Add to ORKGThe development and initial application of a mechanistic model (TOUGHREACT-N) designed to characterize soil nitrogen (N) cycling and losses are described. The model couples advective and diffusive nutrient transport, multiple microbial biomass dynamics, and equilibrium and kinetic chemical reactions. TOUGHREACT-N was calibrated and tested against field measurements to assess pathways of N loss as either gas emission or solute leachate following fertilization and irrigation in a Central Valley, California, agricultural field as functions of fertilizer application rate and depth, and irrigation water volume. Our results, relative to the period before plants emerge, show that an increase in fertilizer rate produced a nonlinear response in term...
Models of terrestrial system dynamics often include nitrogen (N) cycles to better represent N limita...
Nitrogen (N) loss to atmosphere and ground water can contribute to environmental destruction, by N e...
The study of soil N cycling processes has been, is, and will be at the centre of attention in soil s...
The broad impact of NO and N2O gas emissions on climate change are widely recognized [e.g., Mosier,1...
In recent years concern has grown over the contribution of nitrogen (N) fertilizer use to nitrate (N...
The research in this dissertation is broadly concerned with the measurement, modeling, and managemen...
AbstractEffective irrigation practices have become an optimal means of providing water and nutrients...
Anthropogenic inputs of reactive nitrogen (N) to ecosystems have led to significant environmental co...
Anthropogenic input of reactive nitrogen to ecosystems has led to significant environmental conseque...
Nitrogen cycling in the soil-plant-atmosphere has been a topic of considerable interest over the yea...
Microbial communities in agricultural soils underpin many ecosystem services including the maintenan...
A classic framework for soil nitrogen (N) cycling, the hole in the pipe (HIP) model, posits a trade‐...
Applying abundant manure to soils can accelerate nitrogen transformations and nitrous oxide (N2O) em...
Microbial-mediated nitrogen (N) dynamics is not only a key process for crop productivity, but also a...
Of the nutrients necessary for plant growth, nitrogen (N) is the most limiting nutrient in agricultu...
Models of terrestrial system dynamics often include nitrogen (N) cycles to better represent N limita...
Nitrogen (N) loss to atmosphere and ground water can contribute to environmental destruction, by N e...
The study of soil N cycling processes has been, is, and will be at the centre of attention in soil s...
The broad impact of NO and N2O gas emissions on climate change are widely recognized [e.g., Mosier,1...
In recent years concern has grown over the contribution of nitrogen (N) fertilizer use to nitrate (N...
The research in this dissertation is broadly concerned with the measurement, modeling, and managemen...
AbstractEffective irrigation practices have become an optimal means of providing water and nutrients...
Anthropogenic inputs of reactive nitrogen (N) to ecosystems have led to significant environmental co...
Anthropogenic input of reactive nitrogen to ecosystems has led to significant environmental conseque...
Nitrogen cycling in the soil-plant-atmosphere has been a topic of considerable interest over the yea...
Microbial communities in agricultural soils underpin many ecosystem services including the maintenan...
A classic framework for soil nitrogen (N) cycling, the hole in the pipe (HIP) model, posits a trade‐...
Applying abundant manure to soils can accelerate nitrogen transformations and nitrous oxide (N2O) em...
Microbial-mediated nitrogen (N) dynamics is not only a key process for crop productivity, but also a...
Of the nutrients necessary for plant growth, nitrogen (N) is the most limiting nutrient in agricultu...
Models of terrestrial system dynamics often include nitrogen (N) cycles to better represent N limita...
Nitrogen (N) loss to atmosphere and ground water can contribute to environmental destruction, by N e...
The study of soil N cycling processes has been, is, and will be at the centre of attention in soil s...
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