张前前

张前前，博士，副教授，硕士生导师。2019-2020年赴德国哥廷根大学访学一年，2021年06月获南京农业大学农学博士学位。主要研究领域为碳氮循环与生态环境、根际微生态和植物健康，承担本科生《土壤肥料学》、《土壤改良学B》以及研究生《高级植物营养学》、《外文科技文献阅读与写作》等课程。主持国家自然基金1项，浙江省自然科学基金1项，江苏省创新项目1项，磐安重点项目1项等。近年来，在《Soil TillageResearch》、《Geoderma》、《Resources, Environment and Sustainability》、《Industrial Crops and Products》、《Journal of Cleaner Production》、《Carbon Balance and Management》等学术期刊上发表论文40余篇，其中SCI收录30余篇。指导本科生获全国农资专业技能大赛特等奖和全国低碳循环大赛一等奖，指导本科生主持“国家级大学生创新创业训练计划项目”“浙江省大学生科技创新活动计划暨新苗人才计划项目”等创新训练项目。担任SCI期刊《European Journal of Soil Biology》编委和《植物营养与肥料学报》、《土壤通报》、《土壤》青年编委，并担任Agriculture, ecosystems & environment等多个一区TOP期刊审稿专家。

教学工作：

主要讲授的本科生课程：《土壤改良学B》、《土壤肥料学》等

主要讲授的研究生课程：《外文科技文献阅读与写作》（校优秀课程）、《高级植物营养学》（省优秀课程）等。

主持和参与的科研项目：

纵/横向项目：

1.菜地N₂O排放对有机肥替代化肥的响应及其剖面梯度形成机制(42307432)，国家自然科学青年基金，2024/01-2026/12，主持；

2.土壤N₂O排放对山地蔬菜有机肥替代化肥的响应(Q24D030004)，浙江省自然科学基金，2024/01-2026/12，主持

3.安吉县和新昌县自然保护地生物多样性长期监测样地建设项目(H20230577)，浙江省林业科学院项目，2023/12-2025/12，主持

4.永嘉县耕地质量与土壤肥料科研调查项目，永嘉县农业农村局，2025/01-2026/01,主持。

5.生物质炭改善野外和田间延胡索品质的技术研究(磐科农202203)，金华市暨磐安县科技计划重点项目，2023/01-2024/12，主持；

6.长期生物质炭对土壤团聚体碳氮转化的影响(KYCX19_0551)，江苏省研究生创新工程项目，2019/03-2020/03，主持；

7.老化生物质炭对土壤N₂O排放及微生物学机制的影响，人才引进科研启动项目，2022/02-2024/05，主持；

8.菜地氧化亚氮产生过程辨析及羟胺和亚硝态氮的潜在贡献，国家自然科学基金面上项目（41977078），2020/01- 2023/12，2/6；

9.毛竹入侵生境凋落物分解调控土壤有机碳矿化的微生物驱动机制(LZ22C160005)，浙江省自然科学基金重点项目，2022-2024，2/5；

教研/教改项目及论文：

教改项目，科研渗透教学实践培养农资学生创新能力的探索—以土壤改良学课程为例，2024/10-2025/10，1/5

省优秀研究生课程立项建设，高级植物营养学，2023-2025，3/7

研究生优质课程，外文科技文献阅读与写作，2023-2024，1/1（两次）

教改论文接收待刊2篇

大学生创新创业项目：

国家级大学生创新创业项目，202310341064，第一指导导师

浙江省大学生科技创新活动计划项目（新苗人才计划），2023R412006，第一指导导师

浙江省教育厅一般科研项目（专业学位研究生项目），Y202352467，第一指导导师

William威廉官方学生科研训练项目资助，2023KX020，第一指导导师

近五年成果及奖励

(一)第一作者及通讯作者论文

1.Zhang, Q.,Li, H., Song, J., Anna, G., Li, Y., Duan, P., Yao, J., Li, Y., Chang, S.X., Xiong, Z.^*, 2026. Biochar aging diminishes soil N2O mitigation by reducing electron-donating capacity and shifting denitrification. Geoderma 469, doi:10.1016/j.geoderma.2026.117795. (一区，IF=6.6)

