Access the full text.
Sign up today, get DeepDyve free for 14 days.
(1997)
The investigation and analysis of N application and yield in Beijing suburb . ( in Chinese with English abstract )
K. Paustian, J. Six, E. Elliott, H. Hunt (2000)
Management options for reducing CO2 emissions from agricultural soilsBiogeochemistry, 48
(1986)
Predication of nitrogen fertilizer needs of arable crops. In: Tinker B, Lauchli A (eds) Advances in Plant Nutrition
K. Blankenau, H. Olfs, H. Kuhlmann (2000)
Effect of microbial nitrogen immobilization during the growth period on the availability of nitrogen fertilizer for winter cerealsBiology and Fertility of Soils, 32
J. Doran (1980)
Soil microbial and biochemical changes associated with reduced tillage.Soil Science Society of America Journal, 44
B. Wienhold, A. Halvorson (1999)
Nitrogen Mineralization Responses to Cropping, Tillage, and Nitrogen Rate in the Northern Great PlainsSoil Science Society of America Journal, 63
T Engels, H Kuhlmann (1993)
Effect of the rate of N fertilizer on apparent net mineralisation of N during and after cultivation of cereal and sugar beet cropsZ Pflanzenernähr Bodenkd, 156
K. Cassman, A. Dobermann, P. Cruz, G. Gines, M. Samson, J. Descalsota, J. Alcantara, M. Dizon, D. Olk (1996)
Soil organic matter and the indigenous nitrogen supply of intensive irrigated rice systems in the tropicsPlant and Soil, 182
S. Delin, B. Lindén, K. Berglund (2005)
Yield and protein response to fertilizer nitrogen in different parts of a cereal field: potential of site-specific fertilizationEuropean Journal of Agronomy, 22
M. Mamo, G. Malzer, D. Mulla, D. Huggins, J. Strock (2003)
Spatial and temporal variation in economically optimum nitrogen rate for cornAgronomy Journal, 95
(2005)
Optimization of the nitrogen fertilizer management for a winter wheat-summer maize rotation system in the North China Plain - from field to regional scale. (in Chinese with English abstract)
(2002)
Study on fate and utilization of nitrogen in protected vegetable fields. (in Chinese with English abstract)
(1979)
Guide to fertilizer recommendations in Colorado: Soil analysis and computer process. Colorado State University, Cooperative Extension Service
J. Legg, J. Meisinger (2015)
Soil Nitrogen Budgets
JS Schepers, AR Mosier (1991)
Managing nitrogen for groundwater quality and farm profitability
R. Mulvaney, S. Khan, T. Ellsworth (2006)
Need for a Soil‐Based Approach in Managing Nitrogen Fertilizers for Profitable Corn ProductionSoil Science Society of America Journal, 70
M. Cabrera, D. Kissel (1988)
Evaluation of a Method to Predict Nitrogen Mineralized from Soil Organic Matter Under Field ConditionsSoil Science Society of America Journal, 52
(1989)
Study and application of nutrient balance for fertilization recommendation. (in Chinese with English abstract)
F. Stevenson (1982)
Nitrogen in agricultural soils
Y. Miao, D. Mulla, P. Robert, J. Hernandez (2006)
Within‐Field Variation in Corn Yield and Grain Quality Responses to Nitrogen Fertilization and Hybrid SelectionAgronomy Journal, 98
John Schmidt, A. Dejoia, Richard Ferguson, Randal Taylor, R. Young, John Havlin (2002)
Corn Yield Response to Nitrogen at Multiple In-Field LocationsAgronomy Journal, 94
A. Dobermann, C. Witt, D. Dawe, S. Abdulrachman, H. Gines, R. Nagarajan, S. Satawathananont, T. Son, P. Tan, G.H Wang, N. Chien, V. Thoa, C. Phung, P. Stalin, P. Muthukrishnan, V. Ravi, M. Babu, S. Chatuporn, J. Sookthongsa, Q. Sun, R. Fu, G. Simbahan, M. Adviento (2002)
Site-specific nutrient management for intensive rice cropping systems in AsiaField Crops Research, 74
(1979)
Mineral nitrogen in soil as an indicator for nitrogen fertilizer requirements (Nmin-method)
(1998)
A soil nitrogen test option for N recommendations with corn
XP Chen, HJ Ji, FS Zhang (2000)
Fertilizing for sustainable production of high quality vegetables. (in Chinese with English abstract)
(1997)
The investigation and analysis of N application and yield in Beijing suburb
(1983)
Determine optimal N rate based on crop response curve. (in Chinese with English abstract)
JO Legg, JJ Meisinger (1982)
Nitrogen in agricultural soils. Agron. Monogr. 22
(2001)
Soil testing and fertility
A. Franzluebbers, F. Hons, D. Zuberer (1995)
Tillage and Crop Effects on Seasonal Soil Carbon and Nitrogen DynamicsSoil Science Society of America Journal, 59
JX Wu, XP Chen, LL Jia (2004)
Continuous nitrogen supplying capacity of the fertile soil in the winter wheat-summer maize rotation system. (in Chinese with English abstract)Plant Nutrition and Fertilizer Science, 10
M. Vigil, B. Eghball, M. Cabrera, B. Jakubowski, Jessica Davis (2002)
Accounting for seasonal nitrogen mineralization: An overviewJournal of Soil and Water Conservation, 57
J. Wehrmann, H. Scharpf (1979)
Der Mineralstickstoffgehalt des Bodens als Maßstab für den Stickstoffdüngerbedarf (Nmin-Methode)Plant and Soil, 52
MA Schmitt, GW Randall, GW Rehm (1998)
A soil nitrogen test option for N recommendations with corn. Publ. FO-6514-GO
Wu Jun-xi (2004)
Continuous nitrogen supplying capacity of the fertile soil in the winter wheat/summer maize rotation systemPlant Nutrition and Fertilizing Science
