About the collection
Novakovskaya I.V., Patova E.N. Collection of live strains of microalgae of the Institute of Biology, Komi Scientific Center, Ural Branch of the Russian Academy of Sciences and prospects for its use // Izvestiya of the Komi Scientific Center, Ural Branch of the Russian Academy of Sciences, 2012. 2(10): 36-41
Novakovskaya I.V., Patova E.N. Cyanoprokaryotes in the collection of living cultures of the Institute of Biology, Komi Scientific Center, Ural Branch of the Russian Academy of Sciences (SYKOA) // Proceedings of the Kola Scientific Center of the Russian Academy of Sciences: Applied Ecology of the North: I International Scientific School-Conference “Cyanoprokaryotes (cyanobacteria): systematics, ecology, distribution”: special issue, 2016. 7(41), 4: 112-119.
Floristic lists
Patova E.N., Novakovskaya I.V. Soil algae of the Northeastern European Russia. Nov. Sist. Nizshikh Rastenii, 2018. 52: 311-353. https://doi.org/10.31111/nsnr/2018.52.2.311. (In Russian)
Patova E.N., Novakovskaya I.V. Comparative Analysis of Soil Algal Flora of the Tundra, Mountain and Boreal Ecosystems of the European Northeast: The fourth International Scientific Conference on Ecology and Geography of Plants and Plant Communities, KnE Life Sciences, 2018. 151-159. https://doi.org/10.18502/kls.v4i7.3233.
Davydov D., Patova E. The diversity of Cyanoprokaryota from freshwater and terrestrial habitats in the Eurasian Arctic and Hypoarctic. Hydrobiologia, 2018. 811: 119-138
Novakovskaya I.V., Patova E.N., Boldina O.N., Patova A.D., Shadrin D.M. Molecular phylogenetic analyses, ecology and morphological characteristics of Chloromonas reticulata (Goroschankin) Gobi which causes red blooming of snow in the Subpolar Urals. Cryptogamie, Algologie, 2018. 39: 199-213. https://doi.org/10.7872/crya/v39.iss2.2018.199
Novakovskaya I.V., Patova E.N. New and rare species of algae (Chlorophyta, Streptophyta) for soils in the northeast of the European part of Russia // Vestnik IB, 2018. 2: 8-13. https://doi.org/10.31140/j.vestnikib.2018.2(204).2 (In Russian)
Davydov D.A, Patova E.N., Shalygin S.S., Vilnet, A.A., Novakovskaya I.V. The problem of Cyanobacteria cryptic speciation in the Arctic regio. Theoretical and Applied Ecology, 2020. 1: 110-116. https://doi.org/10.25750/1995-4301-2020-1-110-116
Novakovskaya I.V., Dubrovskiy Y.A., Patova E.N., Novakovskiy A.B., Sterlyagova I.N. Influence of ecological factors on soil algae in different types of mountain tundra and sparse forests in the Northern Urals. Phycologia, 2020. 59(4): 320-329. https://doi.org/10.1080/00318884.2020.1754736
Neustroeva N., Mukhin V., Novakovskaya I., Patova E. Biodiversity of symbiotic algae of wood decay Basidimycetes in the Central Urals // BDI 2020 – “Information technology in biodiversity research”. III National Scientific Conference with international participation dedicated to the 100th anniversary of Academician Pavel Gorchakovskii : ARPHA Proceedings 2 (2020) III Russian National Conference “Information Technology in Biodiversity Research”. – Ural Federal University, Yekaterinburg, Russia, 2020. 83-92. https://doi.org/10.3897/ap.2.e57555. URL: https://ap.pensoft.net/article/57555/ https://doi.org/10.3897/ap.2.e57555
Novakovskaya I., Patova E., Dubrovskiy Y., Novakovskiy A., Kulyugina E. The list of cyanobacteria and algae in biological soil crusts of mountain plant communities at the Northern Urals (Russia European Northeast). Mendeley Data, 2021. V2. https://doi.org/10.17632/g4n4xvs2yk.2
Patova E.N., Stenina A.S., Shabalina Y.N., Sterlyagova I. N. Phytoplankton communities of the Vychegda river in the area of treated-wastewater intake from the pulp and paper industry // Contemporary Problems of Ecology, 2021. 14(6): 633-641. https://doi.org/10.1134/S1995425521060093
