaea 14, 265–277
  67. Lobban, C. S., Majewska, R., Ashworth, M., Bizsel, N., Bosak, S., Kooistra, W. H. C. F., Lam, D. W., Navarro, J. N., Pennesi, C., Sato, S., Van de Vijver, B., Witkowski, A., 2021: Diatom genus Hyalosira (Rhabdonematales emend.) and resolution of its polyphyly in Grammatophoraceae and Rhabdonemataceae with a new genus, Placosira, and five new Hyalosira species. Protist 172(3), 125816. https://doi.org/10.1016/j.protis.2021.125816
  68. Majewska, R., Ashworth, M. P., Bosak, S., Goosen, W. E., Nolte, C., Filek, K., Van de Vijver, B., Taylor, J. C., Manning, S. R., Nel, R., 2021: On sea turtle‐associated Craspedostauros (Bacillariophyta), with description of three novel species. Journal of Phycology 57(1), 199–218. https://doi.org/10.1111/jpy.13086
  69. Majewska, R., Bosak, S., Frankovich, T. A., Ashworth, M. P., Sullivan, M. J., Robinson, N. J., Lazo-Wasem, E. A., Pinou, T., Nel, R., Manning, S. R., Van de Vijver, B., 2019: Six new epibiotic Proschkinia (Bacillariophyta) species and new insights into the genus phylogeny. European Journal of Phycology 54(4), 609–631. https://doi.org/10.1080/09670262.2019.1628307
  70. Mann, D. G., Droop, S. J. M., 1996: 3. Biodiversity, biogeography and conservation of diatoms. Hydrobiologia 336(1), 19–32. https://doi.org/10.1007/BF00010816
  71. Matek, A., Mucko, M., Casotti, R., Trano, A. C., Achterberg, E. P., Mihanović, H., Čižmek, H., Čolić, B., Cuculić, V., Ljubešić, Z., 2023: Phytoplankton diversity and co-dependency in a stratified oligotrophic ecosystem in the south Adriatic Sea. Water 15(12), 2299. https://doi.org/10.3390/w15122299
  72. Medlin, L. K., Kaczmarska, I., 2004: Evolution of the diatoms: V. Morphological and cytological support for the major clades and a taxonomic revision. Phycologia 43(3), 245–270. https://doi.org/10.2216/i0031-8884-43-3-245.1
  73. Mejdandžić, M., Bosak, S., Nakov, T., Ruck, E., Orlić, S., Gligora Udovič, M., Peharec Štefanić, P., Špoljarić, I., Mršić, G., Ljubešić, Z., 2018: Morphological diversity and phylogeny of the diatom genus Entomoneis (Bacillariophyta) in marine plankton: six new species from the Adriatic Sea. Journal of Phycology 54(2), 275–298. https://doi.org/10.1111/jpy.12622
  74. Mejdandžić, M., Bosak, S., Orlić, S., Gligora Udovič, M., Peharec Štefanić, P., Špoljarić, I., Mršić, G., Ljubešić, Z., 2017: En-tomoneis tenera sp. nov., a new marine planktonic diatom (Entomoneidaceae, bacillariophyta) from the Adriatic Sea. Phytotaxa 292(1), 001–018. https://doi.org/10.11646/phytotaxa.292.1.1
  75. Mejdandžić, M., Ivanković, T., Pfannkuchen, M., Godrijan, J., Pfannkuchen, D. M., Hrenović, J., Ljubešić, Z., 2015: Coloniza-tion of diatoms and bacteria on artificial substrates in the northeastern coastal Adriatic Sea. Acta Botanica Croatica 74(2), 407–422. https://doi.org/10.1515/botcro-2015-0030
  76. Mihaljević, M., Stević, F., Horvatić, J., Hackenberger Kutuzović, B., 2009: Dual impact of the flood pulses on the phyto-plankton assemblages in a Danubian floodplain lake (Kopački Rit Nature Park, Croatia). Hydrobiologia 618, 77–88. https://doi.org/10.1007/s10750-008-9550-6
  77. Mihaljević, M., Stević, F., Špoljarić, D., Pfeiffer, T. Ž., 2015: Spatial pattern of phytoplankton based on the morpholo-gy‐based functional approach along a river–floodplain gradient. River Research and Applications 31(2), 228–238. https://doi.org/10.1002/rra.2739
