[1] National Bureau of Statistics of China (国家统计局). China Statistical Yearbook. Beijing: China Statistic Press, 2014 (in Chinese) [2] Shi WM, Yao J, Yan F. Vegetable plantation under greenhouse conditions leads to rapid accumulation of nutrients, acidification and salinity of soils and groundwater contamination in South-Eastern China. Nutrient Cycling in Agroecosystems, 2009, 83: 73-84 [3] Zhu T-B (朱同彬), Sun P-P (孙盼盼), Dang Q (党琦), et al. Improvement of degraded greenhouse vegetable soil by flooding and/or amending organic materials. Acta Pedologica Sinica (土壤学报), 2014, 51(2): 335-341 (in Chinese) [4] Zhu TB, Zhang JB, Cai ZC. Effects of organic material amendment and soil water content on NO, N2O and N2 emissions in a nitrate accumulated vegetable soil. Biology and Fertility of Soils, 2013, 49: 153-163 [5] Zhu TB, Dang Q, Zhang JB, et al. Reductive soil disinfestation (RSD) alters gross N transformation rates and reduces NO and N2O emissions in degraded vegetable soils. Plant and Soil, 2014, 382: 269-280 [6] Xie K-Z (解开治), Xu P-Z (徐培智), Li K-H (李康活), et al. Effects of three different cropping system on diversity of soil bacterial community. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2009, 15(5): 1107-1113 (in Chinese) [7] Li S-Y (李淑仪), Deng X-W (邓许文), Chen F (陈发), et al. Effects of the quantity and proportion of organic and mineral fertilizers on vegetable yield and qua-lity and soil heavy metal contents. Ecology and Environment (生态环境), 2007, 16(4): 1125-1134 (in Chinese) [8] Evanylo G, Sherony C, Spargo J, et al. Soil and water environmental effects of fertilizer-, manure-, and compost-based fertility practices in an organic vegetable cropping system. Agriculture, Ecosystems and Environment, 2008, 127: 50-58 [9] Mder P, Flieβbach A, Dubois D, et al. Soil fertility and biodiversity in organic farming. Science, 2002, 296: 1694-1697 [10] Li Q, Jiang Y, Liang WJ, et al. Long-term effect of fertility management on the soil nematode community in vegetable production under greenhouse conditions. Applied Soil Ecology, 2010, 46: 111-118 [11] Lou Y-L (娄翼来), Li H (李 慧), Jiang Y (姜 勇), et al. Impacts of long-term fertilizer application on soil nematode diversity in a greenhouse vegetable system. Chinese Journal of Soil Science (土壤通报), 2013, 44(1): 106-109 (in Chinese) [12] Freckman DW, Ettema CH. Assessing nematode communities in agroecosystems of varying human intervention. Agriculture, Ecosystems and Environment, 1993, 45: 239-261 [13] Yeates GW, Newton PCD, Ross DJ. Significant changes in soil microfauna in grazed pasture under elevated carbon dioxide. Biology and Fertility of Soils, 2003, 38: 319-326 [14] Ritz K, Trudgill DL. Utility of nematode community analysis as an integrated measure of functional state of soils: Perspectives and challenges. Plant and Soil, 1999, 212: 1-11 [15] Liang WJ, Lou YL, Li Q, et al. Nematode faunal response to long-term application of nitrogen fertilizer and organic manure in Northeast China. Soil Biology and Biochemistry, 2009, 41: 883-890 [16] Jiang C (江 春), Huang Q-H (黄菁华), Li X-Q (李修强), et al. Responses of soil nematode community to long-term application of organic manure in upland red soil. Acta Pedologica Sinica (土壤学报), 2011, 48(6): 1235-1241 (in Chinese) [17] Liu MQ, Chen XY, Qin JT, et al. A sequential extraction procedure reveals that water management affects soil nematode communities in paddy fields. Applied Soil Eco-logy, 2008, 40: 250-259 [18] Abawi GS, Widmer TL. Impact of soil health management practices on soilborne pathogens, nematodes and root diseases of vegetable crops. Applied Soil Ecology, 2000, 15: 37-47 [19] Zhu T-B (朱同彬), Zhang J-B (张金波), Cai Z-C (蔡祖聪). Effects of organic material amendment on vegetable soil nitrate content and nitrogenous gases emission under flooding condition. Chinese Journal of Applied Ecology (应用生态学报), 2012, 23(1): 109-114 (in Chinese) [20] Lu R-K (鲁如坤). Soil and Agrochemistry Analysis. Beijing: China Agriculture Press, 2000 (in Chinese) [21] Ministry of Agriculture of China (国家农业部). Agricultural Standard of the People’s Republic of China: Organic fertilizer (NY 525-2012). Beijing: China Standards Press, 2012 (in Chinese) [22] Bongers T, De Nematoden, van Nederland. Pirola. Schoorl, the Netherlands: KNNV Bibliotheekuitgave, 1988: 23-331 [23] Yeates GW, Bongers T, de Goede RGM, et al. Feeding habits in soil nematode families and genera: An outline for soil ecologists. Journal of Nematology, 1993, 25: 315-331 [24] Bongers T. The maturity index: An ecological measure of environmental disturbance based on nematode species composition. Oecologia, 1990, 83: 14-19 [25] Ferris H, Bongers T, de Goede RGM. A framework for soil food web diagnostics: Extension of the nematode faunal analysis concept. Applied Soil Ecology, 2001, 18: 13-29 [26] Yeates GW. Nematodes as soil indicators: Functional and biodiversity aspects. Biology and Fertility of Soils, 2003, 37: 199-210 [27] Miransari M. Soil microbes and plant fertilization. Applied Microbiology and Biotechnology, 2011, 92: 875-885 [28] Zhou J-H (周际海), Tao J (陶 军), Chen X-Y (陈小云), et al. Soil nematode density inside and outside a pesticide factory in Anhui. Biodiversity Science (生物多样性), 2008, 16(6): 613-617 (in Chinese) [29] Griffiths BS, Daniell TJ, Donn S, et al. Bioindication potential of using molecular characterization of the nematode community: Response to soil tillage. European Journal of Soil Biology, 2012, 49: 92-97 [30] Christensen S, Dam M, Vestergard M, et al. Specific antibiotics and nematode trophic groups agree in assessing fungal: Bacterial activity in agricultural soil. Soil Bio-logy & Biochemistry, 2012, 55: 17-19 [31] Yin R (尹 睿), Zhang H-Y (张华勇), Huang J-F (黄锦法), et al. Comparison of microbiological properties between soils of rice-wheat rotation and vegetable cultivation. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2004, 10(1): 57-62 (in Chinese) [32] Xue H-Y (薛会英), Luo D-Q (罗大庆), Yu B-Z (于宝政). Community characteristics of soil nematode in Abies georgei var. smithii forest in Sejila Mountain of Tibet, Southwest China. Chinese Journal of Applied Ecology (应用生态学报), 2012, 23(12): 3402-3408 (in Chinese) [33] Bazot S, Mikola J, Nguyen C. Defoliation-induced changes in carbon allocation and root soluble carbon concentration in field-grown Lolium perenne plants: Do they affect carbon availability, microbes and animal trophic groups in soil? Functional Ecology, 2005, 19: 886-896 [34] Liu Y-D (刘雨迪), Chen X-Y (陈小云), Liu M-Q (刘满强), et al. Changes in soil microbial properties and nematode assemblage over time during rice cultivation. Biodiversity Science (生物多样性), 2013, 21(3): 334-342 (in Chinese) |