Philippov D., Ermilov S., Zaytseva V., Pestov S., Kuzmin E., Shabalina J., Sazhnev A., Ivicheva K., Sterlyagova I., Leonov M., Boychuk M., Czhobadze A., Prokina K., Dulin M., Joharchi O., Shabunov A., Shiryaeva O., Levashov A., Komarova A., Yurchenko V. Biodiversity of a boreal mire, including its hydrographic network (Shichengskoe mire, north-western Russia) // Biodiversity Data Journal, 2021. 9: e77615. https://doi.org/10.3897/bdj.9.e77615. URL: http://dx.doi.org/10.3897/BDJ.9.e77615
Novakovskaya I.V., Patova E.N., Makeeva E.G. Snow algae and cyanobacteria in several regions of the Urals and the Western Sayan // Theoretical and Applied Ecology, 2022. 3: 149-156. https://doi.org/10.25750/1995-4301-2022-3-149-156
Patova E.N., Novakovskaya I.V., Sivkov M.D. Cyanobacteria and Algae in Biological Soil Crusts of Frost Boils in the Moun-tainous Tundra of the Nether-Polar Urals // Eurasian Soil Science, 2023. 56(2): 184-197. https://doi.org/10.1134/S1064229322601822
Patova E., Novakovskaya I., Gusev E., Martynenko N. Diversity of Cyanobacteria and Algae in Biological Soil Crusts of the Northern Ural Mountain Region Assessed through Morphological and Metabarcoding Approaches // Diversity, 2023. 15: 1080. https://doi.org/10.3390/d15101080
Publications on some species
Novakovskaya I.V., Patova E.N., Boldina O.N., Patova A.D., Shadrin D.M. Molecular phylogenetic analyses, ecology and morphological characteristics of Chloromonas reticulata (Goroschankin) Gobi which causes red blooming of snow in the Subpolar Urals // Cryptogamie, Algologie, 2018. 39(2): 199-213. https://doi.org/10.7872/crya/v39.iss2.2018.199
Kapustin D., Sterlyagova I., Patova E. Morphology of Chrysastrella paradoxa stomatocysts from the Subpolar Urals (Russia) with comments on related morphotypes // Phytotaxa, 2019. 402(6): 295-300. https://doi.org/10.11646/phytotaxa.402.6.4. URL: https://biotaxa.org/Phytotaxa/article/view/phytotaxa.402.6.4
Genkal S.I., Kapustin D.A., Stenina A.S., Sterlyagova I.N., Shabalina Y.N. Morphological variability of some Bacillariophyta species of the Genus Kobayasiella Lange-Bertalot (Raphales, Naviculaceae) // International Journal on Algae, 2019. 21(4): 311-320. https://doi.org/10.1615/InterJAlgae.v21.i4.20. URL: http://www.dl.begellhouse.com/ru/journals/7dd4467e7de5b7ef,1ffe342b48020b33,7d514a10647e6be3.html.
Davydov D.A., Patova E.N., Shalygin S.S., Vilnet A.A., Novakovskaya I.V. The problem of Cyanobacteria cryptic speciation in the Arctic region, Theoretical and Applied Ecology, 2020. 1: 110-116. https://doi.org/10.25750/1995-4301-2020-1-110-116
Patova E., Novakovskaya I., Martynenko N., Gusev E., Kulikovskiy M. Mychonastes frigidus sp. nov. (Sphaeropleales/Chlorophyceae), a new species described from a mountain stream in the Subpolar Urals (Russia). Fottea, Olomouc, 2021. 21(1): 8-15. https://doi.org/10.5507/fot.2020.012
Novakovskaya. I.V., Egorova I.N., Kulakova N.V., Patova E.N., Shadrin D.M., Anissimova O.V. Morphological and phylogenetic relations of members of the genus Coelastrella (Scenedesmaceae, Chlorophyta) from the Ural and Khentii Mountains (Russia, Mongolia). Phytotaxa, 2021. 527(1): 001-020. https://doi.org/10.11646/phytotaxa.527.1.1
Novakovskaya I.V., Egorova I.N., Kulakova N.V., Patova E.N. Morphology and molecular phylogeny of representatives of the genus Coelastrella Chodat from the Urals and Khentei mountain systems.Voprosy sovremennoi algologii (Issues of modern algology), 2021. 1 (25): 93-97. URL: http://algology.ru/1630, https://doi.org/10.33624/2311-0147-2021-1(25)-93-97
