[1] 李秀英. 土地沙化与防沙治沙措施研究[J]. 科技创新与应用, 2013(15): 143.

LI Xiuying. Study on land desertification and sand control measures [J]. Technol Innovation Appl, 2013(15): 143.
[2] 国家林业局. 第5次中国荒漠化和沙化状况公报[R/OL]. 2015-12-29[2019-08-13]. http://www.forestry.gov.cn.
[3] 国家林业局. 第4次中国荒漠化和沙化状况公报[R/OL]. 2011-01-07[2019-08-13]. http://www.forestry.gov.cn.
[4] 唐学芳, 刘冬梅, 万婷, 等. 川西北高寒草地沙化土壤特征及治理模式探讨: 以阿坝州红原县为例[J]. 四川环境, 2013, 32(6): 11 − 15.

TANG Xuefang, LIU Dongmei, WAN Ting, et al. Research on soil characteristics of Alpine esertification grassland and treatment model in Hongyuan County, Northwest Sichuan [J]. Sichuan Environ, 2013, 32(6): 11 − 15.
[5] 王艳, 杨剑虹, 潘洁, 等. 川西北高寒草原退化沙化成因分析: 以红原县为例[J]. 草原与草坪, 2009, 1(1): 20 − 26.

WANG Yan, YANG Jianhong, PAN Jie, et al. Analysis on the causes of degeneration and sandification of alpine grassland in northwest part of Sichuan Province: Taking Hongyuan County as the example [J]. Grassland Turf, 2009, 1(1): 20 − 26.
[6]

WU Hanjing, MILFORD A H, JONES D D. Thermogravimetric characterization of dairy manure as pyrolysis and combustion feedstocks [J]. Waste Manage Res, 2012, 30(10): 1066 − 1071.
[7]

CANTRELL K B, HUNT P G, UCHIMIYA M, et al. Impact of pyrolysis temperature and manure source on physicochemical characteristics of biochar [J]. Bioresour Technol, 2012, 107: 419 − 428.
[8] 吴成, 张晓丽, 李关宾. 黑碳吸附汞砷铅镉离子的研究[J]. 农业环境科学学报, 2007, 26(2): 770 − 774.

WU Cheng, ZHANG Xiaoli, LI Guanbin. Sorption of Hg2+, As3+, Pb2+ and Cd2+ by Black Carbon [J]. J Agro Environ Sci, 2007, 26(2): 770 − 774.
[9]

DUAN Yumin, AWASTHI S K, LIU Tao, et al. Positive impact of biochar alone and combined with bacterial consortium amendment on improvement of bacterial community during cow manure composting [J]. Bioresour Technol, 2019, 280: 79 − 87.
[10] 曹丽花, 赵世伟, 梁向锋, 等. PAM对黄土高原主要土壤类型水稳性团聚体的改良效果及机理研究[J]. 农业工程学报, 2008, 24(1): 45 − 49.

CAO Lihua, ZHAO Shiwei, LIANG Xiangfeng, et al. Improvement effects of PAM on soil water stable aggregates and its mechanisms in different soils in the Loess Plateau [J]. Trans Chin Soc Agric Eng, 2008, 24(1): 45 − 49.
[11] 刘纪根, 张平仓, 陈展鹏. 聚丙烯酰胺对扰动红壤可蚀性及临界剪切力的影响[J]. 农业工程学报, 2010, 26(7): 45 − 49.

LIU Jigen, ZHANG Pingcang, CHEN Zhanpeng. Effects of polyacrylamide(PAM)on soil erodibility and critical shear stresses for disturbed red soil [J]. Trans Chin Soc Agric Eng, 2010, 26(7): 45 − 49.
[12] 丁黎. 羊粪炭化及堆肥产品对沙化土壤改良的研究[D]. 杭州: 浙江农林大学, 2018.

DING Li. The Effect of Sheep Dung Biochar and Composting Products on the Nutrient Improvement of Sandy Soil[D]. Hangzhou: Zhejiang A&F University, 2018.
[13] 鲁如坤. 土壤农业化学分析方法[M]. 北京: 中国农业科技出版社, 1999.
[14] 潘凤娥, 索龙, 胡俊鹏, 等. 生物质炭对砖红壤pH及养分含量影响研究[J]. 热带农业科学, 2015, 35(9): 25 − 29.