  78. Mihaljević, M., Špoljarić, D., Stević, F., Cvijanović, V., Hackenberger Kutuzović, B., 2010: The influence of extreme floods from the River Danube in 2006 on phytoplankton communities in a floodplain lake: Shift to a clear state. Limnologica - Ecology and Management of Inland Waters 40(3), 260–268. https://doi.org/10.1016/j.limno.2009.09.001
  79. Mihaljević, M., Špoljarić, D., Stević, F., Žuna Pfeiffer, T., 2013: Assessment of flood-induced changes of phytoplankton along a river–floodplain system using the morpho-functional approach. Environmental Monitoring and Assessment 185, 8601–8619. https://doi.org/10.1007/s10661-013-3198-z
  80. Miho, A., Lange-Bertalot, H., 2006: Diversity of the genus Placoneis in Lake Ohrid and other freshwater habitats of Alba-nia. In: Witkowski, A. (ed.), Proceedings of the Eighteenth International Diatom Symposium, 301–313. Biopress Ltd., Bristol.
  81. Molinari-Novoa, E. A., Guiry, M. D., 2021: Nomenclatural notes on algae. V. New names for various algal taxa, mostly at the species rank. Notulae Algarum 184, 1–17.
  82. Mozetič, P., Cangini, M., Francé, J., Bastianini, M., Bernardi Aubry, F., Bužančić, M., Cabrini, M., Cerino, F., Čalić, M., D’Adamo, R., Drakulović, D., Finotto, S., Fornasaro, D., Grilli, F., Kraus, R., Kužat, N., Marić Pfannkuchen, D., Ninčević Gladan, Ž., Pompei, M., Rotter, A., Servadei, I., Skejić, S., 2019: Phytoplankton diversity in Adriatic ports: Lessons from the port baseline survey for the management of harmful algal species. Marine Pollution Bulletin 147, 117–132. https://doi.org/10.1016/j.marpolbul.2017.12.029
  83. Mucko, M., Bosak, S., Casotti, R., Balestra, C., Ljubešić, Z., 2018: Winter picoplankton diversity in an oligotrophic marginal sea. Marine Genomics 42, 14–24. https://doi.org/10.1016/j.margen.2018.09.002
  84. Mucko, M., Bosak, S., Mann, D. G., Trobajo, R., Wetzel, C. E., Peharec Štefanić, P., Ljubešić, Z., 2020: A polyphasic ap-proach to the study of the genus Nitzschia (Bacillariophyta): Three new planktonic species from the Adriatic Sea. Journal of Phycology 57(1), 143–159. https://doi.org/10.1111/jpy.13085
  85. Nenadović, T., Šarčević, T., Čižmek, H., Godrijan, J., Marić Pfannkuchen, D., Pfannkuchen, M., Ljubešić, Z., 2015: Devel-opment of periphytic diatoms on different artificial substrates in the Eastern Adriatic Sea. Acta Botanica Croatica 74(2), 377–392. https://doi.org/10.1515/botcro-2015-0026
  86. Nikolić, T. (ed.), 2024: Flora Croatica Database. Faculty of Science, University of Zagreb. Retrieved September 15, 2024 from https://hirc.botanic.hr/fcd/
  87. Odell, S. G., Lazo, G. R., Woodhouse, M. R., Hane, D.L., Sen, T. Z., 2017: The art of curation at a biological database: Princi-ples and application. Current Plant Biology 11–12, 2–11 https://doi.org/10.1016/j.cpb.2017.11.001
  88. Penna, A., Casabianca, S., Perini, F., Bastianini, M., Riccardi, E., Pigozzi, S., Scardi, M., 2013: Toxic Pseudo-nitzschia spp. in the northwestern Adriatic Sea: characterization of species composition by genetic and molecular quantitative anal-yses. Journal of Plankton Research 35(2), 352–366. https://doi.org/10.1093/plankt/fbs093
  89. Pevalek, I., 1919: Prilog poznavanju alga Hrvatske i Slavonije (A contribution to the knowledge of the algae of Croatia and Slavonia). Prirodoslovna istraživanja Hrvatske i Slavonije, Jugoslavenska Akademija Znanosti i Umjetnosti 14, 153–162.
