[1] Q Arancon N, A Edwards C, P Bierman. Influences of vermicomposts on field strawberries: Part 2. Effects on soil microbiological and chemical properties. Bioresource Technology, 97, 831-840(2006).

[2] A Bachar, A Al-Ashhab, M Soares M I et al. Soil microbial abundance and diversity along a low precipitation gradient. Microbial Ecology, 60, 453-461(2010).

[3] C Bell, N McIntyre, S Cox et al. Soil microbial responses to temporal variations of moisture and temperature in a chihuahuan desert grassland. Microbial Ecology, 56, 153-167(2008).

[4] L Bréchet, S Ponton, J Roy et al. Do tree species characteristics influence soil respiration in tropical forests? A test based on 16 tree species planted in monospecific plots. Plant & Soil, 319, 235-246(2009).

[5] C Brookes P, A Landman, G Pruden et al. Chloroform fumigation and the release of soil nitrogen: A rapid direct extraction method to measure microbial biomass nitrogen in soil. Soil Biology & Biochemistry, 17, 837-842(1985).

[6] T Camenzind, S Httenschwiler, K Treseder K et al. Nutrient limitation of soil microbial processes in tropical forests. Ecological Monographs, 88, 4-21(2018).

[7] H Chang E, T Chen C, H Chen T et al. Soil microbial communities and activities in sand dunes of subtropical coastal forests. Applied Soil Ecology, 49, 256-262(2011).

[8] H Chen T, Y Chiu C, G Tian. Seasonal dynamics of soil microbial biomass in coastal sand dune forest. Pedobiologia, 49, 645-653(2005).

[9] M Chodak, M Pietrzykowski, K Sroka. Physiological profiles of microbial communities in mine soils afforested with different tree species. Ecological Engineering, 81, 462-470(2015).

[10] S Clark J, H Campbell J, H Grizzle et al. Soil microbial community response to drought and precipitation variability in the Chihuahuan Desert. Microbial Ecology, 57, 248-260(2009).

[11] A Cregger M, W Schadt C, G Mcdowell N et al. Response of the soil microbial community to changes in precipitation in a semiarid ecosystem. Applied & Environmental Microbiology, 78, 8587-8594(2012).

[12] L Deng, P Shangguan Z. Afforestation drives soil carbon and nitrogen changes in China. Land Degradation & Development, 28, 151-165(2017).

[13] Y Feng, P Grogan, G Caporaso J et al. pH is a good predictor of the distribution of anoxygenic purple phototrophic bacteria in Arctic soils. Soil Biology & Biochemistry, 74, 193-200(2014).

[14] I Forrester D, M Schortemeyer, D Stock W et al. Assessing nitrogen fixation in mixed-and single-species plantations of Eucalyptus globulus and Acacia mearnsii. Tree Physiology, 27, 1319-1328(2007).

[15] W Gao, Q Huang Z, F Ye G et al. Effects of forest cover types and environmental factors on soil respiration dynamics in a coastal sand dune of subtropical China. Journal of Forestry Research, 29, 1645-1655(2018).

[16] F Harris R. Effect of water potential on microbial growth and activity. In: Parr J F, Gardner W R, Elliott L F (eds.). Water potential relations in soil microbiology, Special publication no 9, 23-96(1980).

[17] M Hoogmoed, C Cunningham S, J Baker P et al. Is there more soil carbon under nitrogen-fixing trees than under non-nitrogen-fixing trees in mixed-species restoration plantings?. Agriculture Ecosystems & Environment, 188, 80-84(2014).

[18] S Hu, C Coleman D, R Carroll C et al. Labile soil carbon pools in subtropical forest and agricultural ecosystems as influenced by management practices and vegetation types. Agriculture Ecosystems & Environment, 65, 69-78(1997).

[19] R Jandl, M Lindner, L Vesterdal et al. How strongly can forest management influence soil carbon sequestration?. Geoderma, 137, 253-268(2007).