Patova E.N., Novakovskaya I.V., Anisimova O.V., Goncharova N.N. Eremosphaera viridis (Chlorophyta) – a new species for the algoflora of the north-east of the European part of Russia // Botanical Journal. 2021. 106(8): 796-800. https://doi.org/10.31857/S0006813621060090. (In Russian)
Novakovskaya I.V., Egorova I.N., Kulakova N.V., Patova E.N. Morphology and molecular phylogeny of representatives of the genus Coelastrella Chodat isolated from the mountain systems of the Urals and Khentei / // Problems of modern algology, 2021. 1(25): 93-97. https://doi.org/10.33624/2311-0147-2021-1(25)-93-97. http://dx.doi.org/10.33624/2311-0147-2021-1(25)-93-97 (In Russian)
Martynenko N.A., Gusev E.S., Sterlyagova I.N., Kulikovskiy M.S. Revealing hidden diversity in the Cryptomonas erosa clade (Cryptophyceae), with the description of two new species from acidic habitats // Phycologia, 2022. 61(2): 184-194. https://doi.org/10.1080/00318884.2022.2025727. URL: http://dx.doi.org/10.1080/00318884.2022.2025727
Patova E. N., Shadrin D. M., Shalygin S. S., Novakovskaya I. V. Stigonema lichenoides sp. nov. (Nostocales, Сyanobacteria): a new species isolated from the lichen Ephebe lanata. Novosti sistematiki nizshikh rastenii, 2023. 57(2): A15-A31. https://doi.org/10.31111/nsnr/2023.57.2.A15
Novakovskaya I.V., Boldina O.N., Shadrin D.M., Patova E.N. Heterochlamydomonas uralensis sp. nov. (Chlorophyta, Chlamydomonadaceae), New Species Described from theMountain Tundra Community in the Subpolar Urals (Russia) // Diversity, 2023. 15: 673. https://doi.org/10.3390/d15050673
Davydov D., Vilnet A., Novakovskaya I., Patova E. Terrestrial Species of Drouetiella (Cyanobacteria, Oculatellaceae) from the Russian Arctic and Subarctic Regions and Description of Drouetiella ramosa sp. nov. // Diversity, 2023. 15: 132. https://doi.org/10.3390/d15020132
Novakovskaya I. V., Patova E. N., Makeeva E. G., Shadrin D. M. New records of two rare species of green algae (Chlorophyta) from snowfields of the Subpolar Urals and the Western Sayan // Novosti sistematiki nizshikh rastenii, 2024. 58(2): A33-A47. https://doi.org/10.31111/nsnr/2024.58.2.A33
Biochemical characteristics of species from the collection
Bazhukova N.V., Novakovskaya I.V., Matistov N.V. Study of three types of microalgae: Eustigmatos magnus, Dictyococcus varians and Pseudococcomyxa simplex as promising objects for biotechnology // Biology - science of the 21st century: Tez. report 17th Intern. Pushchino School-Conf. young scientists. Pushchino, 2013. 584-585. http://elibrary.ru/item.asp?id=26885359
Bazhukova N.V., Novakovskaya I.V., Matistov N.V. The use of microalgae Eustigmatos magnus, Dictyococcus varians and Pseudococcomyxa simplex as promising objects for biotechnology // Biotechnology. A look into the future: Tez. II-th Intern. virtual internet conf. Kazan, 2013. 11-13. http://www.paxgrid.ru/conference/index.php?c=biotech2013&lang=rus. (In Russian)
Matistov N.V., Shirshova T.I., Novakovskaya I.V., Patova E.N. The content and component composition of total lipids and their fatty acids in microalgae living in the European North-East of Russia // Tez. report VIII All-Russian. scientific conf. with the International participation and school of young scientists "Chemistry and technology of plant substances". Kaliningrad, 2013. http://elibrary.ru/item.asp?id=28505689 (In Russian)
Patova E.N., Novakovskaya I.V., Matistov N.V., Sivkov M.D., Volodin V.V. Microalgae of mountain habitats - promising objects for biotechnology // Physiology of plants and microorganisms - a look into the future: Mater. scientific Conf., dedicated to the memory of Professor Raisa Alexandrovna Karnachuk and the 90th anniversary of the founding of the department. Tomsk, 2013. 48-50. (In Russian)
