Author:
Jiang ,Grafton ,Pearson ,Bretherton ,Holmes
Abstract
Spatial variability in soil, crop, and topographic features, combined with temporal variability between seasons can result in variable annual yield patterns within a paddock. The complexity of interactions between yield-limiting factors such as soil nutrients and soil water require specialist statistical processing to be able to quantify variability, and thus inform crop management practices. This study uses multiple linear regression models, Cubist regression and feed-forward neural networks to predict spatial maize-grain (Zea mays) yield at two sites in the Waikato Region, New Zealand. The variables considered were: crop reflectance data from satellite imagery, soil electrical conductivity, soil organic matter, elevation, rainfall, temperature, solar radiation, and seeding density. This exercise explores methods which may be useful in predicting yield from proximal and remote sensed data with higher resolution than traditional low spatial resolution point sampling using soil testing and yield response curves.
Funder
Foundation for Arable Research
Subject
Plant Science,Agronomy and Crop Science,Food Science
Reference57 articles.
1. The New Zealand arable industry;Millner,2013
2. Spatial variation and site-specific management zones;Khosla,2010
3. Soil Electrical Conductivity and Topography Related to Yield for Three Contrasting Soil–Crop Systems
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