Exploring the spatial variation in the fertilizer-nitrogen requirement of wheat within fields
暂无分享,去创建一个
R. Webster | B. Marchant | D. Kindred | R. Sylvester-Bradley | A. Milne | D. R. KINDRED | A. E. MILNE | R. WEBSTER | B. P. MARCHANT | R. SYLVESTER-BRADLEY
[1] P. Berry,et al. Establishing best practice for estimation of Soil N Supply , 2012 .
[2] R. A. Webb. Use of the Boundary Line in the analysis of biological data , 1972 .
[3] S. E. Cook,et al. Field-Scale Experiments for Site-Specific Crop Management. Part II: A Geostatistical Analysis , 2004, Precision Agriculture.
[4] D. A. Boyd,et al. Nitrogen requirement of cereals: 1. Response curves , 1976, The Journal of Agricultural Science.
[5] Lutz Breuer,et al. European Nitrogen Assessment , 2011 .
[6] D. Grindlay. REVIEW Towards an explanation of crop nitrogen demand based on the optimization of leaf nitrogen per unit leaf area , 1997, The Journal of Agricultural Science.
[7] H. Akaike,et al. Information Theory and an Extension of the Maximum Likelihood Principle , 1973 .
[8] Detecting soil nitrogen supplies by canopy sensing: proof of concept - Phase 2. , 2008 .
[9] Keith A. Smith,et al. Nitrogen Efficiency in Agricultural Soils , 1988 .
[10] Chris Dyer,et al. Optimising fertiliser nitrogen for modern wheat and barley crops , 2008 .
[11] R. Sylvester-Bradley,et al. Using grain N% as a signature for good N use. , 2009 .
[12] Roger Sylvester-Bradley,et al. Analysing nitrogen responses of cereals to prioritize routes to the improvement of nitrogen use efficiency. , 2009, Journal of experimental botany.
[13] R. Lark,et al. Estimating a boundary line model for a biological response by maximum likelihood , 2006 .
[14] H. J. Heege,et al. Prospects and results for optical systems for site-specific on-the-go control of nitrogen-top-dressing in Germany , 2008, Precision Agriculture.
[15] R. M. Lark,et al. A Method to Investigate Within‐Field Variation of the Response of Combinable Crops to an Input , 2003 .
[16] A. Sinclair,et al. Better estimation of soil nitrogen use efficiency by cereals and oilseed rape , 2008 .
[17] K. Smith,et al. Efficiencies of nitrogen fertilizers for winter cereal production, with implications for greenhouse gas intensities of grain , 2012, The Journal of Agricultural Science.
[18] Alice E. Milne,et al. Spatial multivariate classification of an arable field into compact management zones based on past crop yields , 2012 .
[19] P. Jamieson,et al. Quantifying how winter wheat crops accumulate and use nitrogen reserves during growth , 2012 .
[20] R. M. Lark,et al. The geostatistical analysis of experiments at the landscape-scale , 2006 .
[21] Jørgen E. Olesen,et al. Quantifying the effect of interactions between disease control, nitrogen supply and land use change on the greenhouse gas emissions associated with wheat production , 2010 .
[22] M. Jeuffroy,et al. Is crop N demand more closely related to dry matter accumulation or leaf area expansion during vegetative growth , 2007 .
[23] United Kingdom,et al. 1983-84 fertiliser recommendations for agricultural and horticultural crops. , 1983 .