Open Access
Issue |
E3S Web Conf.
Volume 131, 2019
2nd International Conference on Biofilms (ChinaBiofilms 2019)
|
|
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Article Number | 01089 | |
Number of page(s) | 5 | |
DOI | https://doi.org/10.1051/e3sconf/201913101089 | |
Published online | 19 November 2019 |
- Department of Science and Technology Education, Agricultural Ecology and Resource Protection Station of the Ministry of Agriculture. National Rural Renewable Energy Statistics Summary Table 2016 [Z]. Beijing: China Agriculture Press, (2016). [Google Scholar]
- F.Y. Cao, Changes of organic acids, energy and structure of straw and soil during decomposition [D]. Northwest University of Agriculture and Forestry Science and Technology, (2016). [Google Scholar]
- G.X. Pan, A.Q. Li, X.Y. Liu, et al. Industrialization of pyrolysis biomass charcoal: a new approach to banning burning of straw and green agriculture[J]. Science and Technology Report, (2015), 33 (13): 92101. [Google Scholar]
- S. Chen, X.Q. Ding, Z.K. Zhu, etc. Effects of straw returning on transformation of exogenous nitrogen in soil and microbial response [J]. Environmental Science, (2017), 38 (04): 1613-1621. [Google Scholar]
- C.R. Meng, R.X. Bai, P.H. Yang, et al. Effects of straw returning on drip irrigation maize production and soil microorganisms in arid areas[J]. Xinjiang Agricultural Science, (2018), 55 (12): 2251-2260. [Google Scholar]
- W.J. Xie, L.F. Wu, Y.P. Zhang, et al. Effects of straw application on coastal saline topsoil salinity and wheat yield trend[J].Soil & Tillage Research, (2017), 169:1-6. [CrossRef] [Google Scholar]
- T. Liu, B.T. Wang, H.J. Xiao, et al. Differentially improved soil microenvironment and seedling growth of Amorpha fruticosa by plastic, sand and straw mulching in a saline wasteland in northwest China[J]. Ecological Engineering, (2018), 122. [Google Scholar]
- L. Huo, H.C. Pang, Y.G. Zhao, et al. Buried straw layer plus plastic mulching improves soil organic carbon fractions in an arid saline soil from Northwest China[J]. Soil & Tillage Research, (2017), 165. [PubMed] [Google Scholar]
- Y.B. Mi, G.S. Yang, R.J. Yao, etc. Effects of different measures on respiration, conductivity and organic carbon in coastal saline soil [J].Journal of Soil Science, (2016), 53(03): 612-620. [Google Scholar]
- D. Yang, X.J. Li, X.X. Kong. Influence of Different Straw Returning Methods on Water and Salt Movement of Coastal Saline Soil[J].Research of Soil and Water Conservation, (2017), 24(06):74-78. [Google Scholar]
- S.D. Bao. Analysis of soil agrochemical [M]. Beijing: China Agricultural Press, (2000), 25-114. [Google Scholar]
- S.Y. Guan. Soil enzymes and research methods [M]. Beijing: Agricultural Press, (1986). [Google Scholar]
- Q.K. Wang, S.L. Wang. Formation and stabilization mechanism of soil aggregates and influencing factors [J]. Soil Bulletin, (2005), 03: 415-421. [Google Scholar]
- C.X. Liu, Y. Huang. Effects of Saline-Alkali-Tolerant bacteria and organic materials on aggregate formation of saline-alkali soil [J].Soil, (2010), 42(01): 111-116. [Google Scholar]
- F.S. Gao, Z.X. Cui, R.W. Fan, etc. Improvement of saline-alkali soil by organic materials [J]. Soil Bulletin, (1997), 01: 10-12. [Google Scholar]
- M.E. Zou, Q.F. Chu. Effect of polysaccharide in straw returning [J]. Soil fertilizer, (1992), 04: 16-18. [Google Scholar]
- J.D. Jastrow. Soil aggregate formation and the accrual of particulate and mineral-associated organic matter[J]. Soil Biology and Biochemistry, (1996), 28(4). [Google Scholar]
