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Zhao Y.Z, Liang C.F, Shao S., Chen J.H, Qin H., Xu Q.F.  2021.  Linkages of litter and soil C:N:P stoichiometry with soil microbial resource limitation and community structure in a subtropical broadleaf forest invaded by Moso bamboo. Plant and Soil. :18.
Richter A., Huallachain D.O, Doyle E., Clipson N., Van Leeuwen J.P, Heuvelink G.B, Creamer R.E.  2018.  Linking diagnostic features to soil microbial biomass and respiration in agricultural grassland soil: a large-scale study in Ireland. European Journal of Soil Science. 69:414-428.
Tresch S., Frey D., Le Bayon R.C, Zanetta A., Rasche F., Fliessbach A., Moretti M..  2019.  Litter decomposition driven by soil fauna, plant diversity and soil management in urban gardens. Science of The Total Environment. 658:1614-1629.
Campbell C.D, Cameron C.M, Bastias B.A, Chen C.R, Cairney J.WG.  2008.  Long term repeated burning in a wet sclerophyll forest reduces fungal and bacterial biomass and responses to carbon substrates. Soil Biology and Biochemistry. 40:2246-2252.
Orozco-Aceves M., Standish R.J, Tibbett M..  2015.  Long-term conditioning of soil by plantation eucalypts and pines does not affect growth of the native jarrah tree. Forest Ecology and Management. 338:92-99.
van der Bom F., Nunes I., Raymond N.S, Hansen V., Bonnichsen L., Magid J., Nybroe O., Jensen L.S.  2018.  Long-term fertilisation form, level and duration affect the diversity, structure and functioning of soil microbial communities in the field. Soil Biology and Biochemistry. 122:91-103.
Wakelin S.A, Condron L.M, Gerard E., Dignam B.EA, Black A., O'Callaghan M..  2017.  Long-term P fertilisation of pasture soil did not increase soil organic matter stocks but increased microbial biomass and activity. Biology and Fertility of Soils. 53:511-521.
Singh BK, Quince C, Macdonald CA, Khachane A, Thomas N, Al-Soud WAbu, Sørensen SJ, He Z, White D, Sinclair A et al..  2014.  Loss of microbial diversity in soils is coincident with reductions in some specialized functions. Environmental Microbiology. 16:2408-2420.
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Pinzari F., Cuadros J., Migliore M., Napoli R., Najorka J..  2018.  Manganese translocation and concentration on Quercus cerris decomposing leaf and wood litter by an ascomycetous fungus: an active process with ecosystem consequences? FEMS Microbiology Ecology. 94:16.
Hammerschmiedt T., Holatko J., Kucerik J., Mustafa A., Radziemska M., Kintl A., Malicek O., Baltazar T., Latal O., Brtnicky M..  2022.  Manure Maturation with Biochar: Effects on Plant Biomass, Manure Quality and Soil Microbiological Characteristics. Agriculture-Basel. 12:17.
Wigley K., Wakelin S.A, Moot D.J, Hammond S., Ridgway H.J.  2016.  Measurements of carbon utilization by single bacterial species in sterile soil: insights into Rhizobium spp. Journal of Applied Microbiology. 121:495-505.
Creamer R.E, Stone D., Berry P., Kuiper I..  2016.  Measuring respiration profiles of soil microbial communities across Europe using MicroResp™ method. Applied Soil Ecology. 97:36-43.
Barany A., Szili-Kovacs T., Krett G., Fuzy A., Marialigeti K., Borsodi A.K.  2014.  METABOLIC ACTIVITY AND GENETIC DIVERSITY OF MICROBIAL COMMUNITIES INHABITING THE RHIZOSPHERE OF HALOPHYTON PLANTS. Acta Microbiologica Et Immunologica Hungarica. 61:347-361.
Nunan N., Lerch T.Z, Pouteau V., Mora P., Changey F., Kätterer T., Giusti-Miller S., Herrmann A.M.  2015.  Metabolising old soil carbon: Simply a matter of simple organic matter? Soil Biology and Biochemistry. 88:128-136.
Swallow M.JB, Quideau S.A.  2015.  A Method for Determining Community Level Physiological Profiles of Organic Soil Horizons. Soil Science Society of America Journal. 79:536-542.
Ge T, Chen X, Yuan H, Li B, Zhu H, Peng P, Li K, Jones DL, Wu J.  2013.  Microbial biomass, activity, and community structure in horticultural soils under conventional and organic management strategies. European Journal of Soil Biology. 58:122-128.
Roberts WM, Matthews RA, Blackwell MSA, Peukert S, Collins AL, Stutter MI, Haygarth PM.  2013.  Microbial biomass phosphorus contributions to phosphorus solubility in riparian vegetated buffer strip soils. Biology and Fertility of Soils. 49:1237-1241.
Tang H.M, Li C., Wen L., Li W.Y, Shi L.H, Cheng K.K, Xiao X.P.  2020.  Microbial carbon source utilization in rice rhizosphere and non-rhizosphere soils in a 34-year fertilized paddy field. Journal of Basic Microbiology. 60:1004-1013.
Tang H.M, Xiao X.P, Li C., Pan X.C, Cheng K.K, Li W.Y, Wang K..  2020.  Microbial carbon source utilization in rice rhizosphere and nonrhizosphere soils with short-term manure N input rate in paddy field. Scientific Reports. 10:9.
Tang H.M, Xiao X.P, Li C., Shi L.H, Cheng K.K, Li W.Y, Wen L., Xu Y.L, Wang K..  2021.  Microbial carbon source utilization in rice rhizosphere soil with different tillage practice in a double cropping rice field. Scientific Reports. 11:9.
Brolsma KM, J. Vonk A, Mommer L, Van Ruijven J, Hoffland E, De Goede RGM.  2017.  Microbial catabolic diversity in and beyond the rhizosphere of plant species and plant genotypes. Pedobiologia. 61:43-49.
Martins-Loucao M.A, Cruz C..  2007.  Microbial communities. Journal of Soils and Sediments. 7:398-398.
Long X.E, Wang J., Huang Y., Yao H.Y.  2016.  Microbial community structures and metabolic profiles response differently to physiochemical properties between three landfill cover soils. Environmental Science and Pollution Research. 23:15483-15494.
Brackin R., Robinson N., Lakshmanan P., Schmidt S..  2013.  Microbial function in adjacent subtropical forest and agricultural soil. Soil Biology and Biochemistry. 57:68-77.
Sherman C, Steinberger Y.  2012.  Microbial Functional Diversity Associated with Plant Litter Decomposition Along a Climatic Gradient. Microbial Ecology. 64:399-415.