  90. Pevalek, I., 1925: Oblici fitogenih inkrustacija i sedre na Plitvičkim jezerima i njihovo geološko znamenovanje (Forms of phytogenic encrustations and tufa on Plitvica lakes and their geological designation). Glasnik Hrvatskog Prirodoslov-nog Društva 37/38, 101–110.
  91. Pevalek, I., 1935: Der Travertin und die Plitvice Seen. Verhandle Internationalen Verein Limnologie 7, 165–181.
  92. Pevalek, I., 1938: Biodinamika Plitvičkih jezera i njihova zaštita (Biodynamics of the Plitvice Lakes and their protection). Zaštita Prirode 1, 40–61.
  93. Pinseel, E., Kulichová, J., Scharfen, V., Urbánková, P., de Vijver, B. V., Vyverman, W., 2019: Extensive cryptic diversity in the terrestrial diatom Pinnularia borealis (Bacillariophyceae). Protist 170(2), 121–140. https://doi.org/10.1016/j.protis.2018.10.001
  94. Plenković, A., Marčenko, E., Srdoč, D., 1989: Periphyton growth on glass slides in aquatic ecosystems of the National Park Plitvice Lakes. Periodicum Biologorum 91/1, 88–90.
  95. Plenković-Moraj, A., 1995: Diatoms (Bacillariophyceae) of the Croatian freshwaters. Acta Botanica Croatica 54(1), 22–33.
  96. Plenković-Moraj, A., 1996: Croatian freshwater Cyanophyceae. Natura Croatica 5(4), 299–315.
  97. Plenković-Moraj, A., Kralj, K., Gligora, M., 2008: The effect of current velocity on diatom colonization on the glass slides in unpolluted headwater creek. Periodicum Biologorum 110(3), 291–295.
  98. Pletikapić, G., Berquand, A., Radić, T. M., Svetličić, V., 2012: Quantitative nanomechanical mapping of marine diatom in seawater using peak force tapping atomic force microscopy. Journal of Phycology 48(1), 174–185. https://doi.org/10.1111/j.1529-8817.2011.01093.x
  99. Revelante, N., 1985: A catalogue of phytoplankton reported for the Rovinj area of the northern Adriatic. Thalassia Jugo-slavica 21, 139–169.
  100. Rotter, A., Barbier, M., Bertoni, F., Bones, A. M., Cancela, M. L., Carlsson, J., Carvalho, M. F., Cegłowska, M., Chirivel-la-Martorell, J., Conk Dalay, M., Cueto, M., Dailianis, T., Deniz, I., Díaz-Marrero, A. R., Drakulovic, D., Dubnika, A., Ed-wards, C., Einarsson, H., Erdoǧan, A., Eroldoǧan, O. T., Ezra, D., Fazi, S., FitzGerald, R. J., Gargan, L. M., Gaudêncio, S. P., Gligora Udovič, M., Ivošević DeNardis, N., Jónsdóttir, R., Kataržytė, M., Klun, K., Kotta, J., Ktari, L., Ljubešić, Z., Lukić Bilela, L., Mandalakis, M., Massa-Gallucci, A., Matijošytė, I., Mazur-Marzec, H., Mehiri, M., Nielsen, S. L., Novoveská, L., Overlingė, D., Perale, G., Ramasamy, P., Rebours, C., Reinsch, T., Reyes, F., Rinkevich, B., Robbens, J., Röttinger, E., Ru-dovica, V., Sabotič, J., Safarik, I., Talve, S., Tasdemir, D., Theodotou Schneider, X., Thomas, O. P., Toruńska-Sitarz, A., Varese, G. C., Vasquez, M. I., 2021: The essentials of marine biotechnology. Frontiers in Marine Science 8, 1–53. https://doi.org/10.3389/fmars.2021.629629
  101. Ruck, E. C., Nakov, T., Alverson, A. J., Theriot, E. C., 2016: Phylogeny, ecology, morphological evolution, and reclassifica-tion of the diatom orders Surirellales and Rhopalodiales. Molecular Phylogenetics and Evolution 103, 155–171. https://doi.org/10.1016/j.ympev.2016.07.023
  102. Schiller, J., 1913a: Bericht über die bot. Unters, und deren vorl. Ergebnisse der III. KreuzungS. M. S. „Najade» im Sommer 1911. Glasnik Hrvatskog Prirodoslovnog Društva za godinu 1913. I. Rasprave, 216–217.
