Bibliografia
Almela P., Justel A. and Quesada A. 2021. Heterogeneity of microbial communities in soils from the Antarctic Peninsula region. Frontiers in Microbiology 12: 280.
Arrage A.A., Phelps T.J., Benoit R.E. and White D.C. 1993. Survival of subsurface microorganisms exposed to UV radiation and hydrogen peroxide. Applied and Environmental Microbiology 59: 3545–3550
Blumthaler M. 2007. Factors, trends and scenarios of UV radiation in arctic-alpine environments. In: Ørbæk J.B., Kallenborn R., Tombre I., Hegseth E.N., Falk-Petersen S. and Hoel A.H. (eds.) Arctic Alpine Ecosystems and People in a Changing Environment. Springer, Berlin, Heidelberg.
Caldwell M.M., Bornman J.F., Ballaré C.L., Flint S.D. and Kulandaivelu G. 2007. Terrestrial ecosystems, increased solar ultraviolet radiation, and interactions with other climate change factors. Photochemical & Photobiological Sciences 6: 252–266.
Callahan B.J., Mcmurdie P.J., Rosen M.J., Han A.W., Johnson A.J.A. and Holmes S.P. 2016. DADA2: High-resolution sample inference from Illumina amplicon data. Nature Methods 13: 581–583.
Caporaso J.G., Lauber C.L., Walters W.A., Berg-Lyons D., Lozupone C.A., Turnbaugh P.J., Fierer N. and Knight R. 2011. Global patterns of 16S rRNA diversity at a depth of millions of sequences per sample. Proceedings of the National Academy of Sciences of the United States of America 108 (Supl. 1): 4516–4522.
Carpenter L.G., Reimann S., Burkholder J.B., Clerbaux C., Hall B.D., Hossaini R., Laube J.C. and Yvon-Lewis S.A. 2014. Scientific Assessment of Ozone Depletion: 2014. World Meteorological Organization Geneva 10.
Chen W., Liu H., Wurihan, Gao Y., Card S.D. and Ren A. 2017. The advantages of endophyte- infected over uninfected tall fescue in the growth and pathogen resistance are counteracted by elevated CO2. Scientific Reports 7: 6952.
Cid F.P., Inostroza N.G., Graether S.P., Bravo L.A. and Jorquera M.A. 2016. Bacterial community structures and ice recrystallization inhibition activity of bacteria isolated from the phyllosphere of the Antarctic vascular plant Deschampsia antarctica. Polar Biology 40: 1319–1331.
Davey M.C. and Pickup J. 1992. Temperature variation and its biological significance in fellfield habitats on a maritime Antarctic island. Antarctic Science 4: 383–388.
Davis P.L. 2016. Antarctic moss is home to many epiphytic bacteria that secrete antifreeze proteins. Environmental Microbiology Reports 8: 1–2.
Dieser M., Greenwood M. and Foreman C.M. 2010. Carotenoid pigmentation in Antarctic heterotrophic bacteria as a strategy to withstand environmental stresses. Arctic, Antarctic, and Alpine Research: An Interdisciplinary Journal 4: 396–405.
Douglas G.M., Maffei V.J., Zaneveld J.R., Yurgel S.N., Brown J.R., Taylor C.M., Huttenhower C. and Langille M.G.I. 2020. PICRUSt2 for prediction of metagenome functions. Nature Biotechnology 38: 685–688.
Fernández Zenoff V., Siñeriz F. and Farías M.E. 2006. Diverse responses to UV-B radiation and repair mechanisms of bacteria isolated from high-altitude aquatic environments. Applied and Environmental Microbiology 72: 7857–7863.
George S. F., Fierer N., Levy J. S. and Adams B. 2021. Antarctic water tracks: Microbial community responses to variation in soil moisture, pH, and salinity. Frontiers in Microbiology 12: 616730
Hughes K.A., Lawley B. and Newsham K.K. 2003. Solar UV-B radiation inhibits the growth of Antarctic terrestrial fungi. Applied and Environmental Microbiology 69: 1488–1491.
Jani K., Ghattargi V., Pawar S., Inamdar M., Shouche Y. and Sharma A. 2018a. Anthropogenic activities induce depletion in microbial communities at urban sites of the River Ganges. Current Microbiology 75: 79–83.
Jani K., Dhotre D., Bandal J., Shouche Y., Suryavanshi M., Rale V. and Sharma A. 2018b. World’s largest mass bathing event influences the bacterial communities of Godavari, a Holy River of India. Microbial Ecology 76: 706–718.
Kajale S., Jani K. and Sharma A. 2021. Contribution of archaea and bacteria in sustaining climate change by oxidizing ammonia and sulphur in an Arctic Fjord. Genomics 113: 1272– 1276.
