An improved UK-DNDC model for evaluations of soil temperature and nitrous oxide emissions from Canadian agriculture

被引:0
|
作者
Dhananjay Yadav
Junye Wang
机构
[1] University of Nizwa,Department of Mathematical & Physical Sciences
[2] Athabasca University,Faculity of Science and Technology
来源
Plant and Soil | 2021年 / 469卷
关键词
Nitrous oxide emissions; Snow depth; Soil temperature; DNDC model; Snowmelt; Freeze-thaw cycles;
D O I
暂无
中图分类号
学科分类号
摘要
引用
收藏
页码:15 / 37
页数:22
相关论文
共 50 条
  • [31] An inventory of nitrous oxide emissions from agriculture in the UK using the IPCC methodology: emission estimate, uncertainty and sensitivity analysis
    Brown, L
    Brown, SA
    Jarvis, SC
    Syed, B
    Goulding, KWT
    Phillips, VR
    Sneath, RW
    Pain, BF
    ATMOSPHERIC ENVIRONMENT, 2001, 35 (08) : 1439 - 1449
  • [32] Assessing the impacts of diversified crop rotation systems on yields and nitrous oxide emissions in Canada using the DNDC model
    Jiang, Rong
    Yang, J. Y.
    Drury, C. F.
    He, Wentian
    Smith, W. N.
    Grant, B. B.
    He, Ping
    Zhou, Wei
    SCIENCE OF THE TOTAL ENVIRONMENT, 2021, 759
  • [33] Nitrous oxide emissions from European agriculture - an analysis of variability and drivers of emissions from field experiments
    Rees, R. M.
    Augustin, J.
    Alberti, G.
    Ball, B. C.
    Boeckx, P.
    Cantarel, A.
    Castaldi, S.
    Chirinda, N.
    Chojnicki, B.
    Giebels, M.
    Gordon, H.
    Grosz, B.
    Horvath, L.
    Juszczak, R.
    Klemedtsson, A. Kasimir
    Klemedtsson, L.
    Medinets, S.
    Machon, A.
    Mapanda, F.
    Nyamangara, J.
    Olesen, J. E.
    Reay, D. S.
    Sanchez, L.
    Cobena, A. Sanz
    Smith, K. A.
    Sowerby, A.
    Sommer, M.
    Soussana, J. F.
    Stenberg, M.
    Topp, C. F. E.
    van Cleemput, O.
    Vallejo, A.
    Watson, C. A.
    Wuta, M.
    BIOGEOSCIENCES, 2013, 10 (04) : 2671 - 2682
  • [34] IMPROVED CHAMBER SYSTEMS FOR RAPID, REAL-TIME NITROUS OXIDE EMISSIONS FROM MANURE AND SOIL
    Parker, D. B.
    Casey, K. D.
    Todd, R. W.
    Waldrip, H. M.
    Marek, G. W.
    Auvermann, B. W.
    Marek, T. H.
    Webb, K.
    Willis, W. M.
    Pemberton, B.
    Meyer, B.
    TRANSACTIONS OF THE ASABE, 2017, 60 (04) : 1235 - 1258
  • [35] Evaluating management effects on nitrous oxide emissions from grasslands using the process-based DeNitrification-DeComposition (DNDC) model
    Rafique, Rashad
    Peichl, Matthias
    Hennessy, Deirdre
    Kiely, Gerard
    ATMOSPHERIC ENVIRONMENT, 2011, 45 (33) : 6029 - 6039
  • [36] Soil emissions of nitric oxide and nitrous oxide from no-till corn
    Thornton, FC
    Valente, RJ
    SOIL SCIENCE SOCIETY OF AMERICA JOURNAL, 1996, 60 (04) : 1127 - 1133
  • [37] "Hot spots" of N and C impact nitric oxide, nitrous oxide and nitrogen gas emissions from a UK grassland soil
    Loick, Nadine
    Dixon, Elizabeth
    Abalos, Diego
    Vallejo, Antonio
    Matthews, Peter
    McGeough, Karen
    Watson, Catherine
    Baggs, Elizabeth M.
    Cardenas, Laura M.
    GEODERMA, 2017, 305 : 336 - 345
  • [38] Application of the DNDC model to predict emissions of N2O from Irish agriculture
    Abdalla, M.
    Wattenbach, M.
    Smith, P.
    Ambus, P.
    Jones, M.
    Williams, M.
    GEODERMA, 2009, 151 (3-4) : 327 - 337
  • [39] Temperature Sensitivity of Soil Nitrous Oxide Emissions in Tea Plantations at Different Elevations
    Shen, Meng-Xue
    Wang, Jin-Yang
    Li, Zhu-Tao
    Lin, Hai-Yan
    Guo, Shu-Min
    Zou, Jian-Wen
    Huanjing Kexue/Environmental Science, 2024, 45 (12): : 7401 - 7409
  • [40] Analysis of uncertainties in the estimates of nitrous oxide and methane emissions in the UK's greenhouse gas inventory for agriculture
    Milne, Alice E.
    Glendining, Margaret J.
    Bellamy, Pat
    Misselbrook, Tom
    Gilhespy, Sarah
    Casado, Monica Rivas
    Hulin, Adele
    van Oijen, Marcel
    Whitmore, Andrew P.
    ATMOSPHERIC ENVIRONMENT, 2014, 82 : 94 - 105
12345