  103. Schiller, J., 1913b: Vorläufige Ergebnisse der Phytoplankton Untersuchungen auf den Fahrten S.M.S. «Najade« in der Adria 1911–1912. I Die Coccolithophoriden. Sitzungsberichte der kaiserlichen akademie der wissenschaften mathe-matisch-naturwissenschaftliche klasse 122, 597–617.
  104. Schiller, J., 1925a: Die planktischen Vegetationen des Adriatischen Meeres. A. Die Coccolithophoriden Vegetation in den Jahren 1911–14. Archiv für protistenkunde 51, 1–130.
  105. Schiller, J., 1925b: Die planktischen Vegetationen des Adriatischen Meeres. B. Chrysomonadina, Heterokontae, Crypto-monadina, Eugleninae, Volvocales. 1. Systematischer Teil. Archiv für protistenkunde 53, 59–124.
  106. Schiller, J., 1933: Dinoflagellatae. Rabenhorst’s Kryptogamen-Flora von Deutschland, Österreich und der Schweiz. Aka-demische Verlagsgeselschaft, Leipzig.
  107. Schröder, B., 1911: Adriatisches Phytoplankton. Sitzungsberichte der Kaiserlichen akademie der wissenschaften mathe-matisch-naturwissenschaftliche klasse 120, 601–657.
  108. Schussnig, B., 1914: Aus der Biologie des adriatischen Phytoplanktons. Verhandlungen der zoologischbotanischen ge-sellschaft in Wien 64, 299–309.
  109. Simonsen, R., 1987: Atlas and catalogue of the diatom types of Friedrich Hustedt. J. Cramer, Berlin, Stuttgart.
  110. Šimunović, M., Kulaš, A., Žutinić, P., Goreta, G., Gligora Udovič, M., 2022: Phytoplankton metrics for trophic and ecologi-cal status assessment of a natural karstic lake. Acta Botanica Croatica 81(2), 185–196. https://doi.org/10.37427/botcro-2022-016
  111. Seveno, J., Car, A., Sirjacobs, D., Fullgrabe, L., Dupčić Radić, I., Lejeune, P., Leignel, V., Mouget, J-L., 2023: Benthic diatom blooms of blue Haslea spp. in the Mediterranean Sea. Marine Drugs 21(11), 583. https://doi.org/10.3390/md21110583
  112. Seveno, J., Witkowski, A., Car, A., Gastineau, R., Sirjacobs, D., Leignel, V., Mouget, J-L., 2024: Impact of blue Haslea spp. blooms on benthic diatom and bacterial communities. Phycology 4(3), 465–507. https://doi.org/10.3390/phycology4030027
  113. Skvortsov, B. V., 1971: Diatoms from Yenisei River and its tributaires, middle part of Siberia, western Asia. Philippine Journal of Science 98, 57–113.
