[1] Karlsson PE, Klingberg J, Engardt M, et al. Past, present and future concentrations of ground-level ozone and potential impacts on ecosystems and human health in northern Europe. Science of the Total Environment, 2016, 576: 22-35 [2] Ashmore M, Emberson L, Karlsson PE, et al. Introduction for ozone deposition special issue. Atmospheric Environment, 2004, 38: 2211-2212 [3] Vingarzan R. A review of surface ozone background levels and trends. Atmospheric Environment, 2004, 38: 3431-3442 [4] IPCC. Climate Change 2007: The Physical Science Basis: Contribution of Working Group Ⅰ to the Fowth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge: Cambridge University Press, 2007: 1-996 [5] Sui L-H (隋立华), Huang Y-Z (黄益宗), Wang W (王 玮), et al. Effects of elevated ozone on antioxidant system of winter wheat leaf in varied growth stages. Asian Journal of Ecotoxicology (生态毒理学报), 2011, 6(5): 507-514 (in Chinese) [6] Zheng Y-F (郑有飞), Hu C-D (胡程达), Wu R-J (吴荣军), et al. Experiment with effects of increased surface ozone concentration upon winter wheat photosynthesis. Acta Ecologica Sinica (生态学报), 2010, 30(4): 847-856 (in Chinese) [7] Liang J (梁 晶), Zeng Q (曾 青), Zhu J-G (朱建国), et al. Effects of O3-FACE (Ozone-free Air Control Enrichment) on respiration enzymes of rice leaf. Chinese Agricultural Science Bulletin (中国农学通报), 2010, 26(6): 260-264 (in Chinese) [8] Yu Y-C (余永昌), Lin X-G (林先贵), Zhang J (张晶), et al. Effect of elevated surface O3 concentration on soil microbial functional diversity in wheat field. Chinese Journal of Applied and Environmental Biology (应用与环境生物学报), 2012, 18(2): 309-314 (in Chinese) [9] Wang J-S (王劲松), Fan F-F (樊芳芳), Guo J (郭珺), et al. Effect of different crop rotations on growth of continuous cropping sorghum and its rhizosphere soil micro-environment. Chinese Journal of Applied Ecology (应用生态学报), 2016, 27(7): 2283-2291 (in Chinese) [10] Ning C-C (宁川川), Wang J-W (王建武), Cai K-Z (蔡昆争). The effects of organic fertilizers on soil fertility and soil environmental quality: A review. Ecology and Environmental Sciences (生态环境学报), 2016, 25(1): 175-181 (in Chinese) [11] Yu Y-C (余永昌), Lin X-G (林先贵), Feng Y-Z (冯有智), et al. Effects of elevated surface O3 concentration on soil biological properties in a rice/wheat rotation field. Soils (土壤), 2012, 44(3): 450-455 (in Chinese) [12] Yang R (杨 瑞), Liu S (刘 帅), Wang Z-Q (王紫泉), et al. Relationships between the soil enzyme activity and soil nutrients in forest soils typical of the Qinling Mountain. Acta Pedologica Sinica (土壤学报), 2016, 53(4): 1037-1046 (in Chinese) [13] Zhang Y (张 勇), Chen S-T (陈书涛), Wang L-X (王连喜), et al. Effects of elevated ozone concentration on soil respiration, nitrification and denitrification in a winter wheat farmland. Environmental Science (环境科学), 2010, 31(12): 2988-2994 (in Chinese) [14] Huang W-B (黄文斌), Ma R (马 瑞), Yang D (杨迪), et al. Organic acids secreted from plant roots under soil stress and their effects on plant ecological adaptability. Journal of Anhui Agricultural Sciences (安徽农业科学), 2013, 41(34): 13316-13319 (in Chinese) [15] Li C-Y (李春艳), Li C-R (李传荣), Xu J-W (许景伟), et al. Study on soil nutrients, microbes and enzyme activities of different stands of silting coastal area. Journal of Soil and Water Conservation (水土保持学报), 2007, 21(1): 156-159 (in Chinese) [16] Shi C-E (施翠娥), Ai F-X (艾弗逊), Wang C-R (汪承润), et al. Effects of elevated atmospheric CO2 and O3 on soil enzyme activities and microbial biomass. Journal of Agro-Environment Science (农业环境科学学报), 2016, 35(6): 1103-1109 (in Chinese) [17] Wang X, Agathokleous E, Qu L, et al. Effects of CO2 and O3 on the interaction between root of woody plants and ectomycorrhizae. Journal of Agricultural Meteorology, 2016, 72: 95-105 [18] Bao S-D (鲍士旦). Soil and Agrochemical Analysis. Beijing: China Agriculture Press, 1988 (in Chinese) [19] Cai K-Z (蔡昆争), Luo S-M (骆世明), Duan S-S (段舜山). The response of rice root system to different light intensity after root confinement. Journal of South China Agricultural