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南京农业大学资源与环境科学学院导师教师师资介绍简介-王金阳

/2021-03-27


一、教育经历

2009.09-2015.06 南京农业大学 农学博士。

2005.09-2009.06 淮北师范大学 理学学士。二、工作经历
2019.12-至今 南京农业大学 副教授;

2017.06-2019.12 英国班戈大学 玛丽居里 COFUND Fellow;

2015.07-2017.06 中国科学院南京土壤研究所 博士后;

2013.10-2015.04 德国哥廷根大学 联合培养博士。三、获奖情况
2019 年度教育部高等学校科学研究优秀成果奖-自然科学奖一等奖 (排名第五)。
四、学术兼职

European Journal of Soil Biology 编委,Frontiers in Environmental Science, Frontiers in Earth Science
& Frontiers in Agronomy 审稿编辑。
五、主持项目

1.EXTREMO3: Interaction of extreme tropospheric ozone pollution, heat stress and land management on
grassland functioning and resilience, Horizon 2020’s Marie Sk?odowska-Curie Actions COFUND
Fellowships,
2017-2020

2.土壤反硝化模型建立、验证及全球排放量估算, 中国博士后基金会和中国科学院联合资助, 2015-2017
3.土壤反硝化作用的影响因素及全球排放通量估算研究, 中国


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博士后基金会面上项目,2015-2017六、发表论文
1.Cheng, Y. et al. Nitrogen deposition differentially affects soil gross nitrogen
transformations in organic and mineral horizons. Earth-Science Rev. 201, 103033 (2020).
2.Wang, J. et al. Short-term responses of greenhouse gas emissions and ecosystem carbon fluxes to
elevated ozone and N fertilization in a temperate grassland. Atmos. Environ. 211, 204–213 (2019).
3.Wang, J. et al. Effects of four years of elevated ozone on microbial biomass and extracellular
enzyme activities in a semi-natural grassland. Sci. Total Environ. 660, 260–268 (2019).
4.Ma, S., Wang, J. & Yan, X. Is Nitrous Oxide Reduction Primarily Regulated by the
Fungi-to-Bacteria Abundance Ratio in Fertilized Soils? Pedosphere 29, 569–576 (2019).
5.Awad, Y. M. et al. Biochar Effects on Rice Paddy: Meta-analysis. in Advances in Agronomy 1–32
(2018).
6.Wang, J., Akiyama, H., Yagi, K. & Yan, X. Controlling variables and emission factors of methane
from global rice fields. Atmos. Chem. Phys. 18, 10419–10431 (2018).
7.Wang, J., Chadwick, D. R., Cheng, Y. & Yan, X. Global analysis of agricultural soil
denitrification in response to fertilizer nitrogen. Sci. Total Environ. 616–617, 908– 917 (2018).
8.Cheng, Y., Wang, J., Wang, J., Chang, S. X. & Wang, S. The quality and quantity
of exogenous organic carbon input control microbial NO3? immobilization: A meta- analysis. Soil
Biol. Biochem. 115, 357–363 (2017).
9.Ma, L., Cheng, Y., Wang, J. & Yan, X. Mechanical insights into the effect of fluctuation in soil
moisture on nitrous oxide emissions from paddy soil. Paddy Water Environ. 15, 359–369 (2017).
10.Xia, L. et al. Can knowledge-based N management produce more staple grain

