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代表性论文(按时间排序)

[25] 何孟霓,孙继光,徐英德*,汪景宽. 长白山-辽东黑土区耕地土壤有机质时空变异特征及影响因素. 农业环境科学学报. 2024,已接收.

[24] Liu X, Bol R, An T, Liu Y, Xu Y*, Li S*, Wang J. Divergent accumulation of microbial necromass and plant lignin pheno induced by adding maize straw to fertilized soils. Soil and Tillage Research, 2024, 243: 106177.

[23] 秦诗涵,孙继光,汪景宽,常坤,徐英德*松嫩平原黑土区土壤有机质含量时空变化及其影响因素. 农业资源与环境学报. 2024,已接收.

[22] 朱芷宏,张琎,高晓丹,掏招,马南,徐英德*微塑料参与下的土壤碳循环过程评述. 中国生态农业学报(中英文). 2024,32(2): 252–261.

[21] 徐英德,裴久渤,李双异,邹洪涛,汪景宽,张佳宝. 东北黑土地不同类型区主要特征及保护利用对策. 土壤通报. 2023,54(2): 478–487.

[20] 曹鑫鑫,刘丽君,查丽霞,卢溆阳,常坤,徐英德*. 强冻融作用下土壤微生物残体碳的累积特征及其对玉米秸秆输入的响应. 植物营养与肥料学报. 2022,28(12): 2152–2160.

[19] Gao X, Zhu Z, Zhang J, Wang J, Xu Y*Estimation of the surfac potential of clay mineral takin Na+/K+-specific ion effects int account. Frontiers in Materials, 2022, 9: 943832.

[18] Xu Y,  Sun L, Gao X,Wang J. Contrasting response of fungal versus bacterial residue accumulation within soil aggregates to long‑term fertilization. Scientific Reports, 2022, 12: 17834.

[17] Xu Y, Gao X, Pei J, Sun L, Wang J. Crop root vs. shoot incorporation drives microbial residue carbon accumulation in soil aggregate fractions. Biology and Fertility of Soils, 2022, 58: 843–854.

[16] Gao X, Ren K, Zhu Z, Zhang J, Li S, Wang J, Xu Y*. Specific ion effects: The role of anions in the aggregation of permanently charged clay mineral particles. Journal of Soils and Sediments, 2022, 23: 263-272.

[15] 徐英德. 基于保护性农业的土壤固碳过程研究进展. 中国生态农业学报(中英文). 2022,30(4): 658–670.

[14] Gao X, Kou Q, Ren K, Zuo Y, Xu Y*, Zhang Y, Lal R, Wang J. Quantitative characterization of non‑DLVO factors in the aggregation of black soil colloids. Scientific Reports, 2022, 12: 5064.

[13] 寇琪,左研,徐英德*,任凯璐,张昀,李嵩,高晓丹. 原子力显微镜在土壤胶体研究中的应用进展. 土壤通报. 2022,55(03): 718–727.

[12] Xu Y, Gao X, Liu Y, Li S, Liang C, Lal R, Wang J. Differential accumulation patterns of microbial necromass induced by maize root vs. shoot residue addition in agricultural Alfsols. Soil Biology & Biochemistry, 2022, 164: 108474.

[11] Xu Y, Sun L, Lal R, Bol R, Wang Y, Gao X, Ding F, Liang S, Li S, Wang J. Microbial assimilation dynamics differs but total mineralization from added root and shoot residues is similar in agricultural Alfisols. Soil Biology & Biochemistry, 2020, 148: 107901.

[10] Xu Y, Ding X, Lal R, Gao X, Li S, Sun L, Wang Y, Li M, Bai S, Wang J. Effect of soil fertility on the allocation of nitrogen derived from different maize residue parts in the soil-plant system. Geoderma, 2020, 379: 114632.

[9] Wang Y#, Xu Y#, Pei J, Li M, Shan T, Zhang W, Wang J. Below ground residues were more conducive to soil organic carbon accumulation than above ground ones. Applied Soil Ecology, 2020, 148: 103509.

[8] 徐英德,孙良杰,王阳,高晓丹,李双异,汪景宽. 土壤微生物群落对玉米根和茎叶残体碳的利用特征. 中国环境科学,2020,40(10): 4504–4513.

