9397至尊品牌源于信誉✪欢迎莅临

9397至尊品牌源于信誉✪欢迎莅临

Faculty
               Department of Land Resources and Regional Planning
               Department of Remote Sensing and Geo-information Science
               Department of Urban Planning
               Department of Environmental Sciences
               Department of Environmental Engineering
  Department of Environmental Sciences

Jun Wang

CURRICULUM VITAE

Jun WANG (王俊)

Professor of Ecology

College of Urban and Environmental Science

Northwest University

Xuefu Ave. No.1 Chang’an District

Xi’an 710127, China

Phone: 86-132 2783 3711, 86-29-8830 8783

Fax: 86-29-8830 8427

Email: wangj@nwu.edu.cn


Education

2000-2003 Ph.D., Lanzhou University, China

1997-2000 M.Sc., Lanzhou University, China

1992-1996 B.Sc., Lanzhou University, China

Positions

2012- Northwest University, China, Professor

2007-2012 Northwest University, China, Associate professor

2003-2007 Northwest University, China, Lecturer

1996-1997 Agricultural Reconnaissance & Planning Institute of Gansu Province, China, Assistant engineer

Research Interests

Soil C/N cycling and greenhouse gas emission in cropping systems

Sustainable management of farming system in the semiarid area

Resilience, adaptive capacity, and sustainability in social-ecological systems

Research Experiences

2018 “Introduced Talent to the West”, West Light Project,Institute of Soil and Water Conservation, CAS & MWR, China

2011 Visiting Scholar, North Plain Agricultural Research Laboratory, ARS-USDA, USA

2009-2010 Visiting scholar, Institute of Soil and Water Conservation, CAS & MWR, China

2006-2009 Postdoctoral, Institute of Soil and Water Conservation, CAS & MWR, China

2004-2005 Visiting scholar, Lecce University, Italy

Research Grants

Synergetic mechanism of carbon sequestration and yield stabilization in the winter wheat -cover crop rotation systems on the Loess Plateau, National Natural Science Foundation of China, No. 42277322, 2023-2026 (PI).

Carbon sequestration mechanisms and technologies with straw mulching in dryland cropping systems, Shaanxi Agricultural Science and Technology innovation Drive project, No. NYKJ-2022-XA-004, 2022-2025 (Co-PI).

Technologies of yield stabilization, carbon sequestration, and fertilizer reduction in dryland cover cropping systems, Shaanxi Agricultural Science and Technology innovation Drive project, No. NYKJ-2021-XA-005, 2022-2025 (PI).

Productivity and environmental benefits of dryland cover cropping systems, Shaanxi Key International Scientific Collaboration and Exchange Project, No. 2020KWZ-010, 2020-2022 (PI).

“Introduced Talent to the West”, West Light Project,Chinese Academy of Science, 2019-2022 (PI).

Soil water, carbon and nitrogen processes and their effects on yield formation and greenhouse gas emission under dryland winter wheat – cover crop systems.National Natural Science Foundation of China, No.31570440, 2016-2019(PI).

Carbon sequestration and mitigation in dryland cropping systems. Shaanxi International Scientific Collaboration and Exchange Project, No. 2015KW-026, 2016-2018 (PI).

Response of net global warming potential to precipitation change under dryland cropping systems in the Loess Plateau, National Natural Science Foundation of China, No.31270484, 2013-2016(PI).

Spatial-temporal response and adaptive management of natural forest to climate change in Qinling Mountain, Special Fund for Forestry-Scientific Research in the Public Interest, No. 201304309, 2013-2016(Co-PI).

Soil carbon dioxide emission in the dryland fields, The Key Project of Chinese Ministry of Education, No. 209123, 2009-2011 (PI).

Water cycle and rainfall use efficiency in the dryland agroecosystems. The Knowledge Innovation Program of the Chinese Academy of Sciences, No. kzcx2-yw-424-1, 2006-2010 (Co-PI).

Co-evolvement of social-ecological system to drought in the semiarid area, National Natural Science Foundation of China, No.30500077, 2006-2008 (PI).

