基本信息
张心昱  女  博导  中国科学院地理科学与资源研究所
电子邮件: zhangxy@igsnrr.ac.cn
通信地址: 北京市朝阳区大屯路甲11号
邮政编码: 100101

研究领域

生态系统生态学与全球变化

1)陆地生态系统土壤碳、氮、磷循环;

2)陆地生态系统土壤碳、氮、磷循环过程对全球变化的响应;

3)陆地生态系统土壤碳、氮、磷循环的微生物机制;

4)外生、丛枝菌根植物根际土壤碳、氮、磷循环的微生物机制


个人简况

张心昱,研究员,博士生导师,生态系统网络观测与模拟重点实验室生态水文研究中心副主任,中国科学院大学资源与环境学院岗位教授,中国生态学会区域生态专业委员会委员, European Journal of Soil Science杂志编委,Science of the Total Environment杂志客座主编。

研究方向为生态系统生态学,主要依托中国生态系统研究网络野外观测平台,结合土壤酶学、分子生物学技术,重点研究土壤碳、氮、磷循环及其微生物机制。主持国家重点研发计划“政府间国际科技创新合作”重点专项项目1项,国家自然科学基金面上项目4项,中科院方向性项目1项,第一或通讯作者发表学术论文83篇,其中SCI收录论文37篇,主要发表在Functional EcologySoil Biology and BiochemistryBiology and Fertility of SoilsGeodermaApplied Soil Ecology Science of the Total Environment等国际主流期刊。

应用酶学和分子生物学分析技术,通过对中国东部森林样带分解土壤有机质的碳、氮、磷水解酶活性研究,揭示了酶活性的地带分布特征,量化了碳、氮、磷水解酶活性的计量比,揭示了氮磷添加对温带和亚热带森林土壤磷酸酶不同影响机制,为森林生态系统养分状况评价与管理提供了定量依据。

揭示了喀斯特、温带、亚热带森林土壤氮循环功能微生物剖面分布特征,发现氮循环微生物在土壤剖面具有相似的养分权衡机制;揭示了氮磷添加对氮循环功能微生物影响机制,补充了磷促进氮循环过程的认识。

结合酶谱法与根际热点区原位采样、分子分析方法,揭示了喀斯特土壤根际热点区酶活性与微生物间的关系,为研究根际土壤微生物功能提供了先进的技术。


招生信息

招收直博生、统考博士生、博士后、客座研究生,欢迎具有土壤学、生态学、微生物学、自然地理学等相关专业基础的同学报考。


招生专业
071300-生态学
招生方向
生态系统生态学,全球气候变化生态学
土壤生态学,土壤微生物生态学
生物地球化学循环

教育背景

2001-09--2004-07   沈阳农业大学土壤学   博士
1998-09--2001-07   沈阳农业大学土壤学   硕士
1992-09--1996-07   沈阳农业大学土壤农化系   学士

工作经历

2018-12-      至今     中国科学院地理科学与资源研究所 研究员

2006-10--2018-12 中国科学院地理科学与资源研究所 助研,副研 

2013-01--2013-06  美国田纳西大学 访问学者 

​2004-10--2006-10  中国科学院生态环境研究中心 博士后

2003-02--2004-02  英国Exeter大学地理系 访问学者

1996-07--2004-10  沈阳农业大学土地与环境学院 助教,讲师 

科研项目

  1. 国家自然科学基金专项项目:科学部综合研究项目“冻土土壤碳循环及其驱动机制研究专项项目”(32241033) :气候变暖对大兴安岭冻土区森林土壤有机碳循环的影响及其微生物机制, 2023.1-2027.12 项目负责人

  2.  国家重点研发计划“政府间国际科技创新合作/港澳台科技创新合作重点专项项目(2019YFE0126500):中国及中亚一带一路区域典型陆地生态系统综合监测与应用, 2020.12 -2023.11项目负责人

  3.  国家自然科学基金基础科学中心项目生态系统对全球变化的响应31988102)专题:生态脆弱区土壤微生物功能对全球变化的响应机理,2020.1-2024.12,专题负责人

  4. 国家自然科学基金重大项目“人工林生态系统生产力提升与碳汇维持机制”课题人工林生态系统长期生产力维持与提升机制32192432),2022.1-2026.12,专题负责人

