Access the full text.
Sign up today, get DeepDyve free for 14 days.
Hongwei Xu, Ke Wang, J. Bailey, C. Jordan, A. Withers (2006)
Temporal Stability of Sward Dry Matter and Nitrogen Yield Patterns in a Temperate GrasslandPedosphere, 16
(2005)
Application of a geographically - weighted regression analysis net primary production of Chinese forest ecosystems
S. Blackmore (2000)
The interpretation of trends from multiple yield mapsComputers and Electronics in Agriculture, 26
E. Sadler, P. Bauer, W. Busscher (1995)
Spatial Corn Yield During Drought in the SE Coastal Plain
D. Makowski, M. Tremblay, D. Debroize, F. Laurent (2000)
Epandage d’engrais: La vigilance s’impose!Perspectives Agricoles, 263
S. Blackmore, R. Godwin, S. Fountas (2003)
The Analysis of Spatial and Temporal Trends in Yield Map Data over Six YearsBiosystems Engineering, 84
J. Silva, J. Peça, J. Serrano, M. Carvalho, P. Palma (2008)
Evaluation of spatial and temporal variability of pasture based on topography and the quality of the rainy seasonPrecision Agriculture, 9
Quan Wang, J. Ni, J. Tenhunen (2005)
Application of a geographically‐weighted regression analysis to estimate net primary production of Chinese forest ecosystemsGlobal Ecology and Biogeography, 14
(1995)
Effect of fertilization on flora , biomass and seed production and soil fertility in four natural pastures of the Mediterranean basin
S. McCormick, C. Jordan, J. Bailey (2009)
Within and between-field spatial variation in soil phosphorus in permanent grasslandPrecision Agriculture, 10
L. Gatiboni, J. Kaminski, J. Pellegrini, G. Brunetto, Adair Saggin, J. Flores (2000)
Effect of phosphorus fertilizer application and introduction of winter forage species on forage availability in natural pastures.Pesquisa Agropecuaria Brasileira, 35
I. Rao, E. Barrios, E. Collazos, D. Friesen, Richard Thomas, A. Oberson, Bal Singh (2004)
Soil phosphorus dynamics, acquisition and cycling in crop-pasture-fallow systems in low fertility tropical soils : A review from Latin America
(2006)
Pastagens do Alentejo: Bases técnicas sobre caracterização, pastoreio e melhoramento
E. Vrindts, A. Mouazen, M. Reyniers, K. Maertens, M. Maleki, H. Ramon, J. Baerdemaeker (2005)
Management zones based on correlation between soil compaction, yield and crop dataBiosystems Engineering, 92
J Efe Serrano (2006)
Évora
(2000)
Influence of phosphorous fertilization and introduction of winter forage species on forage offer from natural pasture
R. Petersen (1994)
Agricultural Field Experiments: Design and Analysis
EJ Sadler, PJ Bauer, WJ Busscher (1995)
Site-specific management for agricultural systems
M. Daniels, P. DeLaune, P. Moore, A. Mauromoustakos, S. Chapman, J. Langston (2001)
Soil phosphorus variability in pastures: implications for sampling and environmental management strategies.Journal of environmental quality, 30 6
Luciano Gatiboni, J. Kaminski, J. Pellegrini, G. Brunetto, A. Saggin, João Flores (2000)
Influência da adubação fosfatada e da introdução de espécies forrageiras de inverno na oferta de forragem de pastagem naturalPesquisa Agropecuaria Brasileira, 35
L. Zhang, Huiquan Bi, P. Cheng, C. Davis (2004)
Modeling spatial variation in tree diameter–height relationshipsForest Ecology and Management, 189
AG Gillingham (2001)
Precision management of fertiliser application to pasture. In: Proceedings of the first Australian geospatial information and agriculture conference
A. Gillingham (2001)
Precision management of fertiliser application to pasture.