Publications(selected)

[1]Zhang, N., Sainju, U.M., Zhao, F., Ghimire, R., Ren, C., Liang, Y., Yang, C., Wang, J.*, 2023. Mulching decreased the abundance of microbial functional genes in phosphorus cycling under maize. Applied Soil Ecology 187, 104833.

https://doi.org/10.1016/j.apsoil.2023.104833

[2]Muhammad, I., Lv, J.*, Wang, J.*, Ahmad, S., Farooq, S., Ali, S., Zhou, X., 2022. Regulation of soil microbial community structure and biomass to mitigate soil greenhouse gas emission. Frontiers in Microbiology 13, 868862.

https://doi.org/10.3389/fmicb.2022.868862

[3]Zhou, S., Chen, L., Wang, J., He, L., Wang, J.*, Ren, C., Guo, Y., Zhao, F., 2022. Stronger microbial decay of recalcitrant carbon in tropical forests than in subtropical and temperate forest ecosystems in China. Catena 215, 106351.

https://10.1016/j.catena.2022.106351

[4]Adil, M., Zhang, S., Wang, J.*, Shah, A.N., Tanveer, M., Fiaz, S., 2022. Effects of fallow management practices on soil water, crop yield and water use efficiency in winter wheat monoculture system: A meta-analysis. Frontiers in Plant Science 13, 825309.https://doi.org/10.3389/fpls.2022.825309

[5]Zhang, S., Wang, J.*, Sainju, U.M., Ghimire, R., 2022. Soil water storage, winter wheat yield, and water‐use efficiency with cover crops and nitrogen fertilization. Agronomy Journal 114, 1361-1373.https://doi.org/10.1002/agj2.21028.

[6]Zhou, S., Wang, J.*, Chen, L., Wang, J., Zhao, F., 2022. Microbial community structure and functional genes drive soil priming effect following afforestation. Science of the Total Environment 825, 153925.https://doi.org/10.1016/j.scitotenv.2022.153925

[7]Wang, J., Zhang, S., Sainju, U.M., Ghimire, R., Zhao, F., 2021. A meta-analysis on cover crop impact on soil water storage, succeeding crop yield, and water-use efficiency. Agricultural Water Management 256, 107085.

https://doi.org/ 10.1016/j.agwat.2021.107085

[8]Wang, J., Fu, X., Ghimire, R., Sainju, U.M., Jia, Y., Zhao, F., 2021. Responses of soil bacterial community and enzyme activity to organic matter components under long-term fertilization on the Loess Plateau of China. Applied Soil Ecology 166, 103992.https://doi.org/10.1016/j.apsoil.2021.103992

[9]Raza, M.A., Gul, H., Wang, J.#, Yasin, H.S., Qin, R., Bin Khalid, M.H., Naeem, M., Feng, L.Y., Iqbal, N., Gitari, H., Ahmad, S., Battaglia, M., Ansar, M., Yang, F., Yang, W., 2021. Land productivity and water use efficiency of maize-soybean strip intercropping systems in semi-arid areas: A case study in Punjab Province, Pakistan. Journal of Cleaner Production 308, 127282.

https://doi.org/ 10.1016/j.jclepro.2021.127282

[10]Muhammad, I., Wang, J.*, Sainju U.M., Zhang, S., Zhao, F., Khan, A., 2021. Cover cropping enhances soil microbial biomass and affects microbial community structure: A meta-analysis. Geoderma 381, 114696. (ESI 1% high cited and hot paper)

https://doi.org/10.1016/j.geoderma.2020.114696

[11]Fu, X., Wang, J.*, Xie, M.Y., Zhao, F.Z., Doughty, R., 2020. Increasing temperature can modify the effect of straw mulching on soil C fractions, soil respiration, and microbial community composition. PLoS ONE 15(8), e0237245.

https://doi.org/10.1371/journal.pone.0237245.

