Impact of climate change on greenhouse gas emissions and water balance in a dryland-cropping region with variable precipitation.

Wheat covers a significant fraction of the US Pacific Northwest (PNW) dryland agriculture. Past studies have suggested that management practices can differentially affect productivity and emission of greenhouse gases (GHGs) across the different agro-ecological Zones (AEZs) in PNW. In this study we used CropSyst, a biophysically-based cropping systems model that simulates crop processes and water and nitrogen cycles, with the purpose of evaluating relevant scenarios and contributing analyses to inform adaptation and mitigation strategies aimed at reducing and managing the risks of climate change.

Novel multimodel ensemble approach to evaluate the sole effect of elevated CO on winter wheat productivity.

Elevated carbon-dioxide concentration [eCO] is a key climate change factor affecting plant growth and yield. Conventionally, crop modeling work has evaluated the effect of climatic parameters on crop growth, without considering CO. It is conjectured that a novel multimodal ensemble approach may improve the accuracy of modelled responses to eCO.

Assessing the effect of different treatments on decomposition rate of dairy manure.

Confined animal feeding operations (CAFOs) contribute to greenhouse gas emission, but the magnitude of these emissions as a function of operation size, infrastructure, and manure management are difficult to assess. Modeling is a viable option to estimate gaseous emission and nutrient flows from CAFOs. These models use a decomposition rate constant for carbon mineralization.