[20] G Joergensen R, T Müller. The fumigation-extraction method to estimate soil microbial biomass: Calibration of the k_EC value. Soil Biology & Biochemistry, 28, 25-31(1996).

[21] G Joergensen R, T Müller. The fumigation-extraction method to estimate soil microbial biomass: Calibration of the k_EN value. Soil Biology & Biochemistry, 28, 33-37(1996).

[22] L Karlen D, J Mausbach M, W Doran J et al. Soil quality: A concept, definition, and framework for evaluation. Soil Science Society of America Journal, 61, 4-10(1997).

[23] J Landesman W, M Nelson D, C Fitzpatrick M. Soil properties and tree species drive ß-diversity of soil bacterial communities. Soil Biology & Biochemistry, 76, 201-209(2014).

[24] L Li S, X Fang, H Xiang W et al. Soil microbial biomass carbon and nitrogen concentrations in four subtropical forests in hilly region of central Hunan Province, China. Scientia Silvae Sinicae, 50, 8-16(2014).

[25] G Liu C, Q Jin Y, N Hu Y et al. Drivers of soil bacterial community structure and diversity in tropical agroforestry systems. Agriculture Ecosystems & Environment, 278, 24-34(2019).

[26] S Liu, K Wang C. Spatio-temporal patterns of soil microbial biomass carbon and nitrogen in five temperate forest ecosystems. Acta Ecologica Sinica, 30, 3135-3143(2010).

[27] W Luan J, R Liu S, X Wang J et al. Rhizospheric and heterotrophic respiration of a warm-temperate oak chronosequence in China. Soil Biology & Biochemistry, 43, 503-512(2011).

[28] S Manzoni, P Schimel J, A Porporato. Responses of soil microbial communities to water stress: Results from a meta-analysis. Ecology, 93, 930-938(2012).

[29] Z Mganga K, S Razavi B, Y Kuzyakov. Microbial and enzymes response to nutrient additions in soils of Mt. Kilimanjaro region depending on land use. European Journal of Soil Biology, 69, 33-40(2015).

[30] E Mueller K, M Eissenstat D. Do evergreen and deciduous trees have different effects on net N mineralization in soil?. Ecology, 93, 1463-1472(2012).

[31] P Nannipieri, J Ascher, T Ceccherini M et al. Microbial diversity and soil functions. European Journal of Soil Science,, 54, 655-670(2003).

[32] C Pérez-Cruzado, P Mansilla-Salinero, R Rodríguez-Soalleiro et al. Influence of tree species on carbon sequestration in afforested pastures in a humid temperate region. Plant & Soil, 353, 333-353(2012).

[33] S Parker S, P Schimel J. Soil nitrogen availability and transformations differ between the summer and the growing season in a California grassland. Applied Soil Ecology, 48, 185-192(2011).

[34] I Paul K, J Polglase P, G Nyakuengama J et al. Change in soil carbon following afforestation. Forest Ecology & Management, 168, 241-257(2002).

[35] L Pearson H, M Vitousek P. Stand dynamics, nitrogen accumulation, and symbiotic nitrogen fixation in regenerating stands of Acacia koa. Ecological Applications, 11, 1381-1394(2001).

[36] J Qiu S, T Ju X, J Ingwersen et al. Changes in soil carbon and nitrogen pools after shifting from conventional cereal to greenhouse vegetable production. Soil & Tillage Research, 107, 80-87(2010).

[37] C Resh S, D Binkley, A Parrotta J. Greater soil carbon sequestration under nitrogen fixing trees compared with Eucalyptus species. Ecosystems, 5, 217-231(2002).

[38] U Sarathchandra S, W Perrott K, R Boase M et al. Seasonal changes and the effects of fertiliser on some chemical, biochemical and microbiological characteristics of high-producing pastoral soil. Biology & Fertility of Soils, 6, 328-335(1988).

[39] C Shen C, B Xiong J, Y Zhang H et al. Soil pH drives the spatial distribution of bacterial communities along elevation on Changbai Mountain. Soil Biology & Biochemistry, 57, 204-211(2013).