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with lower greenhouse gas emission and reactive nitrogen pollution? A meta-analysis. Glob. Chang.
Biol. 23, 1917–1925 (2017).
11.Zang, H., Blagodatskaya, E., Wang, J., Xu, X. & Kuzyakov, Y. Nitrogen fertilization
increases rhizodeposit incorporation into microbial biomass and reduces soil organic matter losses.
Biol. Fertil. Soils 53, 419–429 (2017).
12.Wang, J., Xiong, Z. & Kuzyakov, Y. Biochar stability in soil: Meta-analysis of decomposition and
priming effects. GCB Bioenergy 8, 512–523 (2016).
13.Wang, J., Xiong, Z., Yan, X. & Kuzyakov, Y. Carbon budget by priming in a biochar-amended soil.
Eur. J. Soil Biol. 76, 26–34 (2016).
14.Wang, J. & Yan, X. Denitrification in upland of China: Magnitude and influencing
factors. J. Geophys. Res. Biogeosciences 121, 3060–3071 (2016).
15.Xia, L. et al. Integrating agronomic practices to reduce greenhouse gas emissions
while increasing the economic return in a rice-based cropping system. Agric. Ecosyst. Environ. 231,
24–33 (2016).
16.Xia, L. et al. Greenhouse gas emissions and reactive nitrogen releases from rice production
with simultaneous incorporation of wheat straw and nitrogen fertilizer. Biogeosciences 13,
4567–4579 (2016).
17.Zang, H., Wang, J. & Kuzyakov, Y. N fertilization decreases soil organic matter decomposition in
the rhizosphere. Appl. Soil Ecol. 108, 47–53 (2016).
18.Zhang, X., Xu, X., Liu, Y., Wang, J. & Xiong, Z. Global warming potential and greenhouse gas
intensity in rice agriculture driven by high yields and nitrogen use efficiency.
Biogeosciences 13, 2701–2714 (2016).
19.Zhao, X., Zhao, C., Wang, J., Stahr, K. & Kuzyakov, Y. CaCO3 recrystallization in saline and
alkaline soils. Geoderma 282, 1–8 (2016).
20.Wang, J., Dokohely, M. E., Xiong, Z. & Kuzyakov, Y. Contrasting effects of aged and fresh
biochars on glucose-induced priming and microbial activities in paddy soil. J. Soils Sediments 16,
191–203 (2016).
21.Chen, Z., Wang, B., Wang, J., Pan, G. & Xiong, Z. Contrasting effects of elevated
CO2 and warming on temperature sensitivity of soil organic matter decomposition
in a Chinese paddy field. Environ. Monit. Assess. 188, 545 (2015).
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22.Wang, J. et al. Effects of biochar amendment on greenhouse gas emissions, net ecosystem carbon
budget and properties of an acidic soil under intensive vegetable production. Soil Use
Manag. 31, 375–383 (2015).
23.Wang, J. et al. Response of rice production to elevated [CO2] and its interaction with rising
temperature or nitrogen supply: a meta-analysis. Clim. Change 130, 529– 543 (2015).
24.Yang, B. et al. Mitigating net global warming potential and greenhouse gas intensities by
substituting chemical nitrogen fertilizers with organic fertilization strategies in
rice-wheat annual rotation systems in China: A 3-year field experiment. Ecol. Eng. 81, 289–297
(2015).
25.Sun, L., Li, L., Chen, Z., Wang, J. & Xiong, Z. Combined effects of nitrogen deposition and
biochar application on emissions of N2O, CO2 and NH3 from agricultural and forest soils.
Soil Sci. Plant Nutr. 60, 254–265 (2014).
26.Sun, L. et al. Atmospheric nitrogen and phosphorus deposition at three sites in Nanjing, China,
and possible links to nitrogen deposition sources. Clean - Soil, Air, Water 42, 1650–1659 (2014).
27.Ma, Y. et al. Mitigation of nitrous oxide emissions from paddy soil under
conventional and no-till practices using nitrification inhibitors during the winter wheat- growing
season. Biol. Fertil. Soils 49, 627–635 (2013).
28.Sun, L., Li, B., Ma, Y., Wang, J. & Xiong, Z. Year-Round Atmospheric Wet and Dry Deposition of
Nitrogen and Phosphorus on Water and Land Surfaces in Nanjing, China. Water Environ. Res. 85,
514–521 (2013).
29.Wang, J. et al. Methane and nitrous oxide emissions as affected by organic– inorganic mixed
fertilizer from a rice paddy in southeast China. J. Soils Sediments 13, 1408–1417 (2013).
30.Ma, Y., Wang, J., Zhou, W., Yan, X. & Xiong, Z. Greenhouse gas emissions during the seedling
stage of rice agriculture as affected by cultivar type and crop density. Biol. Fertil. Soils 48,
589–595 (2012).
31.Wang, J., Pan, X., Liu, Y., Zhang, X. & Xiong, Z. Effects of biochar amendment in two soils on
greenhouse gas emissions and crop production. Plant Soil 360, 287–298
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(2012).
32.Wang, J. et al. Modeling Impacts of Alternative Practices on Net Global Warming
Potential and Greenhouse Gas Intensity from Rice-Wheat Annual Rotation in China. PLoS One 7,
(2012).
33.Wang, J. et al. Methane emissions from a rice agroecosystem in South China: Effects of water
regime, straw incorporation and nitrogen fertilizer. Nutr. Cycl. Agroecosystems 93, 103–112
(2012).
34.Wang, J., Jia, J., Xiong, Z., Khalil, M.A.K. & Xing, G. Water regime-nitrogen fertilizer-straw
incorporation interaction: Field study on nitrous oxide emissions from a rice agroecosystem in
Nanjing, China. Agric. Ecosyst. Environ. 141, 437–446 (2011). 35.Wang, J., Xiong, Z. & Yan,
X. Fertilizer-induced emission factors and background emissions of N2O from vegetable
fields in China. Atmos. Environ. 45,
6923–6929 (2011).
36.Wang, J., Zhang, M., Xiong, Z., Liu, P. & Pan, G. Effects of biochar addition on N2O and CO2
emissions from two paddy soils. Biol. Fertil. Soils 47, 887–896 (2011).






























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