Langille M.G.I., Zaneveld J., Caporaso J.G., Mcdonald D., Knights D., Reyes J.A., Clemente J.C., Burkepile D.E., Vega Thurber R.L., Knight R., Beiko R.G. and Huttenhower C. 2013. Predictive functional profiling of microbial communities using 16S rRNA marker gene sequences. Nature Biotechnology 31: 814–821.
Lim P.P., Pearce D.A., Convey P., Lee L.S., Chan K.G. and Tan G.Y.A. 2020. Effects of freeze-thaw cycles on High Arctic soil bacterial communities. Polar Science 23: 100487.
Louca S., Polz M.F., Mazel F., Albright M.B.N., Huber J.A., O’Connor M.I., Ackermann M., Hahn A.S., Srivastava D.S., Crowe S.A., Doebeli M. and Parfrey L.W. 2018. Function and functional redundancy in microbial systems. Nature Ecology and Evolution 2: 936 –943.
Lüder U.H. and Clayton M.N. 2004. Induction of phlorotannins in the brown macroalga Ecklonia radiata (Laminariales, Phaeophyta) in response to simulated herbivory – The first microscopic study. Planta 218: 928–937.
Lütz C., Di Piazza L., Fredersdorf J. and Bischof K. 2016. The effect of ultraviolet radiation on cellular ultrastructure and photosystem II quantum yield of Alaria esculenta (L.) Greville from Spitsbergen (Norway). Polar Biology 39: 1957–1966.
Malard L.A., Šabacká M., Magiopoulos I., Mowlem M., Hodson A., Tranter M., Siegert M.J. and Pearce D.A. 2019. Spatial variability of Antarctic surface snow bacterial communities. Frontiers in Microbiology 10: 461.
Manney G.L., Santee M.L., Rex M., Livesey N.J., Pitts M.C., Veefkind P., Nash E.R., Wohltmann I., Lehmann R., Froidevaux L., Poole L.R., Schoeberl M.R., Haffner D.P., Davies J., Dorokhov V., Gernandt H., Johnson B., Kivi R., Kyrö E., Larsen N., Levelt P.F., Makshtas A., Mcelroy C.T., Nakajima H., Parrondo M.C., Tarasick D.W., Von Der Gathen P., Walker K.A. and Zinoviev N.S. 2011. Unprecedented Arctic ozone loss in 2011. Nature 478: 469–475.
Molina-Montenegro M.A., Ballesteros G.I., Castro-Nallar E., Meneses C., Gallardo-Cerda J. and Torres-Díaz C. 2019. A first insight into the structure and function of rhizosphere microbiota in Antarctic plants using shotgun metagenomics. Polar Biology 42:1825–1835.
Newsham K.K., Tripathi B.M., Dong K., Yamamoto N., Adams J.M. and Hopkins D.W. 2019. Bacterial community composition and diversity respond to nutrient amendment but not warming in a maritime Antarctic soil. Microbial Ecology 78: 974–984.
Oksanen J., Blanchet F.G., Kindt R., Legendre P., Minchin P.R., O’hara R.B., Simpson G.L., Solymos P., Stevens M.H.H. and Wagner H. 2013. Vegan: Community Ecology Package. R package version 2.0-10. http://cran.r-project.org/package=vegan, R Package. Ver. 2.0–8.
Pérez V., Hengst M., Kurte L., Dorador C., Jeffrey W.H., Wattiez R., Molina V. and Matallana- Surget S. 2017. Bacterial survival under extreme UV radiation: A comparative proteomics study of Rhodobacter sp., isolated from high altitude wetlands in Chile. Frontiers in Microbiology 8: 1173.
Peter H. and Sommaruga R. 2016. Shifts in diversity and function of lake bacterial communities upon glacier retreat. The ISME Journal 10: 1545–1554.
Pichrtová M., Remias D., Lewis L.A. and Holzinger A. 2013. Changes in phenolic compounds and cellular ultrastructure of Arctic and Antarctic strains of Zygnema (Zygnematophyceae, Streptophyta) after exposure to experimentally enhanced UV to PAR ratio. Microbial Ecology 65: 68–83.
Quast C., Pruesse E., Yilmaz P., Gerken J., Schweer T., Yarza P., Peplies J. and Glöckner F.O. 2013. The SILVA ribosomal RNA gene database project: Improved data processing and web-based tools. Nucleic Acids Research 41(Database issue): D590–D596.
Ramos L., Vollú R., Jurelevicius D., Rosado A. and Seldin L. 2019. Firmicutes in different soils of Admiralty Bay, King George Island, Antarctica. Polar Biology 42: 2219–2226.
Rastogi G., Sbodio A., Tech J.J., Suslow T. V., Coaker G.L. and Leveau J.H.J. 2012. Leaf microbiota in an agroecosystem: Spatiotemporal variation in bacterial community composi- tion on field-grown lettuce. The ISME Journal 6: 1812–1822.