[40] Y Steinberger, L Zelles, Y Bai Q et al. Phospholipid fatty acid profiles as indicators for the microbial community structure in soils along a climatic transect in the Judean Desert. Biology & Fertility of Soils, 28, 292-300(1999).

[41] F Tam P C. Mycorrhizal associations in Pinus massoniana Lamb. and Pinus elliottii Engel. inoculated with Pisolithus tinctorius. Mycorrhiza, 4, 255-263(1994).

[42] H Templer P, E Dawson T. Nitrogen uptake by four tree species of the Catskill Mountains, New York: Implications for forest N dynamics. Plant & Soil, 262, 251-261(2004).

[43] N Ussiri D A, R Lal, A Jacinthe P. Soil properties and carbon sequestration of afforested pastures in reclaimed mine soils of Ohio. Soil Science Society of America Journal, 70, 1797-1806(2006).

[44] M Wang F, A Li Z, P Xia H et al. Effects of nitrogen-fixing and non-nitrogen-fixing tree species on soil properties and nitrogen transformation during forest restoration in southern China. Soil Science & Plant Nutrition, 56, 297-306(2010).

[45] H Wang, R Liu S, X Wang J et al. Effects of tree species mixture on soil organic carbon stocks and greenhouse gas fluxes in subtropical plantations in China. Forest Ecology & Management, 300, 4-13(2013).

[46] H Wang M, H Wan X, P Yu Z et al. a. Effects of tree species transition on soil microbial biomass and community structure in subtropical China. Acta Ecologica Sinica, 36, 417-423(2016).

[47] N Wang, X Yang, L Li S et al. b. Seasonal dynamics of soil microbial biomass carbon-nitrogen in the Korean Pine mixed forests along elevation gradient. Scientia Silvae Sinicae, 52, 150-158(2016).

[48] A Wardle D. A comparative assessment of factors which influence microbial biomass carbon and nitrogen levels in soil. Biological Reviews, 67, 321-358(2010).

[49] S Xiao S, F Ye G, H Zhang L et al. Soil heterotrophic respiration in Casuarina equisetifolia plantation at different stand ages. Journal of Forestry Research, 20, 301-306(2009).

[50] Q Xu H, E Zhang J, J Feng L et al. Effects of different land use patterns on microbial biomass carbon and nitrogen in Guangdong Province. Acta Ecologica Sinica, 29, 4112-4118(2009).

[51] K Yang, J Zhu J, X Zhang J et al. Seasonal dynamics of soil microbial biomass C and N in two larch plantation forests with different ages in Northeastern China. Acta Ecologica Sinica, 29, 5500-5507(2009).

[52] S Yang Y, S Chen G, P Lin et al. Fine root distribution, seasonal pattern and production in four plantations compared with a natural forest in subtropical China. Annals of Forest Science, 61, 617-627(2004).

[53] F Ye G, J Zhang S, H Zhang L et al. Age-related changes in nutrient resorption patterns and tannin concentration of Casuarina equisetifolia plantations. Journal of Tropical Forest Science, 24, 546-556(2012).

[54] L Zhang N, X Liu W, J Yang H et al. Soil microbial responses to warming and increased precipitation and their implications for ecosystem C cycling. Oecologia, 173, 1125-1142(2013).

[55] Q Zhou X, R Chen C, F Wang Y et al. Soil extractable carbon and nitrogen, microbial biomass and microbial metabolic activity in response to warming and increased precipitation in a semiarid Inner Mongolian grassland. Geoderma, 206, 24-31(2013).

[56] X Zhu L, Q Xiao, Y Cheng H et al. Seasonal dynamics of soil microbial activity after biochar addition in a dryland maize field in North-Western China. Ecological Engineering, 104, 141-149(2017).

[57] H Zhu T, J Zhang, X Hu T et al. Mycorrhizae type associated with Eucalyptus in Sichuan and effect of forest density on mycorrhizal fungi. Journal of Sichuan Agricultural University, 19, 222-224(2001).