Research Progress on Soil Nitrogen Loss Pathways in Tea Plantation Ecosystems

[1] Niu Siyun, Ni Kang, Yi Xiaoyun, et al. Research progress of soil nitrogen loss pathway in tea garden ecosystem [J]. Chinese Journal of Tea, 2020, 61(1):5.DOI:CNKI:SUN:CYKJ.0.2020-01-002.

[2] Tea planting affects soil acidification and nitrogen and phosphorus distribution in soil[J]. Peng Yan;;Chen Shen;;Lichao Fan;;Xin Li;;Liping Zhang;;Lan Zhang;;Wenyan Han.Agriculture, Ecosystems and Environment.2018

[3] Manipulation of nitrogen leaching from tea field soil using a Trichoderma viride biofertilizer[J]. Shengjun Xu;;Sining Zhou;;Shuanglong Ma;;Cancan Jiang;;Shanghua Wu;;Zhihui Bai;;Guoqiang Zhuang;;Xuliang Zhuang.Environmental Science and Pollution Research, 2017 (36)

[4] Soil pH is a good predictor of the dominating N2O production processes under aerobic conditions[J]. Yi Cheng;;Jin‐Bo Zhang;;Jing Wang;;Zu‐Cong Cai;;Shen‐Qiang Wang.Journal of Plant Nutrition and Soil Science.2015

[5] Conversion of open lands to short‐rotation woody biomass crops: site variability affects nitrogen cycling and N2O fluxes in the US Northern Lake States[J]. Marin M. Palmer;;Jodi A. Forrester;;David E. Rothstein;;David J. Mladenoff.GCB Bioenergy.2014

[6] Tea plantation destroys soil retention of NO 3 − and increases N 2 O emissions in subtropical China[J]. Tongbin Zhu;;Jinbo Zhang;;Tianzhu Meng;;Yanchen Zhang;;Jiajia Yang;;Christoph Müller;; Zucong Cai.Soil Biology and Biochemistry.2014

[7] Estimation of N2O emission from tea garden soils, their adjacent vegetable garden and forest soils in eastern China[J]. Wenyan Han;;Jianming Xu;;Kang Wei;;Yuanzhi Shi;;Lifeng Ma.Environmental Earth Sciences.2013

[8] Atmospheric dry and wet nitrogen deposition on three contrasting land use types of an agricultural catchment in subtropical central China[J]. Jianlin Shen;;Yong Li;;Xuejun Liu;; Xiaosheng Luo; Hong Tang;;Yangzhu Zhang;;Jinshui Wu.Atmospheric Environment.2013

[9] Annual dynamics of N2O emissions from a tea field in southern subtropical China[J]. Fu X.Q.;; Li Y.;; Su W.J.;; Shen J.L.;; Xiao R.L.;; Tong C.L.;; Wu J..Plant, Soil and Environment.2012

[10] Effects of rainfall and fertilizer types on nitrogen and phosphorus concentrations in surface runoff from subtropical tea fields in Zhejiang, China[J]. Zong’an Liu;;Jingping Yang;;Zhengchao Yang;;Junliang Zou.Nutrient Cycling in Agroecosystems.2012

[11] Nitrous oxide emissions from green tea fields in Japan: contribution of emissions from soil between rows and soil under the canopy of tea plants[J]. Yuhei Hirono;;Kunihiko Nonaka.Soil Science and Plant Nutrition,2012(3)

[12] Nobuharu,KIHOU,Kouichi,et al.Vertical Distribution of Nitrate Nitrogen in Soil Water under Tea Gardens and the Adjacent Forests[J].Japanese Journal of Soil Science and Plant Nutrition, 1991, 62(2):156-164.DOI:10.20710/dojo.62.2_156.

[13] Tokuda, Shin Ichi , and M. Hayatsu . "Nitrous oxide emission potential of 21 acidic tea field soils in Japan." Soil Science and Plant Nutrition 47.3(2001):637-642.

[14] Huang Ying, Li Yaying, YAO Huaiying. Changes of N2O release from strong acid tea garden soil after adding different fertilizer nitrogen [J]. Plant Nutrition and Fertilizer Journal, 2013, 19(6):6. DOI:10. 11674/ zwyf.2013.0631.

[15] Cheng Y , Zhang J B , Wang J ,et al.Soil pH is a good predictor of the dominating N2O production processes under aerobic conditions[J].Journal of Plant Nutrition and Soil Science = Zeitschrift fuer Pflanzenernaehrung und Bodenkunde, 2015, 178(3):370-373.DOI:10. 1002/jpln. 201400577.

[16] Shin-Ichi T , Masahito H .Nitrous Oxide Flux from a Tea Field Amended with a Large Amount of Nitrogen Fertilizer and Soil Environmental Factors Controlling the Flux (Environment) [J].Soil science and plant nutrition, 2004.

[17] Hirono,Nonaka.Nitrous oxide emissions from green tea fields in Japan: contribution of emissions from soil between rows and soil under the canopy of tea plants[J].SOIL SCI PLANT NUTR, 2012, 2012,58(3)(-):384-392.DOI:10.1080/00380768.2012.686434.