PN Soltanpour (1979)
Guide to fertilizer recommendations in Colorado: Soil analysis and computer process
(2003)
Optimization of the N fertilizer management of a winter wheat/summer maize rotation system in the Northern China Plain
R. Soper, P. Huang (1963)
THE EFFECT OF NITRATE NITROGEN IN THE SOIL PROFILE ON THE RESPONSE OF BARLEY TO FERTILIZER NITROGENCanadian Journal of Soil Science, 43
A. Dobermann, K. Cassman (2002)
Plant nutrient management for enhanced productivity in intensive grain production systems of the United States and AsiaPlant and Soil, 247
H. Olfs, K. Blankenau, F. Brentrup, J. Jasper, A. Link, J. Lammel (2005)
Soil- and plant-based nitrogen-fertilizer recommendations in arable farmingJournal of Plant Nutrition and Soil Science, 168
(1999)
Investigation on nitrate pollution in ground water at intensive agricultural region in Huanghehuaihehaihe Plain . ( in Chinese with English abstract )
C. Cambardella, E. Elliott (1993)
Carbon and Nitrogen Distribution in Aggregates from Cultivated and Native Grassland SoilsSoil Science Society of America Journal, 57
ML Cabrera, DE Kissel (1988)
Evaluation of a method to predict nitrogen mineralized from soil matter under filed conditionsSoil Sci Soc Am J, 57
Guang-huo Wang, A. Dobermann, C. Witt, Q. Sun, R. Fu (2001)
Performance of Site‐Specific Nutrient Management for Irrigated Rice in Southeast ChinaAgronomy Journal, 93
T. Engels, H. Kuhlmann (1993)
Effect of the rate of N fertilizer on apparent net mineralization of N during and after cultivation of cereal and sugar beet cropsJournal of Plant Nutrition and Soil Science, 156
A. Galvis-Spínola, E. Álvarez-Sánchez, J. B. (1998)
A method to quantify N fertilizer requirementNutrient Cycling in Agroecosystems, 51
X. Ju, C. Kou, Fusuo Zhang, Peter Christie (2006)
Nitrogen balance and groundwater nitrate contamination: comparison among three intensive cropping systems on the North China Plain.Environmental pollution, 143 1
T. Fiez, W. Pan, B. Miller (1995)
Nitrogen use efficiency of winter wheat among landscape positionsSoil Science Society of America Journal, 59
A. Dobermann, C. Witt, S. Abdulrachman, H. Gines, R. Nagarajan, T. Son, P. Tan, Guang-huo Wang, N. Chien, V. Thoa, C. Phung, P. Stalin, P. Muthukrishnan, V. Ravi, M. Babu, G. Simbahan, M. Adviento, V. Bartolome (2003)
Estimating Indigenous Nutrient Supplies for Site‐Specific Nutrient Management in Irrigated RiceAgronomy Journal, 95
Z. Cui, Xin-ping Chen, Junliang Li, Jiufei Xu, Liwei Shi, Fusuo Zhang (2006)
Effect of N Fertilization on Grain Yield of Winter Wheat and Apparent N LossesPedosphere, 16
TE Fiez, WL Pan, BC Miller (1995)
Nitrogen efficiency analysis of winter wheat among landscape positionSoil Sci Soc Am J, 59
B. Janssen, F. Guiking, D. Eijk, E. Smaling, J. Wolf, H. Reuler (1990)
A system for quantitative evaluation of the fertility of tropical soils (QUEFTS).Geoderma, 46
P. Scharf, N. Kitchen, K. Sudduth, J. Davis, V. Hubbard, J. Lory (2005)
Field-scale variability in optimal nitrogen fertilizer rate for cornAgronomy Journal, 97
(1999)
Investigation on nitrate pollution in ground water at intensive agricultural region in Huanghe-huaihe-haihe Plain
Estimating indigenous nitrogen supply (INS) by measurement of crop N uptake in N omission plots for site-specific N management is not feasible on a routine basis because it involves destructive plant sampling and plant tissue analysis, which is time-consuming and expensive. The objective of this study was to determine the amount of INS and develop a method to estimate it using soil testing in the North China plain (NCP). On-farm experiments at 229 sites were conducted from 2003 to 2005 in seven key winter wheat (Triticum aestivum L.)/summer maize (Zea mays L.) production regions of the NCP. The mean INS during the wheat-growing season was129 kg N ha−1 with a range from 62 to 212 kg N ha−1, and it varied from 69 to 202 kg N ha−1 with a mean of 142 kg N ha−1 during the maize-growing season. Considering all sites, the variability of INS was not simulated by initial soil N min or apparent N mineralization (N organic) alone, while together they could explain about 38% and 60% of INS during the wheat and maize-growing seasons, respectively. During the wheat-growing season, mean N organic was 63 kg N ha−1, and 59% and 33% of its variation could be explained by SOM in high-yielding regions (mean yield, 7.6 t ha−1) and low-yielding regions (mean yield, 5.3 t ha−1), respectively. Mean N organic during the maize-growing season was 109 kg N ha−1, 22% of which could be explained by SOM across all sites. An average of 40% and 42% of INS variation could be explained by both SOM and initial soil N min content during the wheat and maize-growing seasons, respectively. We conclude that the accuracy of estimating crop N requirement for site-specific N management will be increased by using initial soil N min and SOM.
Nutrient Cycling in Agroecosystems – Springer Journals
Published: Oct 18, 2007
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.