2.Zhang, Q.¹, Liu, L.¹, Anna, G., Duan, P., Li, Y., Chang, S.X., Xiong, Z., 2026. Manure and bio-manure substitutions of chemical fertilizers mitigate long-term nitrous oxide emissions from vegetable production systems. Resources, Environment and Sustainability 23, 100283.(一区，IF=7.8)

3.Ding, Z.^*, Su, Z., Gu, Z., Wu, X., Lin, X.,Zhang, Q.*, 2026. Plant diversity and precipitation gradients drive litter return and SOC in alpine vegetation. Carbon Balance and Management 21:3 (一区，IF=5.9)

4.Liu, L., Wei, C., Xu, X., Min, W., Li, Y., Hou, Z.*,Zhang, Q.*, Anna, G., Xiong, Z., 2024. Bio-manure substitution declines soil N2O and NO emissions and improves nitrogen use efficiency and vegetable quality index.Journal of Environmental Management 367, 121960. (二区，IF=8.4)

5.Du, J., Yu, Y., Tang, C., Zong, K., Zhang, S.,Zhang, Q.*, Fang, L., Li, Y.*, 2024. Organic fertilizers increase the proportion of saprotrophs favoring soil nitrification under medicinal plants Fritillaria thunbergii.Industrial Crops and Products 219, 119129.(一区，IF=6.2)

6.Zhang, QQ.,Wu, Z., Zhang, X., Duan, P.,Shen, HJ.,Gunina, A.,Yan, XY., Xiong, Z.^*, 2021. Biochar amendment mitigated N₂O emissions from paddy field during the wheat growing season.Environmental Pollution281: 117026.(一区，IF=6.9)

7.Zhang, QQ., Duan, PP., Anna, G., Zhang, X.,Yan, XY., Kuzyakov, Y., Xiong, Z.^*, 2021. Mitigation of carbon dioxide by accelerated sequestration from long-term biochar amended paddy soil [J].Soil Tillage Research, 2021, 209: 104955.(一区，IF=5.3)

8.Zhang, QQ., Zhang, X., Duan, P., Jiang, X., Shen, H., Yan, X., Xiong, Z.^*, 2021. The effect of long-term biochar amendment on N₂O emissions: Experiments with N¹⁵-O¹⁸isotopes combined with specific inhibition approaches.Science of The Total Environment769: 144533.(一区，IF=6.4)

9.Zhang, QQ., Song, Y., Wu, Z., Yan, X., Gunina, A., Kuzyakov, Y., Xiong, Z.^*, 2020.Effects of six-year biochar amendment on soil aggregation, crop growth, and nitrogen and phosphorus use efficiencies in a rice-wheat rotation.Journal of Cleaner Production242, 118435.(一区，IF=7.5)

10.Zhang, QQ., Wakelin, S.A., Liang, Y., Chu, G.*, 2018. Soil microbial activity and community structure as affected by exposure to chloride and chloride-sulfate salts. Journal of Arid Land 10, 737-749.(三区，IF=2.1)

11.于秋然,罗金辉,滕秋梅,毛坚杰,刘玲慧,金晔,张前前*,李永春.毛竹扩张对阔叶林土壤微生物碳氮利用效率的影响[J].生态学报, 2026, (11): 1-13.（一级学报）

12.金晔,毛坚杰,姜振辉,朱高荻,李永春,张前前*.不同碳氮比有机物料对砖红壤团聚体有机碳矿化和酶活性的影响[J].环境科学学报,2026, 1-12. (一级学报）