University (华南农业大学学报), 2007, 28(1): 1-5 (in Chinese) [20] Zhou L-K (周礼恺), Zhang Z-M (张志明). The determination methods of soil enzyme activity. Chinese Journal of Soil Science (土壤通报), 1980, 11(5): 38 (in Chinese) [21] Wang P (王 平), Zhou R (周 荣). Determination of organic acids exuded from plant roots by high performance liquid chromatography. Chinese Journal of Chromatography (色谱), 2006, 24(3): 239-242 (in Chinese) [22] Li R (李 锐), Liu Y (刘 瑜), Chu G-X (褚贵新). Effects of different cropping patterns on soil enzyme activities and soil microbial community diversity in oasis farmland. Chinese Journal of Applied Ecology (应用生态学报), 2015, 26(2): 490-496 (in Chinese) [23] Geng C-M (耿春梅), Wang Z-S (王宗爽), Ren L-H (任丽红), et al. Study on the impact of elevated atmospheric ozone on crop yield. Research of Environmental Sciences (环境科学研究), 2014, 27(3): 239-245 (in Chinese) [24] Jing L, Dombinov V, Shen S, et al. Physiological and genotype-specific factors associated with grain quality changes in rice exposed to high ozone. Environmental Pollution, 2016, 210: 397-408 [25] Feng ZZ, Kazuhiko K, Elizabetha A. Impact of elevated ozone concentration on growth, physiology, and yield of wheat (Triticum aestivum L.): A meta-analysis. Global Change Biology, 2008, 14: 2696-2708 [26] Chen Z (陈 展), Wang X-K (王效科), Feng Z-Z (冯兆忠), et al. Effects of elevated ambient ozone on ecosystem below ground processes. Chinese Journal of Ecology (生态学杂志), 2007, 26(1): 121-125 (in Chinese) [27] Xu Z-F (徐振锋), Tang Z (唐 正), Wan C (万川), et al. Effects of simulated warming on soil enzyme activities in two subalpine coniferous forests in west Sichuan. Chinese Journal of Applied Ecology (应用生态学报), 2010, 21(11): 2727-2733 (in Chinese) [28] Huang Y-Z (黄益宗), Wang F (王 斐), Zhong M (钟 敏), et al. Effects of elevated ozone on carbon, nitrogen content and soil enzymes activities in a winter wheat field. Asian Journal of Ecotoxicology (生态毒理学报), 2013, 8(6): 871-878 (in Chinese) [29] Li G-M (李果梅), Wang S-Y (王殳屹), Shi Y (史奕), et al. Effects of elevated ozone and temperature on soil enzymes activities and phenolic compounds content in spring wheat. Journal of Agro-Environment Science (农业环境科学学报), 2008, 27(1): 121-125 (in Chinese) [30] Jin C-X (金彩霞), Zhu W-F (朱雯斐), Li M-L (李明亮), et al. The dynamic change of organic acid content in the rhizopheric soils. Journal of Arid Land Resources and Environment (干旱区资源与环境), 2013, 27(11): 86-91 (in Chinese) [31] Wang S-G (王曙光), Feng Z-Z (冯兆忠), Wang X-K (王效科), et al. Effects of elevated atmospheric O3 on arbuscular mycorrhizal (AM) and its function. Environmental Science (环境科学), 2006, 27(9): 1872-1877 (in Chinese) [32] Geng G (耿 贵). Effect of Crop Root Exudates on Carbon and Nitrogen Contents, Microorganisms Quatity and Enzyme Activities in Soil. PhD Thesis. Shengyang: Shengyang Agricultural University, 2011 (in Chinese) [33] Wu R, Zheng Y, Hu C. Evaluation of the chronic effects of ozone on biomass loss of winter wheat based on ozone flux-response relationship with dynamical flux thres-holds. Atmospheric Environment, 2016, 142: 93-103 [34] Yi L-P (弋良朋), Zhang H (张 辉). Characteristics of soil enzymatic activities and relationship with the main nutrient in the rhizosphere of four littoral halophytes. Ecology and Environmental Science (生态环境学报), 2011, 20(2): 270-275 (in Chinese) [35] Qiu L-P (邱莉萍), Liu J (刘 军), Wang Y-Q (王益权), et al. Research on relationship between soil enzyme activities and soil fertility. Plant Nutrition and Fertilizer Science (植物营养与肥料学报), 2004, 10(3): 277-280 (in Chinese) [36] Kou TJ, Cheng XH, Zhu JG, et al. The influence of ozone pollution on CO2, CH4, and N2O emissions from a Chinese subtropical rice-wheat rotation system under free-air O3 exposure. Agriculture, Ecosystems & Environment, 2015, 204: 72-81 [37] Lu W-L (陆文龙), Cao Y-P (曹一平), Zhang F-S (张福锁). Role of root exuded organic acids in mobilization of soil phosphorus and micronutrients. Chinese Journal of Applied Ecology (应用生态学报), 1999, 10(3): 379-382 (in Chinese) |