[1]李立颖,姜兴荣,梁爽,等. 多菌灵在苹果生产中的农药残留表现和生产建议[J]. 北方园艺,2019(14):177.
[2]徐世积,何影,李思齐,等. 环境中可电离有机化合物生物有效性研究进展[J]. 生态与农村环境学报,2017,33(5):385-395.
[3]Aire T A. Short-term effects of carbendazim on the gross and microscopic features of the testes of Japanese quails (Coturnix coturnix japonica)[J]. Anatomy and Embryology,2005,210(1):43-49.
[4]刘笑生,陆海鹰,崔红标,等. 秸秆生物炭还田应用及环境风险综述[J]. 江苏农业科学,2018,46(24):28-35.
[5]王凡,屈忠义. 生物炭对盐渍化农田土壤的改良效果研究进展[J]. 北方农业学报,2018,46(5):68-75.
[6]李佳,邓钧尹,周伟,等. 生物炭与硝化抑制剂对菜地综合温室效应的影响[J]. 江苏农业学报,2020,36(5):1205-1211.
[7]蒋欣梅,薛冬冬,于锡宏,等. 玉米秸秆生物炭对镉污染土壤中小白菜生长的影响[J]. 江苏农业学报,2020,36(4):1000-1006.
[8]雷文娟,周向阳. 生物炭对农药降解产物三氯吡啶醇在土壤中迁移的影响研究[J]. 农业工程学报,2019,35(10):173-180.
[9]王欣钰,高斯,孙长龙,等. 生物炭对污染土壤修复的研究进展[J]. 辽宁化工,2020,49(4):402-404,407.
[10]Mendes K F,De Sousa R N,Goulart M O,et al. Role of raw feedstock and biochar amendments on sorption-desorption and leaching potential of three 3H-and 14C-labelled pesticides in soils[J]. Journal of Radioanalytical and Nuclear Chemistry,2020,324(3):1373-1386.
[11]邵翼飞,张鹏,刘爱菊. 生物炭对噻虫胺在土壤中吸附和降解的影响[J]. 农业环境科学学报,2019,38(11):2520-2527.
[12]白金龙,郭丽,石冬瑾,等. 杉木生物炭对水中啶虫脒和噻虫胺的吸附特性[J]. 环境工程学报,2020,14(12):3339-3351.
[13]Trigo C,Spokas K A,Cox L,et al. Influence of soil biochar aging on sorption of the herbicides MCPA,nicosulfuron,terbuthylazine,indaziflam,and fluoroethyldiaminotriazine[J]. Journal of Agricultural and Food Chemistry,2014,62(45):10855-10860.
[14]Zhang X K,Sarmah A K,Bolan N S,et al. Effect of aging process on adsorption of diethyl phthalate in soils amended with bamboo biochar[J]. Chemosphere,2016,142(12):28-34.
[15]Ren X H,Sun H W,Wang F,et al. Effect of aging in field soil on biochars properties and its sorption capacity[J]. Environmental Pollution,2018,242:1880-1886.
[16]刘先才,平英华,韩柏和,等. 秸秆综合利用技术装备发展中存在的问题及对策[J]. 安徽农学通报,2019,25(增刊1):105-108.
[17]Tan L S,Ma Z H,Yang K Q,et al. Effect of three artificial aging techniques on physicochemical properties and Pb adsorption capacities of different biochars[J]. The Science of the Total Environment,2020,699:134223.
[18]Hale S E,Hanley K,Lehmann J,et al. Effects of chemical,biological,and physical aging as well as soil addition on the sorption of pyrene to activated carbon and biochar[J]. Environmental Science & Technology,2011,45(24):10445-10453.
[19] 国家市场监督管理总局. 化学农药环境安全评价试验准则第4部分:土壤吸附/解吸试验:GB/T 31270.1—2014[S]. 北京:中国标准出版社,2014:37-43.
[20]Ma Y,Zhou Q,Li A M,et al. Preparation of a novel magnetic microporous adsorbent and its adsorption behavior of p-nitrophenol and chlorotetracycline[J]. Journal of Hazardous Materials,2014,266:84-93.
[21]张涵瑜,王兆炜,高俊红,等. 芦苇基和污泥基生物炭对水体中诺氟沙星的吸附性能[J]. 环境科学,2016,37(2):689-696.
[22]Joseph S D,Campsarbest A M,Lin Y,et al. An investigation into the reactions of biochar in soil[J]. Australian Journal of Soil Research,2010,48:501-515.
[23]袁帅,赵立欣,孟海波,等. 生物炭主要类型、理化性质及其研究展望[J]. 植物营养与肥料学报,2016,22(5):1402-1417.