13.罗金辉,俞泽农,刘玲慧,滕秋梅,张前前*,李永春.天目山毛竹扩张对阔叶林土壤硝化过程和矿质氮含量的影响[J].应用生态学报, 2025, 36 (10): 3051-3060.（一级学报）

14.张前前,王飞,刘涛,褚贵新*.微咸水滴灌对土壤酶活性、CO₂通量及有机碳降解的影响[J].应用生态学报,2015,26(09):2743-2750.（一级学报）

(二)参与发表的论文

1.Xue, H., Yu, Y.,Zhang, Q.,Tang, C., Abbas, T., Teng, Q., Wang, Y., Luo, J., Li, Y., 2026. Canopy closure and litter management in coniferous plantation modulate the bacterial community to increase soil nitrogen mineralization and understory medicinal tuber yield. Agriculture, Ecosystems & Environment 402,110308.

2.Teng, Q., Fang, T.,Zhang, Q., Gunina, A., Zheng, A., Song, Z., Zhou, J., Chang, S.X., Li, Y., 2025. Successional transition from broadleaf to bamboo forests promotes fungal communities and soil carbon mineralization following the altered litterfall quality. Applied Soil Ecology 209,106006.

3.Bi, R., Xu, X., Wang, B., Jiao, Y.,Zhang, Q.,Xiong, Z., 2024. Evidence of complete ammonia-oxidizing microbial communities and their contribution to N₂O emissions in typical vegetable fields across China. Soil Biology and Biochemistry 194, 109423.

4.Xu, X., Bi, R., Song, M., Wang, B., Dong, Y.,Zhang, Q.,Xiong, Z., 2024. Optimizing organic substitution: Balancing carbon sequestration and priming effects of a six-year field experiment for sustainable vegetable production. Sustainable Production and Consumption 44, 14-24.

5.Shen, H., Dai, Z.,Zhang, Q.,Tong, D., Su, W.-q., Dahlgren, R.A., Xu, J., 2024. Postfire Phosphorus Enrichment Mitigates Nitrogen Loss in Boreal Forests. Environmental Science & Technology 58, 10611-10622.

6.Fang, L., Wang, Y., Sardar, M.F., Tang, C., Fang, T., Du, J., Yan, E.,Zhang, Q.,Li, Y., 2024. Soil fungal composition under decomposing deadwood is largely affected by tree bark density rather than soil properties. Applied Soil Ecology 198, 105073.

7.Teng, QM., Lu, XN.,Zhang, QQ., Cai, LL., Sardar, MF., Li, YF., Abbas T., Li, Y., Chang, Scott X., Li, YC., 2023. Litterfall quality modulates soil ammonium and nitrate supply through altering microbial function in bamboo encroachment of broadleaf forests, Geoderma, 437,116592.

8.Sardar M. F., Chen Z.H., Tang C.X., Zhang S.K., Fang L., Miao D.N., Li Y.F.,Zhang Q.Q.,Li Y.C.^∗Seasonal linkages between soil nitrogen mineralization and the microbial community in broadleaf forests with Moso bamboo (Phyllostachys edulis) invasion.Science of the Total Environment, 2023, 899, 165557.

9.Zhang, X. Xu, X., Wang, C.,Zhang, Q., Dong, Y., Xiong, Z^*., 2023. DMPP mitigated N2O and NO production via inhibiting ammonia-oxidizing bacteria in an intensified vegetable field under different temperature and moisture regimes. Pedosphere. 10.1016/j.pedsph. 2023.03.018

10.Shen, HJ., Wang, BX., Jiao, Y.,Zhang, QQ., Xiong, ZQ., 2023. Bacteria are more sensitive than fungi to soil fertility in an intensive vegetable field. Applied Soil Ecology 190, 105003.

11.Bi, R., Xu, X., Zhan, L., Chen, A.,Zhang, Q.,Xiong, Z., 2023. Proper organic substitution attenuated both N2O and NO emissions derived from AOB in vegetable soils by enhancing the proportion of Nitrosomonas. Science of The Total Environment, 866, 161231.