[7] Xu Y, Ding F, Gao X, Wang Y, Li M, Wang J. Mineralization of plant residues and native soil carbon as affected by soil fertility and residue type. Journal of Soils and Sediments, 2019, 19: 1407–1415.

[6] 徐英德,汪景宽,李双异,高晓丹. HPO42–和H2PO4–对蒙脱石-胡敏酸混合胶体凝聚过程的影响. 中国环境科学,2019,39(9): 3914–3924.

[5] 汪景宽,徐英德,丁凡,高晓丹,李双异,孙良杰,安婷婷,裴久渤,李明,王阳,张维俊,葛壮. 植物残体向土壤有机质转化过程及其稳定机制研究进展. 土壤学报,2019,56(3): 528–540.

[4] 徐英德,汪景宽,高晓丹,张玉龙. 氢氧稳定同位素技术在土壤水研究上的应用进展. 水土保持学报,2018,32(3): 1–9.

[3] 徐英德,汪景宽,王思引,孙雪冰,李君薇,张明垚,高晓丹. 玉米残体分解对不同肥力棕壤团聚体组成及有机碳分布的影响. 中国生态农业学报,2018,26(7): 1029–1037.

[2] 徐英德,丁雪丽,李双异,孙良杰,高晓丹,谢柠桧,金鑫鑫,白树彬,孙海岩,汪景宽. 不同肥力棕壤全氮和微生物量氮对外源玉米残体氮的响应. 生态学报,2017,37(20): 6818–6826.

[1] 徐英德,孙良杰,汪景宽,李双异,高晓丹. 还田秸秆氮素转化及其对土壤氮素转化的影响. 江西农业大学学报,2017, 39(5): 859–870.


其他论文(按时间排序)

[26] Wang Y, Liang A, Xu Y, Zhang W, Li M, Wang J. Maize residue types and soil fertility levels influence sequestration of newl associated carbon in aggregates with in situ experiments. Soil & Tillage Research, 2023, 233: 105783.

[25] 高晓丹,张昀,吴岩,汪景宽,徐英德*新农科背景下智慧课堂建设探索与实践——以土壤学课程教学为例. 智慧农业导刊2023(09): 131–134. 

[24] 汪景宽,裴久渤,李双异,徐英德关于黑土地耕地质量评价与地力提升模式的思考. 土地科学动态2022(06): 28–31. 

[23] 李铭轩,吉德昌,王政宇,徐英德,贾兆杰,李诗彤,常艺,冯良山,张哲,冯晨,丁凡生物降解地膜对土壤微生物丰度、活性及群落结构的影响农业环境科学学报,2022,37(20): 6818–6826.

 [22] Zhang W, Munkholm LJ, An T, Liu X, Zhang B, Xu Y, Ge Z, Zhang Y, Zhang J, Li S, Wang J. Influence of environmental factors on soil organic carbon in different soil layers for Chinese Mollisols under intensive maize cropping. Science of the Total Environment, 2022, 835: 155443.

 [21] Liu X, Peng C, Zhang W, Li S, An T, Xu Y, Ge Z, Xie N, Wang J. Subsoiling tillage with straw incorporation improves soil microbial community characteristics in the whole cultivated layers: A one-year study. Soil & Tillage Research, 2022, 215: 105188.

 [20] Gao X, Xu Y, Li Z, Li S, Tian R, Li H, Lal R, Liu L, Saeed M, Wang J. Heteroaggregation of humic acid with montmorillonite in divalent electrolytes: effects of humic acid content and ionic concentration. Journal of Soils and Sediments, 2021, 21: 1317–1328.

 [19] Ding F, Flury M, Schaeffer S, Xu Y, Wang J. Does long-term use of biodegradable plastic mulch affect soil carbon stock? Resources Conservation and Recycling, 2021, 175: 105895.

[18] Ge Z, An T, Bol R, Li S, Zhu P, Peng C, Xu Y, Cheng N, Li T, Wu Y, Xie N, Wang J. Distributions of straw-derived carbon in Mollisol’s aggregates under different fertilization practices. Scientific Reports, 2021, 11: 17899.