Reis-Mansur M.C.P.P., Cardoso-Rurr J.S., Silva J.V.M.A., De Souza G.R., Cardoso V. Da S., Mansoldo F.R.P., Pinheiro Y., Schultz J., Lopez Balottin L.B., Da Silva A.J.R., Lage C., Dos Santos E.P., Rosado A.S. and Vermelho A.B. 2019. Carotenoids from UV-resistant Antarctic Microbacterium sp. LEMMJ01. Scientific Reports 9: 9554.
Rodriguez H., Rivas J., Guerrero M.G. and Losada M. 1989. Nitrogen-Fixing Cyanobacterium with a High Phycoerythrin Content. Applied and Environmental Microbiology 55: 758–760.
Rojas J.L., Martín J., Tormo J.R., Vicente F., Brunati M., Ciciliato I., Losi D., Van Trappen S., Mergaert J., Swings J., Marinelli F. and Genilloud O. 2009. Bacterial diversity from benthic mats of Antarctic lakes as a source of new bioactive metabolites. Marine Genomics 2: 33–41.
Schmidt É.C., Nunes B.G., Maraschin M. and Bouzon Z.L. 2010. Effect of ultraviolet-B radiation on growth, photosynthetic pigments, and cell biology of Kappaphycus alvarezii (Rhodophyta, Gigartinales) macroalgae brown strain. Photosynthetica 48: 161–172.
Sharma A., Jani K., Shouche Y.S. and Pandey A. 2014 Microbial diversity of the Soldhar hot spring, India, assessed by analyzing 16S rRNA and protein-coding genes. Annals of Microbiology 65: 1323–1332.
Sharma A., Paul D., Dhotre D., Jani K., Pandey A. and Shouche Y.S. 2017. Deep sequencing analysis of bacterial community structure of Soldhar hot spring, India. Microbiology (Russian Federation) 86: 136–142.
Sharma A., Jani K., Da Feng G., Karodi P., Vemuluri V.R., Zhu H.H., Shivaji S., Thite V., Kajale S., Rahi P. and Shouche Y. 2018. Subsaxibacter sediminis sp. nov., isolated from arctic glacial sediment and emended description of the genus Subsaxibacter. The International Journal of Systematic and Evolutionary Microbiology 68: 1678–1682.
Sharma A., Jani K., Thite V., Dhar S.K. and Shouche Y. 2019. Geochemistry shapes bacterial communities and their metabolic potentials in tertiary coalbed. Geomicrobiology Journal 36: 1678–1682.
Steinhoff F.S., Wiencke C., Müller R. and Bischof K. 2008. Effects of ultraviolet radiation and temperature on the ultrastructure of zoospores of the brown macroalga Laminaria hyperborean. Plant Biology 10: 388–397.
Teixeira L.C.R.S., Peixoto R.S., Cury J.C., Sul W.J., Pellizari V.H., Tiedje J. and Rosado A.S. 2010. Bacterial diversity in rhizosphere soil from Antarctic vascular plants of Admiralty Bay, maritime Antarctica. The ISME Journal 4: 989–1001.
Tian B. and Hua Y. 2010. Carotenoid biosynthesis in extremophilic Deinococcus-Thermus bacteria. Trends in Microbiology 18: 512–520.
Wang Q., Garrity G.M., Tiedje J.M. and Cole J.R. 2007. Naïve Bayesian classifier for rapid assignment of rRNA sequences into the new bacterial taxonomy. Applied and Environmental Microbiology 73: 5261–5267.
Warnecke F., Sommaruga R., Sekar R., Hofer J.S. and Pernthaler J. 2005. Abundances, identity, and growth state of actinobacteria in mountain lakes of different UV transparency. Applied and Environmental Microbiology 71: 5551–5559.
Wiencke C., Lüder U.H. and Roleda M.Y. 2007. Impact of ultraviolet radiation on physiology and development of zoospores of the brown alga Alaria esculenta from Spitsbergen. Physiologia Plantarum 130: 601–612.
Wynn-Williams D.D. 1996. Response of pioneer soil microalgal colonists to environmental change in Antarctica. Microbial Ecology 31: 177–188.
Yergeau E., Bokhorst S., Kang S., Zhou J., Greer C.W., Aerts R. and Kowalchuk G.A. 2012. Shifts in soil microorganisms in response to warming are consistent across a range of Antarctic environments. The ISME Journal 6: 692–702.
Yu S.O., Brown A., Middleton A.J., Tomczak M.M., Walker V.K. and Davies P.L. 2010. Ice restructuring inhibition activities in antifreeze proteins with distinct differences in thermal hysteresis. Cryobiology 61: 327–334.
Przejdź do artykułu