PAN Fenge, SUO Long, HU Junpeng, et al. Effect of biochar on the pH and nutrient content in latosol [J]. Trop Agric Sci, 2015, 35(9): 25 − 29.
[15] 谢祖彬, 刘琦, 许燕萍, 等. 生物炭研究进展及其研究方向[J]. 土壤, 2011, 43(6): 857 − 861.

XIE Zubin, LIU Qi, XU Yanping, et al. Advances and perspectives of biochar research [J]. Soils, 2011, 43(6): 857 − 861.
[16] 袁金华, 徐仁扣. 生物质炭的性质及其对土壤环境功能影响的研究进展[J]. 生态环境学报, 2011, 20(4): 779 − 785.

YUAN Jinhua, XU Renkou. Progress of the research on the properties of biochars and their influence on soil environmental functions [J]. J Ecol Environ, 2011, 20(4): 779 − 785.
[17] 蔡娟, 张应虎, 张昌勇, 等. 牛粪堆肥过程中的物质变化及腐熟度评价[J]. 贵州农业科学, 2018, 46(10): 72 − 75.

CAI Juan, ZHANG Yinghu, ZHANG Changyong, et al. Material change and rotten degree evaluation in cattle dung composting process [J]. Guizhou Agric Sci, 2018, 46(10): 72 − 75.
[18] 王燕, 庞卓, 贾月, 等. 生物炭对北京郊区砂土持水力和氮淋溶特性影响的土柱模拟研究[J]. 农业环境科学学报, 2017, 36(9): 1820 − 1828.

WANG Yan, PANG Zhuo, JIA Yue, et al. Effects of biochar on water holding capacity and nitrogen leaching of sandy soil column from a Beijing suburb [J]. J Agro Environ Sci, 2017, 36(9): 1820 − 1828.
[19] 杨放, 李心清, 刑英, 等. 生物炭对盐碱土氮淋溶的影响[J]. 农业环境科学学报, 2014, 33(5): 972 − 977.

YANG Fang, LI Xinqing, XING Ying, et al. Effect of biochar smendment on nitrogen leaching in saline soil [J]. J Agro Environ Sci, 2014, 33(5): 972 − 977.
[20] 盖霞普, 刘宏斌, 翟丽梅, 等. 玉米秸秆生物炭对土壤无机氮素淋失风险的影响研究[J]. 农业环境科学学报, 2015, 34(2): 310 − 318.

GAI Xiapu, LIU Hongbin, ZHAI Limei, et al. Effects of corn stalk biochar on inorganic nitrogen leaching from soil [J]. J Agro Environ Sci, 2015, 34(2): 310 − 318.
[21] 郑瑞伦, 王宁宁, 孙国新, 等. 生物炭对京郊沙化地土壤性质和苜蓿生长、养分吸收的影响[J]. 农业环境科学学报, 2015, 34(5): 904 − 912.

ZHENG Ruilun, WANG Ningning, SUN Guoxin, et al. Effects of biochar on soil properties and alfalfa growth and nutrient uptake in desertified land in Beijing suburb [J]. J Agro Environ Sci, 2015, 34(5): 904 − 912.
[22]

ZHENG Hao, WANG Zhenyu, DENG Xia, et al. Impacts of adding biochar on nitrogen retention and bioavailability in agricultural soil [J]. Geoderma, 2013, 206: 32 − 39.
[23]

ULYEET J, SAKRABANI R, KIBBLEWHITE M, et al. Impact of biochar addition on water retention, nitrification and carbon dioxide evolution from two sandy loam soils [J]. Eur J Soil Sci, 2014, 1: 96 − 104.
[24] 何飞飞, 梁运姗, 吴爱平, 等. 不同生物炭用量对酸性菜地土硝化作用的影响[J]. 环境科学学报, 2014, 34(9): 2376 − 2383.