12.Miao, D., Peng, X., Teng, Q.,Muhammad F.,Zhang, Q., Zhu, X., Li, Y., 2023. Different contributions of bacterial and fungal communities to nitrogen mineralization in Moso bamboo-invaded subtropical forests. J Soils Sediments 23, 1123–1134.

13.Bi, R.,Zhang, Q., Zhan, L., Xu, X., Zhang, X., Dong, Y., Yan, X., Xiong, Z., 2022. Biochar and organic substitution improved net ecosystem economic benefit in intensive vegetable production. Biochar 4, 46.

14.Shen, H.,Zhang, Q., Bi, R., Xu, X., Zhang, X., Fan, C., Xiong, Z., 2022. Linkages of nitrogen-cycling microbial resistance and resilience to soil nutrient stoichiometry under dry-rewetting cycles with different fertilizations and temperatures in a vegetable field. Sci Total Environ 820, 153294.

15.Xu, X.,Zhang, Q., Song, M., Zhang, X., Bi, R., Zhan, L., Dong, Y., Xiong, Z., 2022. Soil organic carbon decomposition responding to warming under nitrogen addition across Chinese vegetable soils. Ecotoxicol Environ Saf 242, 113932.

16.Zhang, X.,Zhang, Q., Xu, X., Dong, Y., Xiong, Z., 2022b. Biochar Mitigated Yield-Scaled N2O and NO Emissions and Ensured Vegetable Quality and Soil Fertility: A 3-Year Greenhouse Field Observation. Agronomy 12, 1560.

17.Zhang, X.,Zhang, Q., Zhan, L., Xu, X., Bi, R., Xiong, Z., 2022c. Biochar addition stabilized soil carbon sequestration by reducing temperature sensitivity of mineralization and altering the microbial community in a greenhouse vegetable field. Journal of Environmental Management 313, 114972.

18.Shen, H.,Zhang, QQ., Zhu, S., Duan, P., Zhang, X., Wu, Z., Xiong, Z.^*, 2021. Organic substitutions aggravated microbial nitrogen limitation and decreased nitrogen-cycling gene abundances in a three-year greenhouse vegetable field. Journal of Environmental Management 288, 112379.

19.Shen, H.,Zhang, QQ., Zhang, X., Jiang, X., Zhu, S., Chen, A., Wu, Z., Xiong, Z.^*, 2021. In situ effects of biochar field-aged for six years on net N mineralization in paddy soil.Soil and Tillage Research205, 104766.

20.Duan, P.,Zhang, QQ., Xiong, Z.^*, 2020. Temperature decouples ammonia and nitrite oxidation in greenhouse vegetable soils.Science of The Total Environment733, 139391.

21.Wu, Z.,Zhang, QQ., Zhang, X., Duan, P., Yan, X., Xiong, Z.^*, 2020. Biochar-enriched soil mitigated N₂O and NO emissions similarly as fresh biochar for wheat production.Science of The Total Environment701, 134943.

22.Duan, P.,Zhang, QQ., Zhang, X., Xiong, Z.^*, 2019. Mechanisms of mitigating nitrous oxide emissions from vegetable soil varied with manure, biochar and nitrification inhibitors.Agricultural and Forest Meteorology278, 107672.

23.Duan, P., Fan, C.,Zhang, QQ., Xiong, Z.^*, 2019. Overdose fertilization induced ammonia-oxidizing archaea producing nitrous oxide in intensive vegetable fields.Science of The Total Environment650, 1787-1794.

24.Duan, P., Wu, Z.,Zhang, QQ., Fan, C., Xiong, Z.^*, 2018a. Thermodynamic responses of ammonia-oxidizing archaea and bacteria explain N₂O production from greenhouse vegetable soils.Soil Biology and Biochemistry120, 37-47.