  5. 国家自然科学基金面上项目(41877091):氮沉降对外生与丛枝菌根人工林根际土壤磷有效性影响机制,2019.1- 2022.12,项目负责人

  6.  国家自然科学基金重点项目(41830860) “南方红壤丘陵关键带碳及其同位素的关键生物地球化学过程与控制机制”课题:从基岩到地表微生物及胞外酶驱动土壤有机碳库分解与转化机制,2019.1-2023.12,课题负责人

  7.  国家科技重大专项课题(2016ZX05040-002)“非常规油气开发地下水及生态环境监测与保护技术”专题: 非常规油气开发生态监测与植被恢复技术研究, 2016.1-2020.12,专题负责人

  8.  国家自然科学基金面上项目(41571251):杉木林土壤微生物分解有机质功能对氮磷的响应机制,2016-2019,项目负责人

  9.  国家自然科学基金重大项目(中英关键带)课题(41571130043):喀斯特关键带岩石-土壤-生物-大气连续体的碳过程及其控制机制,2016-2019,专题负责人

  10.  国家自然科学基金重大项目课题(31290222):土壤微生物对森林生态系统碳-氮耦合循环的调控机制, 2013-2017 专题负责人

  11.  国家973课题(2012CB41690):林分结构对生态系统养分平衡影响机制,2012-2016,专题负责人

  12.  国家自然科学基金面上项目(41171153):红壤丘陵区农业小流域浅层地下水硝酸盐污染来源动态及产生机理,2012-2015 项目负责人

  13. 中科院方向性项目(KZCX2-EW-310):典型生态系统地表水/地下水硝态氮来源的双同位素示踪技术研究,2011-2013年,项目负责人

  14.  国家自然科学基金青年基金(40701186):氮沉降对长白山典型温带森林土壤碳动态影响实验研究,2008-2010年,项目负责人


发表文章

代表性文章(*通讯作者)

1.       Liu, S., Zhang, X.Y*., Dungait J. A. J., et al. Rare microbial taxa rather than phoD gene abundance determine hotspots of alkaline phosphomonoesterase activity in the karst rhizosphere soil. Biology and Fertility of Soils, 2021,57:257268. https://doi.org/10.1007/s00374-020-01522-4

2.       Zhang, X.Y*., Yang, Y., Zhang C., et al. Contrasting responses of phosphatase kinetic parameters to nitrogen and phosphorus additions in forest soils. Functional Ecology, 2018: 32: 106–116.

https://doi.org/10.1111/1365-2435.12936

3.       Li, D.D., Zhang X.Y*., Sophie M. Green, et al. Nitrogen functional gene activity in soil profiles under progressive vegetative recovery after abandonment of agriculture at the Puding Karst Critical Zone Observatory, SW China. Soil Biology and Biochemistry, 2018, 125: 93–102.

https://doi.org/10.1016/j.soilbio.2018.07.004

4.       Xu Z.W. , Yu G.R*., Zhang X.Y*., et al. Soil enzyme activity and stoichiometry in forest ecosystems along the North-South Transect in eastern China (NSTEC). Soil Biology and Biochemistry, 2017, 104: 152-163.

http://dx.doi.org/10.1016/j.soilbio.2016.10.020

5.       Tang Y.Q., Zhang, X.Y*, Li D.D., et al. Impacts of nitrogen and phosphorus additions on the abundance and community structure of ammonia oxidizers and denitrifying bacteria in Chinese fir plantations. Soil Biology and Biochemistry, 2016, 103:284-293.

https://doi.org/10.1016/j.soilbio.2016.09.001

 

详细论文见:https://www.researchgate.net/profile/Xinyu_Zhang4

2023

1.       Liu S., Zhang X.Y*, Wang H.M., et al. Seven-year N and P inputs regulate soil microbial communities via bottom-up effects on carbon and nutrient supply and top-down effects on protist relative abundance. Forest Ecology and Management. 2024,55,121582 https://doi.org/10.1016/j.foreco.2023.121582

2.       Liu S, Zhang X.Y*., Pan J.X, Ma Z.Q.. Differences in available phosphorus in temperate and subtropical forest soils. Applied Soil Ecology, 2023,187,104849 :1-9

3.       Li D.D., Li X.C, Du X.Y., Zhang X.Y*., et al. Response of heterotrophic respiration to vegetation restoration in a karst area, SW China. Land Degradation & Development. 202334(9), 2523-2534 .

