Papers on Tardigrada published in 2021

[19 references listed]

 Reference

 Link/s

Arakawa, K. & Numata, K. (2021) Reconsidering the “glass transition” hypothesis of intrinsically unstructured CAHS proteins in desiccation tolerance of tardigrades. Molecular Cell, 81(3): 409-410.
Degma, P., Meyer, H.A. & Hinton, J.G. (2021) Claxtonia goni, a new species of Tardigrada (Heterotardigrada, Echiniscidae) from the island of Maui (Hawaiian Islands, U.S.A., North Pacific Ocean), with notes to the genus Claxtonia Gısiorek & Michalczyk, 2019. Zootaxa, 4933(4): 527-542.
PDF file available from authors
Devetter, M., Hánìl, L., Raschmanová, N., Bryndová, M. & Schlaghamerskŭ, J. (2021) Terrestrial invertebrates along a gradient of deglaciation in Svalbard: Long-term development of soil fauna communities. Geoderma, 383: 114720.
Erdmann, W., Idzikowski, B., Kowalski, W., Kosicki, J.Z. & Kaczmarek £. (2021) Tolerance of two anhydrobiotic tardigrades Echiniscus testudo and Milnesium inceptum to hypomagnetic conditions. PeerJ, 9: e10630.
PDF file available from authors
Fukuda, Y. & Inoue, T. (2021) Structural insights into a C2 domain protein specifically found in tardigrades. Protein Science, 30(2): 513-518.
Kiosya, Y., Pogwizd, J., Matsko, Y., Vecchi, M. & Stec, D. (2021) Phylogenetic position of two Macrobiotus species with a revisional note on Macrobiotus sottilei Pilato, Kiosya, Lisi & Sabella, 2012 (Tardigrada: Eutardigrada: Macrobiotidae). Zootaxa, 4933(1): 113-135.
PDF file available from authors
Kuzdrowska, K.A., Mioduchowska, M., Gawlak, M., Bartylak, T., Kepel, A., Kepel, M. & Kaczmarek, £. (2021) Integrative description of Macrobiotus porifini sp. nov. (Macrobiotidae) from Madagascar and its phylogenetic position within the hufelandi group. The European Zoological Journal, 88(1): 375-389.
PDF file available from authors
Massa, E., Guidetti, R., Cesari, M., Rebecchi, L. & Jönsson, K.I. (2021) Tardigrades of Kristianstads Vattenrike Biosphere Reserve with description of four new species from Sweden. Scientific Reports, 11: 4861.
Mioduchowska, M., Kaèareviĉ, U., Miamin, V., Giginiak, Y., Parnikoza, I., Roszkowska, M. & Kaczmarek, £. (2021) Redescription of Antarctic eutardigrade Dastychius improvisus (Dastych, 1984) and some remarks on phylogenetic relationships within Isohypsibioidea. The European Zoological Journal, 88(1): 117-131.
PDF file available from authors
Møbjerg, N. & Neves, R. (2021) New insights into survival strategies of tardigrades. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology, 254: 110890.
PDF file available from authors
Muñoz-Li, R.R. & Jover Capote, A. (2021) Diversity of tardigrades (Tardigrada) associated to bryophytes on the garden of ferns of Santiago de Cuba. Novitates Caribaea, 17: 32-44. [In Spanish + English abstract]
Novotná Jaromìĝská, T., Trubaè, J., Zawierucha, K., Vondrovicová, L., Devetter, M. & Žárskŭ, J.D. (2021) Stable isotopic composition of top consumers in Arctic cryoconiteholes: revealing divergent roles in a supraglacial trophic network. Biogeosciences, 18: 1543-1557.
PDF file available from authors
Ono, M., Takeuchi, N. & Zawierucha, K. (2021) Snow algae blooms are beneficial for microinvertebrates assemblages (Tardigrada and Rotifera) on seasonal snow patches in Japan. Scientific Reports, 11: 5973.
PDF file available from authors
Rehamnia, B., de Cherisey, R., Braissant, O. & Lee, N.M. (2020) Biotechnological potential of tardigrades. In: Wagner, D. (Ed.) Life in Extreme Environments, 6: Lee, M.N. (Ed.): Biotechnological Applications of Extremophilic Microorganisms: 357-390.
Roszkowska, M., Wojciechowska, D., Kmita, H., Cerbin, S., Dziuba, M.K., Fia³kowska, E., Sobkowiak, R., Szyd³o, W. & Kaczmarek, £. (2021) Tips and tricks how to culture water bears: simple protocols for culturing eutardigrades (Tardigrada) under laboratory conditions. The European Zoological Journal, 88(1): 449-465.
PDF file available from authors
Shain, D.H., Novis, P.M., Cridge, A.G., Zawierucha, K., Geneva, A.J. & Dearden, P.K. (2021) Five animal phyla in glacier ice reveal unprecedented biodiversity in New Zealand’s Southern Alps. Scientific Reports, 11: 3898.
Sugiura, K. & Matsumoto, M. (2021) Spermatozoa morphology changes during reproduction and first observation of acrosomal contact in two dioecious species of Macrobiotidae (Tardigrada: Eutardigrada). Zygote, 29(1): 42-48.
Topstad, L., Guidetti, R., Majaneva, M. & Ekrem, T. (2021) Multi-marker DNA metabarcoding reflects tardigrade diversity in different habitats. Genome, 64(3): 161-164.
PDF file available from authors
Zawierucha, K., Porazinska, D.L., Ficetola, G.F., Ambrosini, R., Baccolo, G., Buda, J., Ceballos, J.L., Devetter, M., Dial, R., Franzetti, A., Fuglewicz, U., Gielly, L., £okas, E., Janko, K., Novotna Jaromerska, T., Koœciñski, A., Koz³owska, A., Ono, M., Parnikoza, I., Pittino, F., Poniecka, E., Sommers, P., Schmidt, S.K., Shain, D., Sikorska, S., Uetake, J. & Takeuchi, N. (2021) A hole in the nematosphere: tardigrades and rotifers dominate the cryoconite hole environment, whereas nematodes are missing. Journal of Zoology, 313(1): 18-36.
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Copyright by £ukasz Michalczyk (2004-2021)

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