- Z.X. Liu, X.M. Chen, Y. Jing, et al. Effects of biochar amendment on rapeseed and sweet potato yields and water stable aggregate in upland red soil[J]. Catena, (2014), 123. [Google Scholar]
- H.C. Dai, Y.Q. Chen, K. Chang, et al. Water-stable aggregates and carbon accumulation in barren sandy soil depend on organic amendment method: A three-year field study[J]. Journal of Cleaner Production, (2019), 212. [Google Scholar]
- X.N. Hou, H. Li, L.B. Zhu, et al. Effects of biochar and straw addition on aggregate composition and organic carbon distribution of Shajiang black soil[J]. Agricultural Science of China, (2015), 48 (04): 705-712. [Google Scholar]
- D. Tian. Response of carbon budget of farmland ecosystem to straw and biochar returning [D]. Southwest University, (2017). [Google Scholar]
- L.L. Ye, C.H. Wang, H. Zhou, et al. Effects of adding biomass black carbon on the structural stability of red soil[J]. Soil, (2012), 44 (01): 62-66. [Google Scholar]
- F. Fan, Q.G. Zhang, F.H Hou, et al. Effects of corn straw isolation layer on alkalization characteristics and nutrient status of saline-alkali soil in the West Liaohe River Basin[J]. Journal of Soil and Water Conservation, (2013), 27 (03): 131-137. [Google Scholar]
- Y.H. Chen, S.Q. Liao, Y.M. Li, et al. Effects of biochar and gardening waste compost on protected vegetables: I. Soil physical and chemical properties and yield[J]. Journal of Agricultural Environmental Sciences, (2015), 34 (05): 913-919. [Google Scholar]
- Y. Yu, J. Liu, C.M. Liu, et al. Effect of organic materials on the chemical properties of saline soil in the Yellow River Delta of China. Frontiers of Earth Science, (2015), 9:259-267. [Google Scholar]
- S.D. Tang. Soil Biological Effects of Direct Returning Crop Straw to Field [J]. Journal of Soil Science, (1980), 02: 172-181. [Google Scholar]
- Gianfredal, Rao Ma, Piotrowska A, et al. Soil enzyme activities as affected by anthropogenic alterations: Intensive agricultural practices and organic pollution[J]. Sciences of the Total Environment, (2005), 341: 265-279. [Google Scholar]
- Bandick AK,Dick RP. Field management effects on soil enzyme activities [J]. Soil Biology & Biochemistry, (1999), 31(11): 1471-1479. [Google Scholar]
- Baileya V L, Fanslera S J, Smithb J L, et al. Reconciling apparent variability in effects of biochar amendment on soil enzyme activities by assay optimization[J]. Soil Biology and Biochemistry, (2011), 43(2):296-301. [CrossRef] [Google Scholar]
- Y.Q. Lu, A.N. Zhu, J.B. Zhang, et al. Effects of no-tillage and straw returning on soil enzyme activity and microbial community[J]. Soil Bulletin, (2014), 45 (01): 85-90. [Google Scholar]
- X.H. Yang. Effects of decomposed corn straw on soil environment, quality and yield in Cucumber Root Zone [D]. Shandong Agricultural University, (2013). [Google Scholar]
- W. Zhang, J.P. Gong, J.G. Liu. Effects of straw returning on soil enzyme activities in continuous cropping cotton fields [J]. Journal of Ecological Environment, (2011), 20 (05): 881-885. [Google Scholar]
- Q.L. Pan, T. Song, K. Chen, et al. Effects of biochar and carbon-based fertilizers on biological activity of brown soil for 6 years[J].Journal of North China Agricultural University, (2016), 31 (03): 225-232.] [Google Scholar]
- X.Y. Jiang. Study on Preparation and characterization of sludge-based biochar and application of soil improvement [D]. Harbin University of Technology, (2014). [Google Scholar]
- J. Shang, Z.C. Geng, X.X. Chen, et al. Effects of biochar on soil enzyme activity and Millet Yield[J]. Agricultural Research in Arid Areas, (2015), 33 (02): 146-151+158. [Google Scholar]
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