4.       杨洋,张心昱*,张应华,等. 高效液相色谱分析土壤氨基糖的质量控制方法. 土壤,2023, 55(5): 1152–1159

5.       李丹丹,张心昱*, 杨洋, . 贵州普定土壤酶活性和氮循环功能基因数据集 [DS/OL]. 中国科学数据,2023. (2023-04-21). 文献DOI10.11922/11-6035.csd.2023.0083.zh;数据DOI10.57760/sciencedb.07754.

6.       LI D.D., Zhang X.Y*., Yang Y., et al. A dataset of soil microbial enzyme activities and nitrogen cycling functional genes in Puding County of Guizhou Province. Science Data Bank, 2023. (2023-04-21). DOI: 10.57760/sciencedb.07754.

7.       贾彦茹,唐玉倩*张心昱,等。 氮磷添加下典型温带、亚热带森林土壤氮循环功能基因丰度和微生物群落属性数据集。文献DOI10.11922/11-6035.csd.2023.0070.zh,数据DOI10.57760/sciencedb.o00119.00080 

2022

8.       Tang Y.Q., Zhang X.Y*., Wang H.M., et al. Warming causes variability in SOM decomposition in N- and P- fertiliser-treated soil in a subtropical coniferous forest. European Journal of Soil Science, 2022,73(6), e13320.

9.       Yang Y., Zhang X.Y*., Wang J*,.et al. Phosphorus acquisition strategies of arbuscular mycorrhizal and ectomycorrhizal trees in subtropical plantations. European Journal of Soil Science, 2022, 73(5), e13303.

10.    Li D.D., Liu W.H., Zheng G.D*., Zhang X.Y*., et al. Assessing the quality of the soil  around a shale gas development site in a subtropical karst region in southwest China . Science of the Total Environment. Science of the Total Environment, 2022,830,154730

11.    Yang Y, Zhang X.Y*., Iain P. Hartley,  et al. Contrasting rhizosphere soil nutrient economy of plants associated with arbuscular mycorrhizal and ectomycorrhizal fungi in karst forests.  Plant and Soil,2022, 470:81–93

12.    Guo Y., Du X.Y., Li D.D., Zheng G. D*., Zhang X.Y, Chen H.K., Zheng J. How newly developed shale gas facilities influence soil erosion in a karst region in SW China. Science of the Total Environment, 2022,818,151825

13.    于颖超,张心昱*,戴晓琴,吕斯丹,杨洋,史丽娟. 亚热带红壤区森林土壤剖面微生物残体碳分布及影响因素.生态学报,2022,42(3)1108-1117

2021

14.    Liu, S., Zhang X.Y*., Dungait J. A. J., et al. Rare microbial taxa rather than phoD gene abundance determine hotspots of alkaline phosphomonoesterase activity in the karst rhizosphere soil. Biology and Fertility of Soils, 2021,57: 257–268. https://doi.org/10.1007/s00374-020-01522-4

15.    Li, D.D., Zhang, X.Y*., Dungait, J.A.J., et al. Main controls on the denitrification rates during cropland revegetation in the southwest China Karst Critical Zone Observatory. Agriculture, Ecosystems and Environment, 2021,308: 107228. https://doi.org/10.1016/j.agee.2020.107228

16.    Li, D.D., Zhang, X.Y*., Dungait, J. A.J. Impacts of vegetation recovery of abandoned farmland on biological N2-fixation rates and diazotrophic community in the karst region of China. Applied Soil Ecology, 2021, 158: 103808. https://doi.org/10.1016/j.apsoil.2020.103808.

17.    Guo, Z.M., Zhang, X.Y*., Dungait, J. A. J., et al. Contribution of soil microbial necromass to SOC stocks during vegetation recovery in a subtropical karst ecosystem. Science of the Total Environment, 2021, 761,143945.

18.    Shi Y., Zhang X.Y., Wang Z.C. et al. Shift in nitrogen transformation in peatland soil by nitrogen inputs. Science of the Total Environment, 2021,764,142924

19. Guo, Y., Du, X.Y., Chen, H.K., Zheng, G.D., Zhang, X.Y.,* Wang, Q.B. Influence of shale gas development on core forests in the subtropical karst region in southwestern China. Science of the Total Environment., 2021, 771,145287

20.    Qu L.Y.*, Wang B.B., Zhang X.Y. Wang M.G., Responses of soil microbial community and enzyme activities to shrub species Artemisia gmelinii in relation to varying rainfall in a semiarid land, SW China. Frontiers in Environmental Science, 2021(9): 725960

