[1] Liu J-L (刘继来), Liu Y-S (刘彦随), Li Y-R (李裕瑞). Classification evaluation and spatial-temporal analy-sis of “production-living-ecological” spaces in China. Acta Geographica Sinica (地理学报), 2017, 72(7): 1290-1304 (in Chinese) [2] Moraine M, Duru M, Therond O. A social-ecological framework for analyzing and designing integrated crop-livestock systems from farm to territory levels. Renewable Agriculture and Food Systems, 2017, 32: 43-56 [3] Herrero M, Thornton PK, Notenbasert AM, et al. Smart investments in sustainable food production: Revisiting mixed crop-livestock systems. Science, 2010, 327: 822-825 [4] Thornton PK, Herrero M. Climate change adaptation in mixed crop-livestock systems in developing countries. Global Food Security-Agriculture Policy Economics and Environment, 2014, 3: 99-107 [5] Meng X-H (孟祥海), Zhou H-C (周海川), Zhou H-W (周海文). Balancing of planting-breeding on a region scale and factors affecting willingness of livestock farms for planting-breeding combination: A case study in Jiangsu Province. Journal of Ecology and Rural Environment (生态与农村环境学报), 2018, 34(2): 132-139 (in Chinese) [6] Russelle MP, Entz MH, Franzluebbers AJ. Reconsidering integrated crop-livestock systems in north America. Agronomy Journal, 2007, 99: 325-334 [7] Cui Y-F (崔艺凡). Analysis on the Models and Key Factors of Combination with Corn Planting and Cow Breeding. PhD Thesis. Beijing: Chinese Academy of Agricultural Sciences, 2017 (in Chinese) [8] Wu G-Q (吴国庆). Study on ecological safety and its evaluation of regional agricultural sustainable development. Journal of Natural Resource (自然资源学报), 2001, 16(3): 227-233 (in Chinese) [9] Lin Y (林 源), Ma J (马 骥), Qin F (秦 富). The structure distribution and prospect of China manure resource. Chinese Agricultural Science Bulletin (中国农学通报), 2012, 28(32): 1-5 (in Chinese) [10] Ryschawy J, Martin G, Moraine M, et al. Designing crop-livestock integration at different levels: Toward new agroecological models? Nutrient Cycling in Agroecosystems, 2017, 108: 5-20 [11] Keesling E. Sustainable Agriculture at the University of California: Knowledge, Technology, and Development for the Benefit of Whom? PhD Thesis. Humboldt: Humboldt State University, 2014 [12] Liu Y-S (刘彦随), Wu C-J (吴传钧). Theories and progress of study on sustainable agriculture development. Economic Geography (经济地理), 2000, 20(1): 63-68 (in Chinese) [13] Zhou SD, Mueller F, Burkhard B, et al. Assessing agricultural sustainable development based on the DPSIR approach: Case study in Jiangsu, China. Journal of Integrative Agriculture, 2013, 12: 1292-1299 [14] Toumi O, Gallo JL, Rejeb JB. Assessment of Latin American sustainability. Renewable & Sustainable Energy Reviews, 2017, 78: 878-885 [15] Yang S-Q (杨世琦). A case study of a novel sustai-nable agricultural development evaluation method based on Euclidean distance theory. Acta Ecologica Sinica (生态学报), 2017, 37(11): 3840-3848 (in Chinese) [16] Cornelissen AMG, Berg JVD, Koops WJ, et al. Assessment of the contribution of sustainability indicators to sustainable development: A novel approach using fuzzy set theory. Agriculture, Ecosystems & Environment, 2001, 86: 173-185 [17] Bolcárová P, Kološta S. Assessment of sustainable development in the EU 27 using aggregated SD index. Ecological Indicators, 2015, 48: 699-705 [18] Duguleana L, Balasescu M, Duguleana C, et al. Dynamic analysis of European organic agricultural areas in the context of sustainable development. Outlook on Agriculture, 2018, 47: 27-35 [19] Zhao J, Ma CH, Zhao XG, et al. Spatio-temporal dynamic analysis of sustainable development in China based on the footprint family. International Journal of Environmental Research and Public Health, 2018, 15: 18-19 [20] Du B, Zhang KM, Song GJ, et al. Methodology for an urban ecological footprint to evaluate sustainable deve-lopment in China. International Journal of Sustainable Development and World Ecology, 2006, 13: 245-254 [21] Yang F (杨 芳), Wu