[1]Heterotrophic Denitrification of Nitrate-Contaminated Water Using Different Solid Carbon Sources. Xu, Ying,Li, Jun,Xu, Ying,Qiu, Tian-Lei,Han, Mei-Lin,Wang, Xu-Ming. 2011

[2]Simultaneous removal of nitrate and pentachlorophenol from simulated groundwater using a biodenitrification reactor packed with corncob. Wang, Xuming,Xing, Lijun,Qiu, Tianlei,Han, Meilin.

[3]Research on the Current Situation of Nitrate Pollution of Groundwater in Shandong Province. Li, D.,Liu, J.,Wang, L.,Deng, H.,Zou, J.,Huang, J.,Li, D.,Wang, L.,Deng, H.,Zou, J..

[4]Changes in the soil environment from excessive application of fertilizers and manures to two contrasting intensive cropping systems on the North China Plain. Ju, X. T.,Kou, C. L.,Christie, P.,Dou, Z. X.,Zhang, F. S..

[5]Investigations on Nitrate Pollution of Soil, Groundwater and Vegetable from Three Typical Farmlands in Beijing Region, China. Du Lian-feng,Zhao Tong-ke,Zhang Cheng-jun,An Zhi-zhuang,Wu Qiong,Liu Bao-cun,Li Peng,Ma Mao-ting. 2011

[6]Denitrification-dependent anammox activity in a permanently flooded fallow ravine paddy field. Zhou, Sheng,Borjigin, Sodbilig,Riya, Shohei,Hosomi, Masaaki,Borjigin, Sodbilig.

[7]The relationship between anammox and denitrification in the sediment of an inland river. Zhou, Sheng,Zhou, Sheng,Borjigin, Sodbilig,Riya, Shohei,Terada, Akihiko,Hosomi, Masaaki.

[8]Stoichiometric ratio of dissolved organic carbon to nitrate regulates nitrous oxide emission from the biochar-amended soils. Lan, Z. M.,Chen, C. R.,Rashti, M. Rezaei,Yang, H.,Zhang, D. K.,Lan, Z. M..

[9]Loss of nitrogen by ammonia volatilisation and denitrification after application of urea to maize in Shanxi Province, China. Yang, Z. P.,Turner, D. A.,Denmead, O. T.,Chen, D.,Freney, J. R.,Yang, Z. P.,Zhang, J. J.,Wang, Y. L.,Chen, M. C.,Zhang, Q.,Denmead, O. T.,Freney, J. R..

[10]Effect of nitrogen form and root-zone pH on growth and nitrogen uptake of tea (Camellia sinensis) plants. Ruan, Jianyun,Gerendas, Joska,Hardter, Rolf,Sattelmacher, Burkhard.

[11]Soil salinity in the irrigated area of the yellow river in Ningxia, China. Xiong, SY,Xiong, ZX,Wang, PW. 1996

[12]A Study of Functional Planning of Groundwater Nitrate Content Using GIS and Fuzzy Clustering Analysis. Zou, J.,Zhou, Q.,Liu, J.,Wang, L.,Li, D.,Deng, H.,Zou, J.,Zhou, Q.,Liu, J.,Wang, L.,Li, D.,Deng, H.,Huang, J..

[13]Study of nitrate leaching and nitrogen fate under intensive vegetable production pattern in northern China. Zhao Chang-Xing,Song Xiao-Zong,Wang Xiao-Lan,Li Ji,Song Xiao-Zong,Zhao Chang-Xing. 2009

[14]Prokaryotic diversity of a non-sulfide, low-salt cold spring sediment of Shawan County, China. Zeng, Jun,Yang, Hong-mei,Lou, Kai,Zeng, Jun. 2010

[15]Can nitrate contaminated groundwater be remediated by optimizing flood irrigation rate with high nitrate water in a desert oasis using the WHCNS model?. Liang, Hao,Hu, Kelin,Liang, Hao,Qi, Zhiming,Prasher, Shiv O.,Zhang, Yuanpei.

[16]Inhibiting sulfate reducing bacteria activity by denitrification in an anaerobic baffled reactor: influencing factors and mechanism analysis. Zhang, Zhaohan,Feng, Yujie,Ren, Nanqi,Zhang, Zhaohan,Liu, Guangmin,Chen, Zhongxi,Zhang, Zhaohan,Zhan, Peirong. 2014

[17]Simulated NH4+-N Deposition Inhibits CH4 Uptake and Promotes N2O Emission in the Meadow Steppe of Inner Mongolia, China. Liu Xingren,Zhang Qingwen,Li Shenggong,Zhang Leiming,Ren Jianqiang. 2017

[18]Structural and functional analysis of denitrification genes in Pseudomonas stutzeri A1501. Yan, YL,Yang, J,Chen, LH,Yang, F,Dong, J,Xue, Y,Xu, XY,Zhu, YF,Yao, ZJ,Lin, M,Wang, YP,Jin, Q.

[19]A distinctive root-inhabiting denitrifying community with high N2O/(N2O+N-2) product ratio. Ai, Chao,Liang, Guoqing,Wang, Xiubin,Sun, Jingwen,He, Ping,Zhou, Wei,He, Ping.

[20]The effects of silicon fertilizer on denitrification potential and associated genes abundance in paddy soil. Song, Alin,Fan, Fenliang,Yin, Chang,Wen, Shilin,Zhang, Yalei,Fan, Xiaoping,Liang, Yongchao.