21.    Mou Z.J, Kuang L.H., He L.F., Zhang J., Zhang X.Y., et al. Climatic and edaphic controls over the elevational pattern of microbial necromass in subtropical forests, Catena, 2021, 207, 105707

22.    Wang J, Wen X.F., Lv S.D., Zhang X.Y, et al. Vegetation recovery alters soil N status in subtropical karst plateau area: Evidence from natural abundance δ 15N and δ18O. Plant and Soil. 2021, 460, 609–623

23.    Shen Y, Tian D.S., Hou J.H., Wang J.S., Zhang R.Y., Li Z.L, Chen X.L, Wei X.H., Zhang X.Y., He Y.C, Niu S.L. Forest soil acidification consistently reduces litter decomposition irrespective of nutrient availability and litter type. Functional Ecology, 2021,35,2753

2020

24.    Zhang, C., Zhang X.Y*., Kuzyakov, Y., et al. Responses of C-, N- and P-acquiring hydrolases to P and N fertilizers in a subtropical Chinese fir plantation depend on soil depth. Applied Soil Ecology, 2020,150,103465,1-7

25.    Guo, Y., Zhang, X.Y*., Wang Q.B*., et al. Temporal changes in vegetation around a shale gas development area in a subtropical karst region in southwestern China. Science of the Total Environment, 2020,701,134769

26.    Mou, Z.J., Kuang, L. H., Yan B.Y., Zhang X.Y., Wang Y.Q., Liu Z.F*. Influences of sample storage and grinding on the extraction of soil amino sugars. Soil Ecoloy Letters. 2020, 2(2): 157–163

27.    刘霜, 张心昱*. 不同植物根际土壤碳氮水解酶活性热点区的空间分布特征研究. 生态学报, 2020,40 (13) 4462-4469

28.    黄丽,朱治林,唐新斋,袁国富,张心昱*,孙晓敏,王娇. 2004–2016年中国生态系统研究网络(CERN)台站水中八大离子数据集. 中国科学数据, 2020, 2, 110-122文献DOI10.11922/csdata.2019.0044.zh; 数据DOI10.11922/sciencedb.862

29.    刘旭艳,唐新斋,朱治林,袁国富,张心昱*,王娇,孙晓敏.20042016年中国生态系统研究网络水体酸碱度和总溶解性固体数据集. 中国科学数据, 2020,3, 250-261文献DOI10.11922/csdata.2019.0067.zh 数据DOI10.11922/sciencedb.891

30.    杜显元, 陈宏坤, 黄丽, 张心昱*, 吴骞, 郭宇. 油田外排水对干旱戈壁区人工湿地土壤微生物生物量的影响.生态学报, 2020, 40 (15),5388-5396

2019

31.    Guo, Z.M., Zhang X.Y*., Sophie M. Green, et al. Soil enzyme activity and stoichiometry along a gradient of vegetation restoration at the Karst Critical Zone Observatory in southwest China. Land Degradation & Development, 2019,30(16), 1916-1927

32.    Tang, Y.Q., Yu, G. R*,Zhang, X. Y*. et al. Environmental variables better explain changes in potential nitrification and denitrification activities than microbial properties in fertilized forest soils. Science of the Total Environment, 2019, 647:  653–662.

33.    Tang, Y.Q., Yu G.R.*, Zhang, X. Y*. et al. Different strategies for regulating free-living N2 fixation in nutrient-amended subtropical and temperate forest. Applied Soil Ecology, 2019, 136, 21-29.

34.    Yang,Y., Zhang, X.Y. *, Wang,H.M. et al. How understory vegetation affects the catalytic properties of soil extracellular hydrolases in a Chinese fir (Cunninghamia lanceolata) forest. European Journal of Soil Biology, 2019,90,15-21

35.    Kou L, Zhang, X.Y., Wang H.M, et al. Nitrogen additions inhibit nitrification in acidic soils in a subtropical pine plantation: effects of soil pH and compositional shifts in microbial groups. Journal of Forestry Research. 2019, 30(2),669–678.

36.    Xu, Z.W., Yu G.R*., Wang Q.F*., Zhang X.Y., et al. Plant functional traits determine latitudinal variations in soil microbial function: evidence from forests in China. Biogeosciences, 2019,16, 3333–3349

37.    刘旭艳,张心昱*,袁国富,等. 10年中国典型农田生态系统水体pH和矿化度变化特征. 环境化学, 2019,38(6): 1214-1222

38.    黄丽,张心昱*,袁国富,.我国典型陆地生态系统水化学离子特征及空间分布.环境科学, 2019, 40(5): 2086-2093

2018

39.    Zhang, X.Y., Yang, Y., Zhang C., et al. Contrasting responses of phosphatase kinetic parameters to nitrogen and phosphorus additions in forest soils. Functional Ecology, 2018: 32, 106–116.