Rudakova D.A., Novakovskaya I.V. Conditions for the cultivation of unicellular green algae Halochlorella rubescens Dang // Youth and Science in the North: Mater. II All-Russian. (XVII) youth. scientific conf. Syktyvkar, 2013. 120-121. (In Russian)
Shubakov A.A., Patova E.N., Popeyko O.V., Vityazev F.V., Mikhailova E.A. General chemical characterization of extracellular polysaccharides of the cyanobacterium Nostoc muscorum Ag. ex Born. et Flah. // Butlerov Communications, 2015. 44(11): 146-150. (In Russian)
Dymova O.V., Novakovskaya I.V., Patova E.N., Bedelny D.A., Petukhov A.A. Influence of light and temperature conditions on the content of carotenoids in the cells of microalgae Chloromonas reticulata (Goroschankin) Gobi // Biomika, 2020. 12(3): 359-366. https://doi.org/10.31301/2221-6197.bmcs.2020-24
Shubakov A.A., Patova E.N., Novakovskaya I.V., Volodin V.V. Extracellular polysaccharides of the green microalgae Pseudococcomyxa simplex (Mainx) Fott / // Butlerov Communications, 2021. 68(11): 102-107. https://doi.org/10/37952/ROI-jbc-01/21-68-11-102. (In Russian)
Shubakov A.A., Patova E.N., Novakovskaya I.V., Volodin V.V. Extracellular polysaccharides of the green microalgae Pseudococcomyxa simplex (Mainx) Fott // Butlerov Communications, 2021. 68(11): 102-107. https://doi.org/10/37952/ROI-jbc-01/21-68-11-102. (In Russian)
Tarabukin D.V., Patova E.N., Novakovskaya I.V. New hydrogel complex with immobilized microalgae cells for removal ammonium and phosphate ions from wastewater // Theoretical and Applied Ecology, 2023. 4: 61-69. https://doi.org/10.25750/1995-4301-2023-4-061-069
Dymova O. V., Parshukov V. S., Novakovskaya I. V., Patova E. N. Content of primary and secondary carotenoids in the cells of cryotolerant microalgae Chloromonas reticulata // Biochemistry (Moscow), 2024. 89(7): 1251-1259. https://doi.org/10.1134/s0006297924070071
Tarabukin D.V., Patova E.N., Novakovskaya I.V. The Prospects for Advanced Processing of Paper Sludge Using Enzymes, Microalgae and Yeast // Russian Forestry Journal., 2024. 2: 166-177. https://doi.org/10.37482/0536-1036-2024-2-166-177
Sorokin B., Gusev E.,·Namsaraev Z., Emelianova A., Patova E., Novakovskaya I., Vinokurov V., Kuzmin D. Effect of microalgae feed supplementation on growth performance and feeding efficiency of tilapia fry // Journal of Applied Phycology, 2024. 36(4): 1-14. https://doi.org/10.1007/s10811-024-03232-y
Use of collection strains in wastewater treatment, etc.
Shchemelinina T.N., Patova E.N., Tarabukin D.V., Anchugova E.M., Ocheretenko D.P., Volodin V.V. Wastewater treatment of the timber industry complex using microalgae // Ecology and Industry of Russia, 2015. 19(7): 44-47. (In Russian)
Gogonin A.V., Schemelinina T.N., Novakovskaya I.V., Patova E.N., Anchugova E.M., Lukyanov V.A., Gaeva T.N., Volodin V.V. The application of microalgae in the treatment of effluents containing both pulp-and-paper waste and municipal drainage // Bulletin of biotechnology and physico-chemical biology named after Yu.A. Ovchinnikov, 2021. 17(4): 24-34.
Patents
Shchemelinina T.N., Anchugova E.M., Tarabukin D.V., Volodin V.V., Markarova M.Yu., Patova E.N., Novakovskaya I.V. A strain of green microalgae Acutodesmus obliquus, intended for wastewater treatment from pollutants in public utilities and the pulp and paper industry // Patent for invention Patent number: 2556131 Country: Russia. Year: 2015. Date of registration: 04/01/2014. Application number: 2014112676/10. Patentee: Institute of Biology, Komi Scientific Center, Ural Branch, Russian Academy of Sciences121. (In Russian)