[12]Fu, X., Wang, J*., Sainju, U.M., Liu, W., 2019. Soil nitrogen fractions under long-term crop rotations in the Loess Plateau of China. Soil and Tillage Research 186, 42-51.

https://doi.org/10.1016/j.still.2018.10.004

[13]Muhammad, I., Sainju, U.M., Zhao, F., Khan, A., Ghimire, R., Fu, X., Wang, J.*, 2019. Regulation of soil CO2and N2O emissions by cover crops: A meta-analysis. Soil and Tillage Research 192, 103-112. https://doi.org/10.1016/j.still.2019.04.020

[14]Fu, X., Wang, J.*, Sainju, U.M., Zhao, F., Liu, W., 2019. Soil microbial community and carbon and nitrogen fractions responses to mulching under winter wheat. Applied Soil Ecology 139, 64-68.https://10.1016/j.apsoil.2019.03.018

[15]Wang, J., Fu, X., Sainju, U.M., Zhao, F., 2018. Soil carbon fractions in response to straw mulching in the Loess Plateau of China. Biology and Fertility of Soils 54, 423-436.

https://doi.org/10.1007/s00374-018-1271-z

[16]Wang, J., Fu, X., Zhao, F., Sainju, U.M., 2018. Response of soil carbon fractions and dryland maize yield to mulching. Soil Science Society of America Journal 82, 371-381.

https://doi.org/10.2136/sssaj2017.11.0397

[17]Wang, J., Ghimire, R., Fu, X., Sainju, U.M., Liu, W., 2018. Straw mulching increases precipitation storage rather than water use efficiency and dryland winter wheat yield. Agricultural Water Management 206, 95-101.https://doi.org/10.1016/j.agwat.2018.05.004

[18]Zhao F.-Z., Ren C.-J., Shelton S., Wang Z.-T., Pang G.-W., Chen J. Wang J*., 2017. Grazing intensity influence soil microbial communities and their implications for soil respiration Agriculture, Ecosystems and Environment, 249, 50-56.

https://doi.org/10.1016/j.agee.2017.08.007

[19]Fu, X., Wang, J.*, Sainju U.M., Liu W.-Z., 2017. Soil Carbon Fractions in Response to Long-term Crop Rotations in the Loess Plateau of China. Soil Science Society of America Journal 81, 503-513.

https://doi.org/10.2136/sssaj2016.04.0122

[20]Zhao, F.-Z., Zhang, L., Sun, J., Ren, C.-J., Han, X.-H., Yang, G.-H., Wang, J. *, 2017. Effect of soil C, N and P stoichiometry on carbon fractions after afforestation. Pedosphere, 27 (4), 705-713.

https://doi.org/ 10.1016/s1002-0160(17)60479-x

[21]Wang, J., Liu, Q.-Q., Chen, R.-R., Liu, W.-Z., Sainju, U.M., 2015. Soil carbon dioxide emissions in response to precipitation frequency in the Loess Plateau, China. Applied Soil Ecology 96, 288-295.

https://doi.org/ 10.1016/j.apsoil.2015.08.026

[22]Wang, J., Sainju, U.M., 2014. Soil Carbon and Nitrogen Fractions and Crop Yields Affected by Residue Placement and Crop Types. PLoS ONE 9, e105039.

https://doi.org/10.1371/journal.pone.0105039

[23]Wang Jun, Liu Wen-Zhao, Dang Ting-Hui, Sainju U.M. 2013. Nitrogen Fertilization Effect on Dryland Soil Water Balance and Winter Wheat Yield in the Chinese Loess Plateau. Agronomy Journal 105, 143-149.

https://doi.org/10.2134/agronj2012.0067

[24]Wang, J., Liu, W., Dang, T., 2011. Responses of soil water balance and precipitation storage efficiency to increased fertilizer application in winter wheat. Plant and Soil 347, 41-51.

https://doi.org/10.1007/s11104-011-0764-4

[25]Wang, J., Liu, W.-Z., Mu, H.-F., Dang, T.-H., 2010. Inorganic Phosphorus Fractions and Phosphorus Availability in a Calcareous Soil Receiving 21-Year Superphosphate Application. Pedosphere 20, 304-310.

https://doi.org/10.1016/s1002-0160(10)60018-5

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