40.    Zhang, X.Y., Xie, J., Yang, F.T., et al. Specific responses of soil microbial residue carbon to long term applications of mineral fertilizer to reddish paddy soils. Pedosphere, 2018,28(3), 488–496

41.    Li, D.D., Zhang X.Y*., Sophie M. Green, et al. Nitrogen functional gene activity in soil profiles under progressive vegetative recovery after abandonment of agriculture at the Puding Karst Critical Zone Observatory, SW China. Soil Biology and Biochemistry, 2018, 125, 93–102

42.    Yang Y., Zhang, X.Y*., Zhang C, et al. Understory vegetation plays the key role in sustaining soil microbial biomass and extracellular enzyme activities. Biogeosciences, 2018, 15, 4481–4494

43.    Hao Z., Zhang X.Y*., Gao Y*., et al. Nitrogen source track and associated isotopic dynamic characteristic in a complex ecosystem: A case study of a subtropical watershed, China. Environmental Pollution, 2018, 236, 177-178

44.    Xu Z.W., Yu G.R*., Zhang X.Y*. et al. Divergence of dominant factors in soil microbial communities and functions in forest ecosystems along a climatic gradient. Biogeosciences, 2018,15, 1217–1228

45.    Ma Z.Q., Zhang, X.Y *, Zhang C., et al. Accumulation of residue soil microbial carbon after fertilization with nitrogen and phosphorus in Chinese fir plantations of subtropical China. Journal of Fourestry Research, 2018,29(4), 953–962

46.    Tang Y.Q., Yu G.R*., Zhang, X.Y *, et al. Changes in nitrogen-cycling microbial communities with depth in temperate and subtropical forest soils. Applied Soil Ecology,2018,124: 218-228

47.    Xu Z.W., Yu G.R*., Zhang, X.Y *, et al. Biogeographical patterns of soil microbial community as influenced by soil characteristics and climate across Chinese forest biomes. Applied Soil Ecology,2018,124, 298–305

48.    Lian, H.S., Lei Q.L., Zhang X.Y., et al. Effects of Anthropogenic Activities on Long-term Changes of Nitrogen Budget in a Plain River Network Region: A Case Study in the Taihu Basin. Science of the Total Environment, 2018,645(15), 1212-1220

49.    Wang J., Wen X.F*., Zhang X.Y., et al. The strategies of water–carbon regulation of plants in a subtropical primary forest on karst soils in China. Biogeosciences, 15, 4193–4203, 2018.

50.    Wang J., Wen X.F*., Zhang X.Y., et al.. Co-regulation of photosynthetic capacity by nitrogen, phosphorus and magnesium in a subtropical Karst forest in China. Scientific Reports,2018, 8:7406.

51.    董清馨,张心昱*,王辉民,. 氮添加对杉木林土壤有机碳矿化速率及酶动力学参数温度敏感性的影响.生态学报,2018,38186502-6510

52.    刘霜,张心昱*,杨洋,.增温对温带和亚热带森林土壤有机质分解及酶动力学参数影响.应用生态学报, 2018,29 (2) , 433-440

53.    聂二旗,张心昱*,郑国砥,. 氮磷添加对杉木林土壤碳氮矿化速率及酶动力学特征影响.生态学报, 2018, 32(2), 615-623

54.    刘烁,王秋兵,史文娇,张心昱*.喀斯特典型集水区土壤水解酶活性空间异质性及其影响因素.应用生态学报,2018,29(8), 2615-2623.

