Agnès D L, Jay M. 1987. Study of soybean and lentil root exudates: III. Influence of soybean isoflavonoids on the growth of rhizobia and some rhizospheric microorganisms. Plant Soil, 101 (2): 267-272.
Bano N, Hollibaugh J T. 2002. Phylogenetic composition of bacterioplankton assemblages from the Arctic Ocean. Appl Environ Microb, 68 (2): 505-518.
Bauer, M., Kube, M., Teeling, H., R et al. 2010. Whole genome analysis of the marine Bacteroidetes ‘Gramella forsetii’ reveals adaptations to degradation of polymeric organic matter. Environ Microbiol, 8(12): 2201-2213.
Bhatia M, Sharp M, Foght J. 2006. Distinct bacterial communities exist beneath a high Arctic polythermal glacier. Appl Environ Microb, 72 (9): 5838-5845.
Brinkmeyer R, Knittel K, Jurgens J, et al. 2003. Diversity and structure of bacterial communities in Arctic versus Antarctic pack ice. Appl Environ Microb, 69(11): 6610-6619.
Brown M V, Bowman J P. 2001. A molecular phylogenetic survey of sea-ice microbial communities (SIMCO). FEMS Microbiol Ecol, 35 (3): 267-275.
Campbell B J, Polson S W, Hanson T E, et al. 2010. The effect of nutrient deposition on bacterial communities in Arctic tundra soil. Environ Microbiol, 12 (7): 1842-1854.
Chenu C, Garnier P, Monga O, et al. 2014. Predicting the response of soil organic matter microbial decomposition to moisture. EGU General Assembly Conference Abstracts, 16.
Chu H, Fierer N, Lauber C L, et al. 2010. Soil bacterial diversity in the Arctic is not fundamentally different from that found in other biomes. Environ Microbiol, 12 (11): 2998-3006.
Chu H, Neufeld J D, Walker V K, et al. 2011. The influence of vegetation type on the dominant soil bacteria, archaea, and fungi in a low Arctic tundra landscape. Soil Sci Soc Am J, 75(5): 1756-1765.
Darrah P R. 1991. Models of the rhizosphere. Plant and Soil, 133 (2): 187-199.
Derry A M, Staddon W J, Kevan P G, et al. 1999. Functional diversity and community structure of micro-organisms in three arctic soils as determined by sole-carbon-source-utilization. Biodivers Conserv, 8(2): 205-221.
Eskelinen A, Stark S, Männistö M. 2009. Links between plant community composition, soil organic matter quality and microbial communities in contrasting tundra habitats. Oecologia, 161 (1): 113-123.
Garbeva P, Van Veen J A , Van Elsas J D. 2004. Microbial Diversity in soil: selection of microbial populations by plant and soil type and implications for disease suppressiveness. Annu Rev Phytopathol, 42(1): 243-270.
Garrity G, Bell J, Lilburn T. 2005. Order III. Methylophilales ord. nov. Bergey’s Manual of Systematic Bacteriology, 2: 770.
Goldfarb K C, Karaoz U, Hanson C A, et al. 2011. Differential growth responses of soil bacterial taxa to carbon substrates of varying chemical recalcitrance. Front Microbiol, 2(1): 94.
Gosink J. 1993. Vertical distribution of bacteria in Arctic sea ice. FEMS Microbiol Ecol, 102(2): 85-90.
Groudieva T, Kambourova M, Yusef H, et al. 2004. Diversity and cold-active hydrolytic enzymes of culturable bacteria associated with Arctic sea ice, Spitzbergen. Extremophiles, 8 (6): 475-488.
Jiang S, Liu X, Chen Q. 2011. Distribution of total mercury and methylmercury in lake sediments in Arctic Ny-Ålesund. Chemosphere, 83 (8): 1108-1116.
Johnson D, Booth R, Whiteley A S, et al. 2010. Plant community composition affects the biomass, activity and diversity of microorganisms in limestone grassland soil. Eur J Soil Sci, 54(4): 671-678.
Jones G A, Henry G H R. 2003. Primary plant succession on recently deglaciated terrain in the Canadian High Arctic. J Biogeogr, 30(2): 277-296.
Junge K, Imhoff F, Staley T, 2002. Phylogenetic diversity of numerically important Arctic sea-ice bacteria cultured at subzero temperature. Microb Eco, 43(3): 315-328.
Kielak A, Pijl A S, Veen J A V, et al .2008. Differences in vegetation composition and plant species identity lead to only minor changes in soil-borne microbial communities in a former arable field. FEMS Microbiol Ecol, 63 (3): 372-382.
Kowalchuk G A, Buma D S, Boer W D, et al. 2002. Effects of above-ground plant species composition and diversity on the diversity of soil-borne microorganisms. Antonie van Leeuwenhoek, 81(1-4): 509-520.