[17] 李保国,刘忠,黄峰,杨晓光,刘志娟,万炜,汪景宽,徐英德,李子忠,任图生巩固黑土地粮仓 保障国家粮食安全中国科学院院刊,202136(10):1184–1193.

[16] Xu X, Pei J, Xu Y, Wang J. Soil organic carbon depletion in global Mollisols regions and restoration by management practices: a review. Journal of Soils and Sediments, 2020, 20: 1173–1181.

[15] Wang Y, Li S, Xu Y, Li M, Shan T, Zhang W, Liu X, Saeed M, Wang J. Incorporated maize residues will induce more accumulation of new POC in HF compared with that in LF soils: a comparison of different residue types. Journal of Soils and Sediments, 2020, 20: 3941–3950.

[14] Zhang W, Li S, Xu Y, Wang Y, Liu X, Peng C, Wang J. Residue incorporation enhances the effect of subsoiling on soil structure and increases SOC accumulation. Journal of Soils and Sediments, 2020, 20: 3537–3547.

[13] 左研,李少博,王童彤,徐英德,张广才,张 昀,高晓丹不同盐基离子对黑土胶体zeta电位及凝聚过程的影响土壤通报,202051(1): 99–104.

[12] 李少博,徐英德,张昀,张广才,左研,汪景宽,高晓丹. Na+Ca2+Na+-Ca2+混合离子对胡敏酸胶体稳定性的影响土壤学报,202057(5): 1240–1248.

[11] Li M, Wang Y, Ding F, Xu Y, Zhu P, Ding X, Wang J. Dynamics of maize straw residue 13C incorporation into aggregates of a Mollisol as affected by long-term fertilization. Journal of Soils and Sediments. 2019, 19, 1151–1160.

[10] Wang Y, Li M, Pei J, An T, Saeed MF, Shan T, Xu Y, Wang J. Dynamics of maize straw–derived nitrogen in soil aggregates as affected by fertilization. Journal of Soils and Sediments, 2019, 19, 2882–2890.

[9] 高晓丹,徐英德,张昀,安婷婷,张广才,李嵩分组教学法在土壤肥料学课程教学中的应用安徽农业科学,201947(20): 275–277.

[8] 刘奎,葛壮,徐英德,叶超,赵博,梁爱珍,张彬不同耕作方式下土壤微生物群落对干湿交替的响应土壤学报,201957(1): 206–216.

[7] 张维俊,李双异,徐英德,刘旭,安婷婷,朱平,彭畅,汪景宽土壤孔隙结构与土壤微环境和有机碳周转关系的研究进展水土保持学报,201933(4): 1–9.

[6] 赵搏,丁雪丽,汪景宽,刘奎,张维俊,徐英德,谢柠桧,李明地膜覆盖和施肥对棕壤剖面溶解性有机碳分布的影响土壤通报,201950(4): 847–853.

[5] 高晓丹,徐英德,张广才,张昀,李嵩,李少博,安雨鑫,汪景宽. Ca2+Cu2+在土壤电场中的极化对黑土胶体凝聚的影响农业环境科学学报,201837(3): 440–447.

[4] 李少博,徐英德,高晓丹,张昀,张广才,李嵩,许晨阳,田锐,汪景宽离子界面行为在土壤有机无机复合体形成中的作用中国生态农业学报,201826(11): 1682–1691.

[3] 金鑫鑫,汪景宽,孙良杰,王帅,裴久渤,安婷婷,丁凡,高晓丹,徐英德稳定13C同位素示踪技术在农田土壤碳循环和团聚体固碳研究中的应用进展土壤,201749(2): 217–224.

[2] 王阳,单特,丁石丹,朱梦龙,金鑫鑫,徐英德,高晓丹,赵兰坡,汪景宽长期化肥施用对土壤碳库管理指数的影响中国土壤学会.土壤科学与生态文明(下册)——中国土壤学会第十三次全国会员代表大会暨第十一届海峡两岸土壤肥料学术交流研讨会论文集,2016: 135–144.

[1] 谢柠桧,安婷婷,李双异,孙良杰,裴久渤,丁凡,徐英德,付时丰,高晓丹,汪景宽. 外源新碳在不同肥力土壤中的分配与固定. 土壤学报,2016,53(4): 942–950.