55.    陈宏坤,杜显元,张心昱*,.页岩气开发对植被和土壤的影响研究进展. 生态学报, 2018, 38(18), 6383-6390

56.    陈宏坤,杜显元,郭宇,张心昱*,. 页岩气开发区井场开发对土地利用和生物量的影响 应用生态学报,2018, 29(10) , 33773384

2017

57.    Li D.D., Fan J.J., Zhang X.Y*., et al. Hydrolase kinetics to detect temperature-related changes in the rates of soil organic matter decomposition. European Journal of Soil Biology, 2017, 81, 108-115

58.    Xu Z.W. , Yu G.R*., Zhang X.Y*., et al. Soil enzyme activity and stoichiometry in forest ecosystems along the North-South Transect in eastern China (NSTEC). Soil Biology and Biochemistry, 2017,104: 152-163

59.    Li Q.R., Tian Y.Q., Zhang X.Y*., et al. Labile carbon and nitrogen additions affect soil organic matter decomposition more strongly than temperature. Applied Soil Ecology, 2017,114, 152–160

60.    Zhang C., Zhang X.Y*, Zou H.T., et al. Contrasting effects of ammonium and nitrate additions on the biomass of soil microbial communities and enzyme activities in a slash pine plantation in subtropical China. Biogeosciences, 2017, 14, 4815–4827

61.    Wei Y., Wang Z.Q., Zhang, X.Y*., et al. Enzyme activities and microbial communities in subtropical forest soil aggregates to ammonium and nitrate-nitrogen additions. Journal of Resources and Ecology, 2017 8(3) 258-267.

62.    Xia Y.Q., Li Y.F., Zhang, X.Y., et al. Nitrate source apportionment using a combined dual isotope, chemical and bacterial property, and Bayesian model approach in river systems. JGR-biogeosciences, 2017, 22(1): 2-14

63.    Shi, Y., Wang Z.Q., He C.G., Zhang, X.Y., et al. Using 13C isotopes to explore denitrification-dependent anaerobic methane oxidation in a paddy-peatland. Scientific Reports, 2017, 7, 40848

64.    郭志明, 张心昱*, 李丹丹,等. 北方温带森林不同海拔梯度土壤碳循环相关酶活性特征研究. 应用生态学报, 2017, 28(9), 2888-2896

2016

65.    Zhang, X.Y., Tang Y. Q., Shi Y., et al. Responses of soil hydrolytic enzymes, ammonia-oxidizing bacteria and archaea to nitrogen applications in a temperate grassland in Inner Mongolia. Scientific Reports, 2016, 6, 32791

66.    Tang Y.Q., Zhang, X.Y *, Li D.D., et al. Impacts of nitrogen and phosphorus additions on the abundance and community structure of ammonia oxidizers and denitrifying bacteria in Chinese fir plantations. Soil Biology and Biochemistry, 2016, 103 :284-293

67.    Shi Y, Sheng L.X., Wang Z.Q., Zhang, X.Y *, et al. Responses of soil enzyme activity and microbial community compositions to nitrogen addition in bulk and microaggregate soil in the temperate steppe of Inner Mongolia. Eurasian Soil Science, 2016, 49(10), 1149–1160

68.    Zhao, N., Yu G.R*., He, N.P*., Wang Q.F.,  Guo, D.L., Zhang, X.Y.et al. Coordinated pattern of multi-element variability in the leaves and roots across Chinese forest biomes. Global Ecology and Biogeography2016, 25, 359–367

69.    张闯,邹洪涛,张心昱*,.不同水平氮添加对湿地松土壤水解酶和氧化还原酶活性影响. 应用生态学报,2016,27(11), 3427-3434

70.    杨洋,王继富,张心昱*,.凋落

71.    物和林下植被对杉木林土壤碳氮水解酶活性的影响. 生态学报, 2016, 36(24), 8102-8110

72.    樊金娟,李丹丹,张心昱*,. 北方温带森林不同海拔梯度土壤碳矿化速率及酶动力学参数温度敏感性研究.应用生态学报,2016,27(1), 17-24

73.    部金凤,邹敬东,张心昱*,等. 不同荧光校正方法对土壤水解酶活性测定结果影响的比较研究.土壤通报.2014,45 (3)660-665

2015

74.    Zhang, X.Y., Dong, W.Y., Dai, X.Q., et al. Responses of absolute and specific soil enzyme activities to long term additions of organic and mineral fertilizer. Science of the Total Environment, 2015,536, 59–67.

75.    Dong, W.Y., Zhang, X.Y*., Liu, X.Y., et al. Responses of soil microbial communities and enzyme activities to nitrogen and phosphorus additions in Chinese fir plantations of subtropical China. Biogeosciences, 2015, 12, 5537–5546

76.    Xu, Z.W., Yu, G.R*., Zhang, X.Y., et al. The variations in soil microbial communities, enzyme activities and their relationships with soil organic matter decomposition along the northern slope of Changbai Mountain. Applied Soil Ecology. 2015,86:19-29

77.    Kou, L., Chen, W.W., Zhang, X.Y., et al. Differential responses of needle and branch order-based root decay to nitrogen addition: dominant effects of acid-unhydrolyzable residue and microbial enzymes. Plant Soil, 2015, 394:315–327.