(2009)
Within and between-field spatial variation in soil
(2000)
Epandage d’engrais: La vigilance
(2004)
Modelling spatial variation in tree diameter-height
A. Rook, B. Dumont, J. Isselstein, K. Osoro, M. WallisDeVries, G. Parente, J. Mills (2004)
Matching type of livestock to desired biodiversity outcomes in pastures – a reviewBiological Conservation, 119
I. Ohlsson (1996)
Book reviewSite-specific management for agricultural systems: P.C. Robert, R.H. Rust and W.E. Larson (Editors). American Society of Agronomy, Crop Science Society of America, and Soil Science Society of America, Madison, WI, 1995. ISBN 0-89118-127-X, Paperback, 993 pp., US$ 39Field Crops Research, 48
J. Schellberg, M. Hill, R. Gerhards, M. Rothmund, M. Braun (2008)
Precision agriculture on grassland : Applications, perspectives and constraintsEuropean Journal of Agronomy, 29
(2004)
Matching type
W. Jetz, C. Rahbek, J. Lichstein (2005)
Local and global approaches to spatial data analysis in ecologyGlobal Ecology and Biogeography, 14
R. Wright, D. Boyer, H. Perry (1990)
THE INFLUENCE OF SOIL FACTORS ON YIELD DIFFERENCES AMONG LANDSCAPE POSITIONS IN AN APPALACHIAN CORNFIELDSoil Science, 149
IM Rao, E Barrios, E Amezquita, DK Friesen, R Thomas, A Oberson, BR Singh (2004)
ACIAR proceedings, modelling nutrient management in tropical cropping systems
R. Daniels, J. Gilliam, D. Cassel, L. Nelson (1987)
Quantifying the effects of past soil erosion on present soil productivityJournal of Soil and Water Conservation, 42
P Martiniello, G D’Agnano, O Piadalino, F Nardelli (1995)
Sylvopastoral systems. environmental, agricultural and economic sustainability, cahiers options Mediterranéennes
Peter Schad, S. Dondeyne (2013)
World Reference Base for Soil Resources
M. Afyuni, D. Cassel, W. Robarge (1993)
Effect of Landscape Position on Soil Water and Corn Silage YieldSoil Science Society of America Journal, 57
RB Daniels, JW Gilliam, DK Cassel, LA Nelson (1987)
Quantifying the effects of past soil erosion on the present productivityJournal of Soil Water Conservation, 42
(2005)
Variable rate application of fertilizer in a permanent pasture – – An account of the first year of experimental tests in Portugal
A. Mallarino, David Wittry (2004)
Efficacy of Grid and Zone Soil Sampling Approaches for Site-Specific Assessment of Phosphorus, Potassium, pH, and Organic MatterPrecision Agriculture, 5
A. Fotheringham, M. Charlton, C. Brunsdon (1998)
Geographically Weighted Regression: A Natural Evolution of the Expansion Method for Spatial Data AnalysisEnvironment and Planning A, 30
(1995)
Effect of fertilization on flora, biomass
Several methods are described that could be used by a farm manager to define the spatial and temporal stability within a field from a series of yield maps. A quantitative analysis of soil phosphate concentration and pasture dry matter yield data over 4 years (2004–2007) were investigated to identify the spatial and temporal stability in a 6 ha pasture field. The data were combined into two maps that characterize the spatial and temporal variation recorded over the 4 years. The two maps were then combined to create a single map with five management classes, each with different characteristics that can have an impact on the way the field is managed. These categories are: high yielding and stable, high yielding and moderately stable, low yielding and stable, low yielding and moderately stable and unstable. The unstable class represents 83 and 93% of the total area with regard to soil phosphate concentration and pasture dry matter yield, respectively. Results from this study show that the significant temporal stability found cancels out over time, leaving a relatively homogenous map of spatial variation. The implication of the findings is that each pasture field should be managed according to the current year’s conditions. These results also justify a further study that evaluates the soil phosphorous dynamics under Mediterranean conditions.
Precision Agriculture – Springer Journals
Published: Apr 22, 2010
Access the full text.
Sign up today, get DeepDyve free for 14 days.