25.Duan, P., Zhang, X.,Zhang, QQ., Wu, Z., Xiong, Z.^*, 2018b. Field-aged biochar stimulated N₂O production from greenhouse vegetable production soils by nitrification and denitrification.Science of The Total Environment642, 1303-1310.

26.李淑敏,张前前,滕秋梅,陈海清,何安国,杜建航,李永春,俞叶飞.不同树龄大盘山榧植株和根际土壤碳、氮、磷生态化学计量特征[J].植物资源与环境学报, 2026, 35 (01): 14-24.

27.王雨齐,张前前,张文卓,俞叶飞,吕强锋,滕秋梅,李永春.延胡索产量和品质对杉木林郁闭度和凋落物处理的响应[J].William威廉官方学报, 2025, 42 (03): 433-443.

28.尤丽,朱向涛,张前前,李永春,陈霞,薛浩天,朱盼盼,张可玥.添加农业废弃物配方基质的特性及其对牡丹生长的影响[J].植物资源与环境学报, 2024, 33 (03): 36-49.

29.张文卓,张前前,俞叶飞,迟晓立,何安国,王雨齐,吕强锋,李永春.森林郁闭度和凋落物对延胡索生长和土壤酶化学计量的影响[J].农业生物技术学报, 2024, 32 (02): 322-333.

30.许雄钞,张前前,滕秋梅,赵明水,李永春.毛竹和次生阔叶林优势树种根际效应对土壤有机碳矿化的影响[J].应用生态学报, 2023, 34 (09): 2374-2382.

31.王兰鸽,张前前,赵明水,苗丹妮,李永夫,滕秋梅,李永春.毛竹和阔叶林凋落物浸提液对土壤微生物及氮矿化的影响[J].农业生物技术学报, 2023, 31 (05): 1053-1063.

32.瞿瑜婷,张前前,俞叶飞,沙衣哈力·对先阿力,蔡琳琳,张苏炯,李永夫,李永春.根际微生态视角下药用植物连作障碍机制和缓解措施研究进展[J].浙江大学学报(农业与生命科学版),2022,48(04):403-414.

33.朱爽阁,张前前,徐昕彤,毕瑞玉,宋燕凤,熊正琴.田间老化生物质炭减缓稻麦轮作系统土壤N2O排放能力低的机理[J].土壤学报, 2022, 1-11.

34.蒋雪洋,张前前,沈浩杰,何铁虎,熊正琴^*.生物质炭对稻田土壤团聚体稳定性和微生物群落的影响[J].土壤学报, 2020, 11.

35.宋燕凤,张前前,吴震,段鹏鹏,熊正琴^*.田间陈化生物质炭提高稻田土壤团聚体稳定性和磷素利用率[J].植物营养与肥料学报,2020,26(04):613-621.

36.陈安枫,张溪,张前前,朱爽阁,熊正琴^*.菜地氨氧化微生物驱动的N₂O和NO对有机无机肥配施的响应[J].环境科学学报, 2021,41(8):3374-3383.

37.陶瑞,张前前,李锐,刘涛,褚贵新^*.旱区覆膜滴灌棉田N₂O排放对化肥减量有机替代的响应[J].农业机械学报,2015,46(12):204-211.

指导学生获奖（省二以上）

浙江省大学生环境生态科技创新大赛，省二等奖，2022，指导教师；

金土地杯第二届全国农资专业大学生实践技能竞赛，全国特等奖，2022，指导教师；

首届全国大学生低碳循环大赛科技创新，全国一等奖，2022，指导教师；

第二届全国大学生低碳循环大赛科技创新，全国二等奖，2023，指导教师；

联系方式：

办公地址：William威廉官方省部共建亚热带森林培育国家重点实验室534

E-mail：qqzhang@zafu.edu.cn;qqzhang0317@163.com

网站：https://orcid.org/0000-0001-7857-7713