HE Feifei, LIANG Yunshan, WU Aiping, et al. Effect of biochar on nitrification from vegetable planting acid soil [J]. Acta Sci Circumst, 2014, 34(9): 2376 − 2383.
[25]

GUNDALE M J, DELUCA T H. Charcoal effects on soil solution chemistry and growth of Koeleria macrantha in the ponderosa pine/Douglas fir ecosystem [J]. Biol Fert Soil, 2007, 3: 303 − 311.
[26]

DELUCA T H, MACKENZIE M D, GUNDALE M J. Biochar Effects on Soil Nutrient Transformations[M]. London: Earthscan Publications Ltd, 2009.
[27] 王静, 付伟章, 葛晓红, 等. 玉米生物炭和改性炭对土壤无机氮磷淋失影响的研究[J]. 农业环境科学学, 2018, 37(12): 2810 − 2820.

WANG Jing, FU Weizhang, GE Xiaohong, et al. Effects of corn biochar and modified carbon on leaching of inorganic nitrogen and phosphorus in soil [J]. J Agro Environ Sci, 2018, 37(12): 2810 − 2820.
[28] 谢胜禹, 余广炜, 潘兰佳, 等. 添加生物炭对猪粪好氧堆肥的影响[J]. 农业环境科学学报, 2019, 38(6): 1365 − 1372.

XIE Shengyu, YU Guangwei, PAN Lanjia, et al. Influnce of biochar on the aerobic compost of pig manure [J]. J Agro Environ Sci, 2019, 38(6): 1365 − 1372.
[29]

SMEBYE A, ALLIN G V, VOGT R D, et al. Biochar amendment to soil changes dissolved organic matter content and composition [J]. Chemosphere, 2016, 142: 100 − 105.
[30] 张宝贵, 李贵桐. 土壤生物在土壤磷有效化中的作用[J]. 土壤学报, 1998, 35(1): 104 − 111.

ZHANG Baogui, LI Guitong. The role of soil organisms in the activation of soil phosphorus [J]. Acta Pedol Sin, 1998, 35(1): 104 − 111.
[31] 刘玉学, 唐旭, 杨生茂, 等. 生物炭对土壤磷素转化的影响及其机理研究进展[J]. 植物营养与肥料学报, 2016, 22(6): 1690 − 1695.

LIU Yuxue. TANG Xu, YANG Shengmao, et al. Review on the effect of biochar on soil phosphorus transformation and mechanisms [J]. Plant Nutr Fert Sci, 2016, 22(6): 1690 − 1695.
[32]

ANGST T E, SOHI S P. Establishing release dynamics for plant nutrients from biochar [J]. GCB Bioenergy, 2013, 2: 221 − 226.
[33]

STREUBEL J D, COLLINS H P, GARCIA-PEREZ M, et al. Influence of contrasting biochar types on five soils at increasing rates of application [J]. Soil Sci Soc Am, 2011, 75(4): 1402 − 1413.
[34] 袁耀, 郭建斌, 尹诗萌, 等. 自制环保型土壤改良剂对一年生黑麦草生长的作用[J]. 草业学报, 2015, 24(10): 206 − 213.

YUAN Yao, GUO Jianbin, YIN Shimeng, et al. Effect of soil conditioner on the growth of Lolium multiflorum [J]. Acta Pratac Sin, 2015, 24(10): 206 − 213.
[35]

MIDDELBURG J J, NIEUWENHUIZE J, van BREUGEL P. Black carbon in marine sediments [J]. Marine Chem, 1999, 65(3/4): 245 − 252.
[36]

GLASER B, HAUMAIER L, GUGGENBERGER G, et al. Black carbon in soils: the use of benzenecarboxylic acids as specific markers [J]. Orga Geochem, 1998, 29(4): 811 − 819.
[37] 陆绍娟, 王占礼. 土壤改良剂聚丙烯酰胺的研究进展[J]. 人民黄河, 2016, 38(7): 73 − 77.

LU Shaojuan, WANG Zhanli. Research progress of soil conditioner polyacrylamide [J]. Yellow River, 2016, 38(7): 73 − 77.
[38] 王辉, 王全九, 邵明安. PAM对黄土坡地水分养分迁移特性影响的室内模拟试验[J]. 农业工程学报, 2008, 24(6): 85 − 88.

WANF Hui, WANG Quanjiu, SHAO Mingan. Laboratory simulation experiment of impact of polyacrylamide on transportation of soil water and nutrients from the loess sloping land [J]. Trans CSAE, 2008, 24(6): 85 − 88.