Model evaluation in relation to soil N2O emissions

The loss of nitrogen from fertilised soils in the form of nitrous oxide (N2O) is a side effect of modern agriculture and the focus of many model-based studies. Due to the spatial and temporal heterogeneity of soil N2O emissions, the measured data can introduce limitations to the use of those statistical methods that are most commonly employed in the evaluation of model performance. In this paper, we describe these limitations and present an algorithm developed to address them. We implement the algorithm using simulated and measured N2O data from two UK arable sites. We show that possible time lags between the measured and simulated data can affect model evaluation and that their consideration in the evaluation process can reduce measures such as the Mean Squared Error (MSE) by 30%. We also analyse the algorithm's results to identify patterns in the estimated lags and to narrow down their possible causes. The statistics used in soil N2O model evaluation have limitations.We use new measures to assess the prediction of measured magnitudes and patterns.We present a method to identify time lags between measured and simulated data.We use an algorithm to show how time lags affect common evaluation statistics.We show how the algorithm can be used to examine possible causes of time lags.