78.    Fu, X. L., Yang, F.T., Wang, J. L., Di, Y.B., Dai, X.Q., Zhang, X.Y., Wang,H.M. Understory vegetation leads to changes in soil acidity and in microbial communities 27 years after reforestation. Science of the Total Environment, 2015, 502,280–286.

79.    Tian,J., Mccormack,L., Wang J.Y., Guo, D.L., Qiufeng Wang,Q.F., Zhang, X.Y., et al. Linkages between the soil organic matter fractions and the microbial metabolic functional diversity within a broad-leaved Korean pine forest. European Journal of Soil Biology, 2015, 66, 57–64

2014

80.    Dong, W.Y., Zhang, X.Y*., Dai, X.Q., et al. Changes in soil microbial community composition in response to fertilization of paddy soils in subtropical China. Applied Soil Ecology, 2014,84, 140–147

81.    Xu, Z.W., Zhang, X.Y*., Xie, J., et al. Total nitrogen concentrations in surface water of typical agro- and forest ecosystems in China, 2004-2009. Plos One, 2014,9(3): e92850.

82.    Ren, Y.F., Xu, Z.W., Zhang, X.Y*., et al. Nitrogen pollution and source identification of urban ecosystem surface water in Beijing. Frontiers of Environmental Science & Engineering, 2014, 8(1),106-116.

83.    Xie, J., Zhang X.Y*., Xu Z.W., et al. Total phosphorus concentrations in surface water of typical agro- and forest ecosystems in China, 2004-2010. Frontiers of Environmental Science & Engineering, 2014,8 (4),561-569.

84.    Zhao,N., He, N.P., Wang, Q.F., Zhang, X.Y. et al. The altitudinal patterns of leaf C:N:P stoichiometry are regulated by plant growth form, climate and soil on Changbai Mountain, China. Plos One, 2014, 9(4) e95196

85.    施瑶,王忠强,张心昱*,.氮磷添加对内蒙古温带典型草原土壤微生物群落结构的影响. 生态学报,2014,34(17),4943-4949

86.    徐志伟,张心昱*,于贵瑞,. 中国水体硝酸盐氮氧双稳定同位素溯源研究进展. 环境科学,2014,35(8), 3230-3238

87.    刘希玉,邹敬东,徐丽丽,张心昱*,. 不同施肥种类对稻田红壤碳氮淋失的影响. 环境科学,2014, 35(8),3083-3090

2013

88.    Zhang, X.Y., Chen, L.D., Li, Q., et al. Increase in soil nutrients in intensively managed cash-crop agricultural ecosystems in the Guanting Reservoir catchment, Beijing, China. Geoderma, 2013, 193-194,102-108.

89.    Zhang, X.Y., Xu, Z.W., Sun, X.M., et al. Nitrate in shallow groundwater in typical agro- and forest ecosystems in China, 2004-2010. Journal of Environmental Sciences, 2013, 25(5),1007-1014

90.    徐丽丽,王秋兵,张心昱*,.不同肥料对稻田红壤碳,,磷循环相关酶活性的影响.应用生态学报. 2013,24(4),909-914

91.    刘希玉,王忠强, 张心昱*,. 施肥对红壤水稻土团聚体分布及其碳氮含量影响.生态学报.2013, 33(16),4949-4955

92.    王晶苑,张心昱*,温学发,. 氮沉降对森林土壤有机质和凋落物分解的影响及其微生物学机制. 生态学报,2013,33(5):1337-1346

93.    谢娟, 张心昱*,王秋凤等. 燃烧法与化学氧化法测定不同pH土壤有机碳之比较.土壤通报,2013,44(2),333-337

94.    任玉芬,张心昱*,王效科,.北京城地表河流硝酸盐氮来源的氮氧同位素示踪研究.环境工程学报,2013,7(5)1636-1640

2012

95.    Dong, W.Y., Zhang, X.Y*., Wang, H.M., et al. Effect of different fertilization treatments on the soil fertility of paddy soils in the red soil region of southern China. Plso One, 2012, 7(9), e44504

96.    Chen, L.D., Tian, H.Y., Zhang,X.Y., et al. Public attitude and perception to the West-to-East pipeline project and ecosystem management in large project construction. International Journal of Sustainable Development & World Ecology. 2012,19,3, 219-228.