[24]吴文卫,周丹丹. 生物炭老化及其对重金属吸附的影响机制[J]. 农业环境科学学报,2019,38(1):7-13.
[25]何丽芝,张小凯,吴慧明,等. 生物质炭及老化过程对土壤吸附吡虫啉的影响[J]. 环境科学学报,2015,35(2):535-540.
[26]文方园,陈建,田路萍,等. 过氧化氢氧化对生物炭表面性质的改变及其对双酚A吸附的影响[J]. 生态毒理学报,2016,11(2):628-635.
[27] Ninlsen S,Minchin T,Kimber S,et al. Comparative analysis of the microbial communities in agricultural soil amended with enhanced biochars or traditional fertilisers[J]. Agriculture,Ecosystems & Environment,2014,191:73-82.
[28]Chen J,Sun X,Lin L,et al. Change in active microbial community structure,abundance and carbon cycling in an acid rice paddy soil with the addition of biochar[J]. European Journal of Soil Science,2016,67(6):857-867.
[29]黄拓. 污泥生物炭的制备及对土壤中多菌灵吸附和降解的影响研究[D]. 深圳:深圳大学,2018.
[1]王丽学,李振鹏,刘四平,等.玉米在不同覆盖方式处理下的土壤水温差异[J].江苏农业科学,2016,44(03):82.
Wang Lixue,et al.Differences of soil moisture and temperature under different mulching treatments of maize[J].Jiangsu Agricultural Sciences,2016,44(18):82.
[2]张虹,阳辉,代金霞.多菌灵降解细菌降解能力的影响因素[J].江苏农业科学,2013,41(11):374.
Zhang Hong,et al.Factors influencing degradation ability of carbendazim degradation bacterium[J].Jiangsu Agricultural Sciences,2013,41(18):374.
[3]田连生,陈菲.木霉菌剂与多菌灵协同防治灰霉病试验[J].江苏农业科学,2013,41(12):132.
Tian Liansheng,et al.Application experiment of Trichoderma mixed with carbendazim controlling gray mold[J].Jiangsu Agricultural Sciences,2013,41(18):132.
[4]王桂君,许振文,田晓露,等.生物炭对盐碱化土壤理化性质及小麦幼苗生长的影响[J].江苏农业科学,2013,41(12):390.
Wang Guijun,et al.Effects of biochar on physiochemical properties of soil and growth of wheat seedlings in saline-alkali soil[J].Jiangsu Agricultural Sciences,2013,41(18):390.
[5]张学艳,曹莹,孟军,等.生物炭对镉胁迫下水稻生长及光合产量的影响[J].江苏农业科学,2016,44(05):97.
Zhang Xueyan,et al.Effect of biochar on growth and photosynthesis yield of rice under stress of cadmium[J].Jiangsu Agricultural Sciences,2016,44(18):97.
[6]邱月,张辉.包膜氮肥、保水剂和生物炭在控制农田土壤氮素损失方面的应用综述[J].江苏农业科学,2015,43(10):417.
Qiu Yue,et al.Application of coated fertilizer, water retention agent and biochar in controlling nitrogen loss in agricultural soil:a review[J].Jiangsu Agricultural Sciences,2015,43(18):417.
[7]吴燕,吴瑞梅,黄双根,等.茶叶中多菌灵残留的SERS快速检测[J].江苏农业科学,2015,43(09):338.
Wu Yan,et al.Rapid detection of carbendazim residues in tea by surface-enhanced raman spectroscopy[J].Jiangsu Agricultural Sciences,2015,43(18):338.
[8]杨晓庆,侯仔尧,常梦婷,等.改良剂对Cd污染土壤的修复作用[J].江苏农业科学,2015,43(07):423.
Yang Xiaoqing,et al.Effect of modifying agent on restoration of Cd contaminated soil[J].Jiangsu Agricultural Sciences,2015,43(18):423.
[9]杨晓庆,侯仔尧,常梦婷,等.生物炭对镉污染土壤的修复研究[J].江苏农业科学,2015,43(06):335.
Yang Xiaoqing,et al.Study on remediation of Cd contaminated soil by biochar[J].Jiangsu Agricultural Sciences,2015,43(18):335.
[10]张闻,赵延君,王加宁,等.生物炭固定化石油降解菌剂的制备[J].江苏农业科学,2015,43(06):341.
Zhang Wen,et al.Preparation of biochar-immobilized microbial agent with high petroleum-degrading ability[J].Jiangsu Agricultural Sciences,2015,43(18):341.