Y-C (吴永常), Wei W-S (韦文珊), et al. Study on agriculture ecological sustainable development index based on energy analysis. Chinese Journal of Agricultural Resources and Regional Planning (中国农业资源与区划), 2017, 38(11): 17-23 (in Chinese) [22] Patrizi N, Niccolucci V, Castellini C, et al. Sustai-nability of agro-livestock integration: Implications and results of emergy evaluation. Science of the Total Environment, 2018, 622: 1543-1552 [23] Odum HT. Environmental accounting: Emergy and environmental decision making. Child Development,1996, New York: John Wiley [24] Zhao G-S (赵桂慎), Jiang H-R (姜浩如), Wu W-L (吴文良). Sustainability of farmland ecosystem with high yield based onemergy analysis method. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2011, 27(8): 318-323 (in Chinese) [25] Giannetti BF, Ogura Y, Bonilla SH, et al. Emergy assessment of a coffee farm in Brazilian Cerrado conside-ring in a broad form the environmental services, negative externalities and fair price. Agricultural Systems, 2011, 104: 679-688 [26] Ghaley BB, Porter JR. Emergy synthesis of a combined food and energy production system compared to a conventional wheat (Triticum aestivum) production system. Ecological Indicators, 2013, 24: 534-542 [27] Cavalett O, Ortega E. Emergy, nutrients balance, and economic assessment of soybean production and industria-lization in Brazil. Journal of Cleaner Production, 2009, 17: 762-771 [28] Zhang XH, Zhang R, Zhang YZ, et al. An emergy eva-luation of the sustainability of Chinese crop production system during 2000-2010. Ecological Indicators, 2016, 60: 622-633 [29] Liu Z (刘 振), Liu L (刘 玲), Zhang S-M (张淑敏), et al. Comparison of emergy efficiency and sustai-nable development capability between different agricultu-ral circulation modes with straw utilization. Chinese Joural of Applied Ecology (应用生态学报), 2016, 36(15): 4739-4750 (in Chinese) [30] Yang Z-X (杨卓翔), Gao Y(高 阳), Zhao Z-Q (赵志强), et al. Research on three small-scale agricultural ecological-economic systems in Shenzhen City based on emergy analysis. Acta Ecologica Sinica (生态学报), 2012, 32 (11): 3635-3644 (in Chinese) [31] Ghisellini P, Zucaro A, Viglia S, et al. Monitoring and evaluating the sustainability of Italian agricultural system: An emergy decomposition analysis. Ecological Modelling, 2014, 271: 132-148 [32] Ferraro DO, Benzi P. A long-term sustainability assessment of an Argentinian agricultural system based on emergy synthesis. Ecological Modelling, 2015, 306: 121-129 [33] Zhu Y-L (朱玉林), Li M-J (李明杰). Emergy of agro-ecosystem in Hunan Province: Evolution and trend. Chinese Joural of Applied Ecology (应用生态学报), 2012, 23(2): 499-505 (in Chinese) [34] National Bureau of Statistics Survey Team of Shandong Province (国家统计局山东调查总队课题组). Study on Shandong’s grain comprehensive production capacity. Shandong Economic Strategy Research (山东经济战略研究), 2012(11): 20-24 (in Chinese) [35] Qiu H-G (仇焕广), Liao S-P (廖绍攀), Jing Y (井月), et al. Regional differences and development tendency of livestock manure pollution in China. Environmental Science (环境科学), 2013, 34(7): 2766-2774 (in Chinese) [36] Yang J-C (杨景晁), Zhou K-F (周开锋), Hou S-Z (侯世忠), et al. The situation, problems and measures of the integrated crop-livestock in Shandong Province. Chinese Journal of Animal Science (中国畜牧业杂志), 2018, 54(5): 149-152 (in Chinese) [37] Wang J-Y (王建源), Xue D-Q (薛德强), Tian X-P (田晓萍), et al. Emergy analysis of agroecosystems in Shandong Province of China. Chinese Journal of Ecology (生态学杂志), 2007, 26(5): 718-722 (in Chinese) [38] Liu F-G (刘富刚). Agricultural system of Dezhou City based on energy analysis. Bulletin of Soil and Water Conservation (水土保持通报), 2010, 30(4): 235-240 (in Chinese) [39] Chen F (陈 阜). Agricultural Ecology. Beijing: China Agricultural University Press, 2011 (in Chinese) [40] Li HT, Brown MT. Emergy-based environmental accoun-ting toward a sustainable Mongolia. Journal of Geographi-cal Sciences, 2017, 27: 1227-1248 [41] Zhang Y-C (张颖聪), Du S-H (杜受祜). Emergy evaluation and dynamic measurement analysis of agro-ecosystems in Sichuan Province of Southwest China. Chinese Joural of Applied Ecology (应用生态学报), 2012, 23(3): 827-834 (in Chinese) [42] Lan S-F (蓝盛芳), Qin P (钦 佩), Lu H-F (陆宏芳). Ecological Energy System Emergy Analysis. Beijing: Chemical Industry Press, 2002 (in Chinese) [43] Brown MT, Ulgiati S. Emergy assessment of global renewable sources. Ecological Modelling, 2016, 339: 148-156 [44] Shandong Provincial Bureau of Statistics (山东省统计局). Shandong Statistical Yearbook 2000-2016. Beijing: China Statistics Press, 2000-2016 (in Chinese) [45] Shandong Provincial Bureau of Statistics (山东省统计局). Shandong Rural Statistical Yearbook 2000-2003, 2007-2008. Ji’nan: Shandong Statistics Press, 2000-2003, 2007-2008 (in Chinese) [46] National Development and Reform Commission (国家发展和改革委员会). Compilation of Cost and Income Data of National Agricultural Products 2002-2016. Beijing: China Statistics Press, 2002-2016 (in Chinese) [47] Wang XL, Chen YQ, Sui P, et al. Emergy analysis of grain production systems on large-scalefarms in the North China Plain based on LCA. Agricultural Systems, 2014, 128: 66-78 [48] Jiang MM, Chen B, Zhou JB, et al. Emergy account for biomass resource exploitation by agriculture in China. Energy Policy, 2007, 35: 4704-4719 [49] Zhang L-J (张鲁杰). The technology of production of organic fertilizer by sheep manure fermentation. Shandong Journal of Animal Science and Veterinary Medicine (山东畜牧兽医), 2018(1): 87 (in Chinese) [50] Shi A (石 奥), Liu Y (刘 岩), Li P (李 鹏). Determination of organic carbon and organic matter in animal manure. Animal Husbandry and Feed Science (畜牧与饲料科学), 2016, 37(2): 14-17 (in Chinese) [51] Ye Y-L (叶优良), Yang X-M (杨晓梅), Qu R-T (曲日涛), et al. Fertilizer application and nutrients balance in Shandong Province. Chinese Journal of Soil Science (土壤通报), 2006, 37(3): 500-504 (in Chinese) [52] Chen GQ, Jiang MM, Chen B, et al. Emergy analysis of Chinese agriculture. Agriculture, Ecosystems & Environment, 2006, 115: 161-173 [53] Liu XW, Chen BM. Efficiency and sustainability analysis of grain production in Jiangsu and Shaanxi provinces of China. Journal of Cleaner Production, 2007, 15: 313-322 [54] Castellini C, Bastianoni S, Granai C, et al. Sustainability of poultry production using the emergy approach: Comparison of conventional and organic rearing systems. Agriculture, Ecosystems & Environment, 2006, 114: 343-350 [55] Ma R-B (马如彪), Liu Y (刘 云), Wang J-L (王金亮), et al. Analysis of agriculture ecological energy at county level in Tibetan areas of Yunnan Province. Research of Soil and Water Conservation (水土保持研究), 2014, 21(4): 92-96 (in Chinese) [56] Dong Y (董 云), Yang L-Z (杨凌志), Zhang Y-F (张玉芳), et al. Analysis and evaluation of cropping-grazing system of Inner Mongolia based on emergy. Ecological Economy (生态经济), 2008(1): 171-174 (in Chinese) [57] Campbell DE. Emergy analysis of human carrying capa-city and regional sustainability: An example using the state of Maine. Environmental Monitoring and Assessment, 1998, 51: 531-569 [58] Jing Y-P (井永苹), Li Y (李 彦), Zhang Y-P (张英鹏), et al. Effects of different manure application rates on soil nitrate nitrogen content and nitrogen use efficiency. Shandong Agricultural Sciences (山东农业科学), 2016, 48(12): 95-100 (in Chinese) [59] Li Z (李 占), Ding N (丁 娜), Guo L-Y (郭立月), et al. Effects of different ratios of organic manure and chemical fertilizer on growth, yield and quality of winter wheat and summer maize. Shandong Agricultural Sciences (山东农业科学), 2013, 45(7): 71-77 (in Chinese) [60] Pan X-F (潘晓峰). Research on the Development of Agriculture Mechanization in Shandong Province. PhD Thesis. Tai’an: Shandong Agricultural University, 2017 (in Chinese) [61] Deng J, Zhao FZ, Han XH, et al. Emergy analysis on different planting patterns of typical watersheds in Loess Plateau. Chinese Joural of Applied Ecology (应用生态学报), 2016, 27(5): 1576-1584 (in Chinese) |