97.    徐丽丽,王秋兵,张心昱*,.不同施肥处理对红壤丘陵区水稻土养分状况的影响.自然资源学报,2012,27(11),1890-1898

98.    徐志伟,张心昱*,任玉芬,. 北京城市生态系统地表水硝酸盐污染空间变化及其来源研究.环境科学,2012,33(8), 2569-2573

2011

99.    Chen, L.D., Qi, X, Zhang, X.Y., et al. Effect of agricultural land use changes on soil nutrient use efficiency in an agricultural area, Beijing, China. Chinese Geographical Science, 2011, 21(4) , 392-402

100.徐志伟,张心昱*,孙晓敏,. 2004-2009年中国典型陆地生态系统地下水硝态氮评价. 环境科学, 2011,32(10), 2827-2833

2010

101.Zhang, X.Y., Meng X.J., Gao L.P., et al. Potential impacts of climate warming on active soil organic carbon contents along natural altitudinal forest transect of Changbai Mountain. Acta Ecologica Sinica, 2010,30,113-117

102.樊金娟,孟宪菁,张心昱*,等.模拟增温对长白山北坡自然垂直样带森林土壤有机碳稳定碳同位素的影响. 应用生态学报, 2010,21(7) 1621-1626

2009

103.张心昱,孟宪菁,高鲁鹏,.长白山原始森林土壤养分及其对土柱置换实验响应.自然资源学报,2009,24(8),1386-1392

104.张心昱,孙晓敏,袁国富,.中国生态系统研究网络水体pH和矿化度监测数据初步分析.地球科学进展,2009,24(9),1042-1050.

2007

105.Li, Q., Chen, L.D., Qi, X., Zhang, X.Y., et al. Assessing field vulnerability to phosphorus loss in Beijing agricultural area using revised field phosphorus ranking scheme. Journal of Environmental Sciences, 2007, 19(8),977-985.

106.张心昱,陈利顶,傅伯杰,.农田生态系统不同土地利用方式与管理措施对土壤质量的影响. 应用生态学报,2007,18 (2),303-309.

2006

107.Zhang, X.Y., Chen, L.D., Fu B.J, et al. Soil organic carbon changes as influenced by different agricultural land-use and management. Acta Ecologica Sinica, 2006,22(10):3198-320

108.张心昱,陈利顶, 傅伯杰,. 不同农业土地利用方式和管理对土壤有机碳的影响. 生态学报,2006,22(10), 3198-3204.

109.张心昱, 陈利顶, 李琪,等. 不同农业土地利用类型对北方传统农耕区土壤养分含量及垂直分布影响.农业环境科学学报,2006, 25(2)152-156

110.张心昱, 王秋兵, 岳振平,. 猪粪与磷石膏配合施用对菱镁矿粉尘污染土壤化学性状的影响. 农业环境科学学报, 2006, 25(1)124-127

111.张心昱, 陈利顶. 土壤质量评价指标体系与评价方法研究进展与展望. 水土保持研究,200613(3)30-34

2005

112.张心昱,Desmond E. Walling,王秋兵,. 英国Culm河河漫滩沉积物中磷素时空变化研究.土壤学报, 2005, 42(3),390-396.

113.张心昱, 王秋兵. 应用137Cs 技术调查河漫滩沉积物的研究进展. 水土保持研究, 2005, 12(2): 149-151

114.张心昱, 王秋兵. 河漫滩沉积物中磷素沉积的研究进展. 土壤通报, 2005, 36(4): 617-621

合作情况

   
项目协作单位

美国田纳西大学
德国哥廷根大学

英国埃克塞特大学

英国洛桑实验站

指导学生

已指导学生

郭志明  硕士研究生  071300-生态学  

董清馨  硕士研究生  071300-生态学  

唐玉倩  博士研究生  071300-生态学  

杨洋  博士研究生  071300-生态学  

现指导学生

刘霜  博士研究生  071300-生态学  

张馨元  博士研究生  071300-生态学  

于颖超  博士研究生  071300-生态学  

周茂裕  博士研究生  071300-生态学  

合作指导研究生

博士研究生

徐志伟

郭宇

李丹丹

硕士研究生

孟宪菁

徐志伟

徐丽丽

施瑶

刘希玉

李丹丹

杨洋

张闯

刘烁

吴骞

张微