Aislabie, J., Jordan, S., Ayton, J., Klassen, J.L., Barker, G. M. and Turnerb, S., 2009. Bacterial diversity associated with ornithogenic soil of the Ross Sea region, Antarctica. Canadian Journal of Microbiology, 55(1): 21-36.
Aislabie, J. and Deslippe, J.R., 2013. Soil microbes and their contribution to soil services. In: Ecosystem services in New Zealand – conditions and trends. Manaaki Whenua Press, Lincoln, pp: 143-161.
Alsharif, W., Saad, M.M. and Hirt, H., 2020. Desert microbes for boosting sustainable agriculture in extreme environments. Frontiers in Microbiology, 11: 1666.
Bachar, A., Al-Ashhab, A., Soares, M.I., Sklarz, M.Y., Angel, R., Ungar, E.D. and Gillor, O., 2010. Soil microbial abundance and diversity along a low precipitation gradient. Microbial Ecology, 60(2):453-461.
Boldareva-Nuianzina, E.N., Bl ´ahov´a, Z. and Sobotka, R., 2013. Distribution and origin of oxygen dependent and oxygen independent forms of Mg-protoporphyrin monomethylester cyclase among phototrophic proteobacteria. Applied Environmental Microbiology, 79(8): 2596-2604.
Castro, H.F., Classen, A.T., Austin, E.E., Norby, R.J. and Schadt, C.W., 2010. Soil microbial community responses to multiple experimental climate change drivers. Applied and Environmental Microbiology, 76(4): 999–1007.
Da Jesus, E., Marsh, T.L., Tiedje, J. M. and De S Moreira, F.M., 2009. Changes in land use alter the structure of bacterial communities in Western Amazon soils. ISME Journal, 3: 1004–1011.
De Bruyn, J.M., Nixon, L.T., Fawaz, M.N., Johnson, A.M. and Radosevich, M., 2011. Global biogeography and quantitative seasonal dynamics of Gemmatimonadetes in soil. Applied and Environmental Microbiology, 77(11): 6295-6300.
Dominati, E., Patterson, M. and MacKay, A., 2010. A framework for classifying and quantifying natural capital and ecosystem services of soils. Ecological Economics, 69(9): 1858–1868.
Dowd, S.E., Callaway, T.R., Wolcott, R.D., Sun, Y., McKeehan, T., Hagevoort, R.G. and Edrington, T.S., 2008. Evaluation of the bacterial diversity in the feces of cattle using 16S rDNA bacterial tag-encoded FLX amplicon pyrosequencing (bTEFAP). 8(1), 1-8
Eida, A.A., Ziegler, M., Lafi, F.F., Michell, C.T., Voolstra, C.R. and Hirt, H., 2018. Desert plant bacteria reveal host influence and beneficial plant growth properties. PLoS One, 13(12): e0208223.
Daur, I., Saad, M.M., Eida, A.A., Ahmad, S., Shah, Z.H. and Ihsan, M.Z., 2018. Boosting alfalfa (Medicago sativa L.) production with Rhizobacteria from various plants in Saudi Arabia. Frontie in Microbioogy, 9:477.
Fierer, N., Bradford, M.A. and Jackson, R.B., 2007. Toward an ecological classification of soil bacteria. Ecology, 88(6):1354–1364.
Fierer, N., Leff, J.W. and Adams, B.J., 2012. Cross-biome metagenomics analyses of soil microbial communities and their functional attributes. Proceedings of the National Academy of Sciences, 109(52): 21390–21395.
Gao, Q. and Garcia-Pichel, F., 2011. Microbial ultraviolet sunscreens. Nature Reviews Microbiology, 9: 791–802.
Giovannoni, S.J., Britschgi, T.B., Moyer, C.L. and Field, K.G., 1990. Genetic diversity. Nature, 345(6270): 60–63.
Gommeaux, M., Barakat, M. and Montagnac, G., 2010. Mineral and bacterial diversities of desert sand grains from south-east Morocco. Geomicrobiology Journal, 27(1): 76-92.
Gosselin, F., 2006. An assessment of the dependence of evenness indices on species richness. Journal of Theoretical Biology, 242(3): 591-597.
Greenville, A., 2018. The biology of deserts. Oxford University Press, Oxford, 370p.
Hackl, E., Bachmann, G. and Zechmeister-Bolternstern, S., 2004. Microbial nitrogen turnover in soils under different types of natural forest. Forest Ecology and Management, 188(1-3): 101–112.
Kaiser, K., Wemheuer, B., Korolkow, V., Wemheuer, F., Nacke, H., Schöning, I., Schrumpf, M., and Daniel, R., 2016. Driving forces of soil bacterial community structure, diversity, and function in temperate grasslands and forests. Scientific Reports, 6: 33696.
Kennedy, A.C. and Stubbs, T.L., 2006. Soil microbial communities as indicators of soil health. Annals of Arid Zone, 45(3): 287-297.