  114. Smodlaka Tanković, M., Baričević, A., Gerić, M., Domijan, A. M., Pfannkuchen, D. M., Kužat, N., Ujević, I., Kuralić, M., Rožman, M., Matković, K., Novak, M., Žegura, B., Pfannkuchen, M., Gajski, G., 2022: Characterisation and toxicological activity of three different Pseudo-nitzschia species from the northern Adriatic Sea (Croatia). Environmental Research 214(4), 114108. https://doi.org/10.1016/j.envres.2022.114108
  115. Spaulding, S. A., Potapova, M. G., Bishop, I. W., Lee, S. S., Gasperak, T. S., Jovanoska, E., Furey, P. C., Edlund, M. B., 2021: Diatoms.org : supporting taxonomists, connecting communities. Diatom Research 36(4), 291–304. https://doi.org/10.1080/0269249X.2021.2006790
  116. Stanković, I., Udovič, M.G., Šušnjara, M., Alegro, A., Levkov, Z., 2022: Diversity and ecology of benthic diatoms in a mire with narrow pH gradient. Fottea 22(1), 39–55. https://doi.org/10.5507/fot.2021.015
  117. Stanković, I., Vlahović, T., Gligora Udovič, M., Várbíró, G., Borics, G., 2012: Phytoplankton functional and mor-pho-functional approach in large floodplain rivers. Hydrobiologia 698, 217–231. https://doi.org/10.1007/s10750-012-1148-3
  118. Stević, F., Mihaljević, M., Špoljarić, D., 2013: Changes of phytoplankton functional groups in a floodplain lake associated with hydrological perturbations. Hydrobiologia 709, 143–158. https://doi.org/10.1007/s10750-013-1444-6
  119. Trábert, Z., Buczkó, K., Borics, G., Gligora Udovič, M., Karthick, B., Ector, L., Földi, A., Kiss, K.T.; Ács, É., 2019: Biogeography and morphology of a poorly known diatom Dorofeyukea rostellata (Hustedt) Kulikovskiy & Kociolek. Limnetica 38(2), 743–758. https://doi.org/10.23818/limn.38.43
  120. Turk Dermastia, T., Vascotto, I., Francé, J., Stanković, D., Mozetič, P., 2023: Evaluation of the rbcL marker for metabar-coding of marine diatoms and inference of population structure of selected genera. Frontiers in Microbiology 14, 1071379. https://doi.org/10.3389/fmicb.2023.1071379
  121. Van De Vijver, B., Robert, K., Witkowski, A., Bosak, S., 2020: Majewskaea gen. nov. (Bacillariophyta), a new marine benthic diatom genus from the Adriatic Sea. Fottea 20(2), 112–120. https://doi.org/10.5507/fot.2020.001
  122. Vaulot, D., Sim, C. W. H., Ong, D., Teo, B., Biwer, C., Jamy, M., Lopes dos Santos, A., 2022: metaPR2: A database of eukary-otic 18S rRNA metabarcodes with an emphasis on protists. Molecular Ecology Resourses 22(8), 3188–3201. https://doi.org/10.1111/1755-0998.13674
  123. Viličić, D., Ljubešić, Z., 2017: Razvoj metoda istraživanja fitoplanktona u Jadranskom moru (Development of phytoplank-ton research methods in the Adriatic Sea). Hrvatske vode 2, 49–58.
  124. Viličić, D., Marasović, I., Mioković, D., 2002: Checklist of phytoplankton in the eastern Adriatic Sea. Acta Botanica Croatica 61(1), 57–91.
  125. Vouk, V., 1936: Komparativno-biološke studije o termama (Comparative-biological studies on thermae). Jugoslavenska Akademija Znanosti i Umjetnosti 256/80, 195–228.
  126. Vouk, V., 1947: Biologijska svojstva termalnih voda i njihovo značenje za balneologiju (Biological properties of thermal waters and their significance for balneology). Jugoslavenska Akademija Znanosti i Umjetnosti 273, 5–25.
  127. Vouk. V., 1948: Thermal-vegetation and ecological valences theory. Hydrobiologia 1, 90–95.
  128. Žutinić, P., Gligora Udovič, M., Kralj Borojević, K., Plenković-Moraj, A., Pádisak, J., 2014: Morpho-functional classifications of phytoplankton assemblages of two deep karstic lakes. Hydrobiologia 740, 147–166. https://doi.org/10.1007/s10750-014-1950-1
  129. Žutinić, P., Kulaš, A., Levkov, Z., Šušnjara, M., Orlić, S., Kukić, S., Goreta, G., Valić, D., Gligora Udovič, M., 2020: Ecological status assessment using periphytic diatom communites - case study Krka River. Macedonian Journal of Ecology and Environment 22(1), 29–44. https://doi.org/10.59194/MJEE20221029zh

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