Use of electromagnetic induction (EMI) sensors along with geospatial modeling provide a better opportunity for understanding spatial distribution of soil properties and crop yields on a landscape level and to map site-specific management zones. The first objective of this research was to evaluate the relationship of crop yields, soil properties and apparent electrical conductivity (ECa) at different topographic positions (shoulder, backslope, and deposition slope). The second objective was to examine whether the correlation of ECa with soil properties and crop yields on a watershed scale can be improved by considering topography in modeling ECa and soil properties compared to a whole field scale with no topographic separation. This study wa...
Traditional sampling methods are inadequate for assessing the interrelated physical, chemical, and b...
· Soil electrical conductivity (EC) mapping is a simple, inexpensive tool precision farmers can use ...
In large-scale arable cropping systems, understanding within-field yield variations and yield-limiti...
Use of electromagnetic induction (EMI) sensors along with geospatial modeling provide a better oppor...
Precision agriculture is a growing trend, allowing the right amount of fertilizer, soil amendments, ...
In precision agriculture and agroecosystem modelling, spatially distributed information on soil char...
Knowledge of the spatial distribution of soil textural features is important for determining soil mo...
Methods are needed to identify, monitor, and advance economically and ecologically sustainable manag...
Electromagnetic induction (EMI) has been used to characterize the spatial variability of soil proper...
ABSTRACT: An accurate and high-resolution mapping of soil properties allows optimizing the managemen...
Detailed soil maps are vital in agroecosystem modelling and precision agriculture since the spatial ...
Electromagnetic induction (EMI) surveys are used to infer soil spatial heterogeneity at the field sc...
<p>The spatial variability in soils used for livestock production (<em>i.e. </em>Natraquoll and Natr...
Knowledge of the spatial distribution of soil textural properties is important for determining soil ...
Spatial heterogeneity of crop growth within fields is rarely quantified but essential for estimating...
Traditional sampling methods are inadequate for assessing the interrelated physical, chemical, and b...
· Soil electrical conductivity (EC) mapping is a simple, inexpensive tool precision farmers can use ...
In large-scale arable cropping systems, understanding within-field yield variations and yield-limiti...
Use of electromagnetic induction (EMI) sensors along with geospatial modeling provide a better oppor...
Precision agriculture is a growing trend, allowing the right amount of fertilizer, soil amendments, ...
In precision agriculture and agroecosystem modelling, spatially distributed information on soil char...
Knowledge of the spatial distribution of soil textural features is important for determining soil mo...
Methods are needed to identify, monitor, and advance economically and ecologically sustainable manag...
Electromagnetic induction (EMI) has been used to characterize the spatial variability of soil proper...
ABSTRACT: An accurate and high-resolution mapping of soil properties allows optimizing the managemen...
Detailed soil maps are vital in agroecosystem modelling and precision agriculture since the spatial ...
Electromagnetic induction (EMI) surveys are used to infer soil spatial heterogeneity at the field sc...
<p>The spatial variability in soils used for livestock production (<em>i.e. </em>Natraquoll and Natr...
Knowledge of the spatial distribution of soil textural properties is important for determining soil ...
Spatial heterogeneity of crop growth within fields is rarely quantified but essential for estimating...
Traditional sampling methods are inadequate for assessing the interrelated physical, chemical, and b...
· Soil electrical conductivity (EC) mapping is a simple, inexpensive tool precision farmers can use ...
In large-scale arable cropping systems, understanding within-field yield variations and yield-limiti...