Keshri, J, Mishra, A. and Jha, B., 2012 .Microbial population index and community structure in saline-alkaline soil using gene targeted metagenomics. Microbiology Research, 168(3):165-173.
Kochhar, N., Kavya I.K., Shrivastava, S., Ghosh, A., Singh Rawat, V., Sodhi, K.K. and Kuma, M., 2022. Perspectives on the microorganism of extreme environments and their applications. Current Research in Microbial Sciences, 3: 100134.
MacArthur, R., 1955. Fluctuations of animal populations and a measure of community stability. Ecology, 36(3): 533-536.
Makhalanyane, T.P., Valverde, A., Birkeland, N.K., Cary, S.C., Tuffin, I.M. and Cowan, D.A., 2013. Evidence for successional development in Antarctic hypolithic bacterial communities. The ISME Journal, 7(11): 2080–2090.
McHugh, T.A. and Schwartz, E., 2016. A watering manipulation in a semiarid grassland induced changes in fungal but not bacterial community composition. Pedobiologia, 59(11): 121-127.
McHugh, T.A., Compson, Z., van Gestel, N., Hayer, M., Ballard, L. and Haverty, M., 2017. Climate controls prokaryotic community composition in desert soils of the southwestern United States. FEMS Microbiology Ecology. 93(10): fix116. doi:10.1093/femsec/fix116.
Maier, R.M. and Neilson, J.W., 2015. Extreme environments. In: Environmental Microbiology, third edition. Academic Press, pp: 139-153.
Nielsen, M.N., Winding, A. and Binnerup, S., 2002. Microorganisms as indicators of soil health. Denmark: National Environmental Research Institute. 84p.
Neilson, J.W., Quade, J., Ortiz, M., Nelson, W.M., Legatzki, A., Ian, F., LaComb, M., Betancourt, J.L., Wing, R.A., Soderlund, C.A. and Maier, R.M., 2012. Life at the hyperarid margin: novel bacterial diversity in arid soils of the Atacama Desert, Chile. Extremophiles, 16(3): 553-566.
Pankhurst, C.E., Doube, B.M. and Gupta, V.V.S.R., 1997. Biological indicators of soil health: synthesis. In Biological Indicators of Soil Health. CAB International, Wallingford, pp: 419–435.
Ramawat, K.G., 2010. Desert Plants: Biology and Biotechnology. Springer-Verlag, Berlin. 503p.
Rao, S., Chan, Y., Lacap, D.C., Hyde, K.D., Pointing, S.B. and Farrell, R.L., 2012. Low-diversity fungal assemblage in an Antarctic Dry Valleys soil. Polar Biology, 35: 567–574.
Rao, S., Chan, Y., Bugler-Lacap, D.C., Bhatnagar, A., Bhatnagar, M. and Pointing, S.B., 2016. Microbial diversityin soil, sand dune and rock substrates of the Thar Monsoon Desert. India. Indian Journal of Microbiology, 56(1):35–45.
Ritz, K., Mcnicol, J.M., Nunan, N., Grayston, S., Millard, P., Atkinson, D., Gollotte, A., Habeshaw, D., Boag, B., Clegg, C.D., Griffiths, B.S., Wheatley, R.E., Glover, L.A., Mccaig, A.E. and Prosser, J.I., 2004., Spatial structure in soil chemical and microbiological properties in an upland grassland. FEMS Microbiology Ecology, 49(2):191-205.
Wang, M., Liu, S., Wang, F., Sun, B., Zhou, J. and Yang, Y., 2015. Microbial responses to southward and northward Cambisol soil transplant. Microbiology Open, 4(6): 931–940.
Van Horn, D.J., Okie, J.G., Buelow, H.N., Gooseff, M.N., Barrett, J.E. and Takacs-Vesbach, C.D., 2014. Soil microbial responses to increased moisture and organic resources along a salinity gradient in a polar desert. Applied and Environmental Microbiology, 80(10) 3034–3043.
Vejan, P., Abdullah, R., Khadiran, T., Ismail, S. and Nasrulhaq Boyce, A., 2016. Role of plant growth promoting Rhizobacteria in agricultural sustainability-a review. Molecules, 21(5): 573.
Wakelin, S.A., Macdonald, L.M., Rogers, S.L., Gregg, A.L., Bolger, T.P. and Baldock, J.A., 2008. Habitat selective factors influencing the structural composition and functional capacity of microbial communities in agricultural soils. Soil Biology and Biochemistry, 40(3): 803–813.
Wilsey, B. and Stirling, G., 2007. Species richness and evenness respond in a different manner to propagule density in developing prairie microcosm communities. Plant Ecology, 190(2): 259–274.
Whitton, B.A. and Potts, M., 2012. Introduction to the cyanobacteria. In: Ecology of Cyanobacteria II. Springer, Dordrecht, pp: 1-13.
Zhou, X., Wang, J., Hao, Y., and Wang, Y., 2010. Intermediate grazing intensities by sheep increase soil bacterial diversities in an Inner Mongolian steppe. Biology and Fertility of Soils, 46(8): 817–824.
)