[1] Zhu C,Wang H,Ma H,et al.Tanning process promotes abiotic humification:Separation and characterization of humic acid-like polymer complex[J].Environmental Science and Pollution Research,2020,27:41437-4144. [2] 王晴,马宏瑞,郝永永,等.Fe(Ⅲ)-Al2O3对制革生化尾水中DOM的去除规律研究[J].皮革科学与工程,2019,29(4):24-29. [3] Yang F,Zhang S S,Cheng K.A hydrothermal process to turn waste biomass into artificial fulvic and humic acids for soil remediation[J].Science of the Total Environment,2019,686:1140-1151. [4] Jokic A,Zimpel Z,Huang P M,et al.Molecular shape analysis of a maillard reaction intermediate[J].SAR and QSAR in Environmental Research,2001,12(3):297-307. [5] Cheng Y,Li P,Xu G,et al.Effects of dynamic factors of erosion on soil nitrogen and phosphorus loss under freeze-thaw conditions[J].Geoderma,2021,390:114972. [6] Zhang X,Mo Y,Zhang B,et al.Effect of dry wet alternation and litter on soluble organic carbon in Ruoergai peat soil[J].Wetland science,2014,12(2):134-140. [7] Cheng Y,Li P,Xu G,et al.Effects of dynamic factors of erosion on soil nitrogen and phosphorus loss under freeze-thaw conditions[J].Geoderma,2021,390:114972. [8] Kalantari B.Foundations on expansive soils: a review[J]. Research journal of applied sciences, engineering and technology, 2012, 4(18): 3231-3237. [9] Pajaczkowska J,Sulkowska A,Sulkowski W W,et al.Spectroscopic study of the humification process during sewage sludge treatment[J].Journal of Molecular Structure,2003,651:141-149. [10] Zhang J N,LüF,Shao L M,et al.The use of biochar-amended composting to improve the humification and degradation of sewage sludge[J].Bioresource Technology,2014,168:252-258. [11] Zhu W H,Huang T L,Zhang Y N.The influence of the redox conditions on the three-dimensional excitation-emission matrix(3DEEM)fluorescence spectroscopy of the dissolved organic matter(DOM)in the overlying water[J].Spectroscopy and Spectral Analysis,2010,30(12):3272-3276. [12] 胡可欣,李国英.漆酶催化没食子酸改性胶原蛋白膜的研究[J].皮革科学与工程,2021,31(3):7-13. [13] Benlboukht F,El F L,Bouamri R,et al.Assessment of fulvic acid-like fractions during tannery waste composting[J].Compost Science&Utilization,2016,24(3):208-218. [14] Ma H R,Gao M,Hua L,et al.The stabilization of tannery sludge and the character of humic acid-like during low temperature pyrolysis[J].Environmental Science and Pollution Research,2015,22(21):16791-16802. [15] Litvin V A,Galagan R L,Minaev B F.Synthesis and properties of synthetic analogs of natural humic acids[J].Russian Journal of Applied Chemistry,2012,85(2):296-302. [16] 靳百川,蒋梦云,白文荣,等.三维荧光光谱-平行因子法解析再生水补给人工湿地DOM的光谱特征[J].光谱学与光谱分析,2021,41(4):1240-1245. [17] Bernardes F S,Herrera P G,Chiquito G M,et al.Relationship between microbial community and environmental conditions in a constructed wetland system treating greywater[J].Ecological Engineering,2019,139:105581. [18] Feng W T,Plante A F,Aufdenkampe A K,et al.Soil organic matter stability in organo-mineral complexes as a function of increasing C loading[J].Soil Biology&Biochemistry,2014,69:398-405. [19] Mitchell P J,Simpson A J,Soong R et al.Nuclear magnetic resonance analysis of changes in dissolved organic matter composition with successive layering on clay mineral surfaces[J].Soil Systems,2018,2(1):8. [20] Lundquist E J,Scow K M,Jackson L E,et al.Rapid response of soil microbial communities from conventional,low input,and organic farming systems to a wet/dry cycle[J].Soil Biology and Biochemistry,1999,31(12):1661-1675. |