Kuypers M M M, Marchant H K, Kartal B. 2018. The microbial nitrogen-cycling network. Nat Rev Microbiol, 16(5): 263-276.
Li H, Yu Y, Chen B, et al. 2005. Molecular genetic diversity of bacteria in the bottom section of Arctic sea ice from the Canada Basin. Acta Oceanologica Sinica, 24 (6): 153-161.
Marilley L, Vogt G, Blanc M, et al. 1998. Bacterial diversity in the bulk soil and rhizosphere fractions of Lolium perenne and Trifolium repens as revealed by PCR restriction analysis of 16S rDNA. Plant and Soil, 198(2): 219-224.
Männistö M K, Tiirola M, Häggblom M M. 2007. Bacterial communities in Arctic fjelds of Finnish Lapland are stable but highly pH-dependent. FEMS Microbiol Ecol, 59 (2): 452-465.
Miteva V I, Brenchley J E. 2005. Detection and isolation of ultrasmall microorganisms from a 120,000-year-old Greenland glacier ice core. Appl Environ Microb, 71(12): 7806-7818.
Parsons A N, Barrett J E, Wall D H, et al. 2004. Soil carbon dioxide flux in Antarctic Dry Valley ecosystems. Ecosystems, 7(3): 286-295.
Oksanen J. 2011. Multivariate analysis of ecological communities in R: vegan tutorial. R package version, 1.
Pii Y , Mimmo T , Tomasi N , et al. 2015. Microbial interactions in the rhizosphere: beneficial influences of plant growth-promoting rhizobacteria on nutrient acquisition process: a review. Biol Fert Soils, 51 (4): 403-415.
Quast C, Pruesse E, Yilmaz P, et al. 2013. The SILVA ribosomal RNA gene database project: improved data processing and web-based tools. Nucleic Acids Res, 41 (D1): D590-D596.
Ravenschlag K, Sahm K, Pernthaler J, et al. 1999. High bacterial diversity in permanently cold marine sediments. Appl Environ Microb, 65 (9): 3982-3989.
Schloss P D, Gevers D, Westcott S L. 2011. Reducing the effects of PCR amplification and sequencing artifacts on 16S rRNA-based studies. PloS One, 6: e27310.
Simas F N, Schaefer C E G, Melo V F, et al. 2007. Ornithogenic cryosols from Maritime Antarctica: Phosphatization as a soil forming process. Geoderma, 138(3-4): 191-203.
Smoot M E, Ono K, Ruscheinski J, et al. 2011. Cytoscape 2.8: new features for data integration and network visualization. Bioinformatics (Oxford, England), Bioinformatics, 27(3): 431-432.
Stow D A Hope A, McGuire D, et al. 2008. Remote sensing of vegetation and land-cover change in Arctic Tundra Ecosystems. Remote Sens Environ, 89: 281-308.
Sullivan P, Sloan V, Warren J, et al. 2014. Plant root characteristics and dynamics in Arctic Tundra Ecosystems, 1960-2012.
Tam L, Derry A M, Kevan P G , et al. 2001. Functional diversity and community structure of microorganisms in rhizosphere and non-rhizosphere Canadian Arctic soils. Biodivers Conserv, 10(11): 1933-1947.
Teixeira L C R S, Peixoto R S, Cury J C, et al. 2010. Bacterial diversity in rhizosphere soil from Antarctic vascular plants of Admiralty Bay, Maritime Antarctica. ISME J, 4(8): 989-1001.
Teixeira L C, Yeargeau E, Balieiro F C, et al. 2013. Plant and bird presence strongly influences the microbial communities in soils of Admiralty Bay, Maritime Antarctica. PloS One, 8(6): e66109.
Uroz S, Buee M, Murat C, et al. 2010. Pyrosequencing reveals a contrasted bacterial diversity between oak rhizosphere and surrounding soil. Env Microbiol Rep, 2(2): 281-288.
Vinther F P, Eiland F. 1996. The effect of soil PH on nitrification in coarse sandy soil//Van Cleemput O, Hofman G, Vermoesen A. Progress in Nitrogen Cycling Studies, Proceedings of the 8th Nitrogen Workshop, the University of Ghent, 5–8 September, 1994.
Wallenstein M D, Mcmahon S, Schimel J. 2007. Bacterial and fungal community structure in Arctic tundra tussock and shrub soils. FEMS Microbiol Ecol, 59 (2): 428-35.
Wang N F, Zhang T, Yang X, et al. 2016. Diversity and composition of bacterial community in soils and lake sediments from an Arctic lake area. Front Microbiol, 7: 1170.
Yergeau E, Bokhorst S, Huiskes A H, et al. 2007. Size and structure of bacterial, fungal and nematode communities along an Antarctic environmental gradient. FEMS Microbiol Ecol, 59: 436-51.