Modeling seasonal variations of long-term soil CO 2 emissions in an orchard plantation in a semiarid area, SE Turkey

Emissions of soil CO under different management systems have a significant effect on the carbon balance in the atmosphere. Soil CO emissions were measured from an apricot orchard at two different locations: under the crown of trees (CO -UC) and between tree rows (CO -BR). For comparison, one other measurement was performed on bare soil (CO -BS) located next to the orchard field. Analytical data were obtained weekly during 8 years from April 2008 to December 2016. Various environmental parameters such as air temperature, soil temperature at different depths, soil moisture, rainfall, and relative humidity were used for modeling and estimating the long-term seasonal variations in soil CO emissions using two different methods: generalized linear model (GLM) and artificial neural network (ANN). Before modeling, data were randomly split into two parts, one for calibration and the second for validation, with a varying number of samples in each part. Performances of the models were compared and evaluated using means absolute of estimations (MAE), square root of mean of prediction (RMSEP), and coefficient of determination (R ) values. CO -UC, CO -BR, and CO -BS values ranged from 11 to 3985, from 9 to 2365, and from 8 to 1722 kg ha week , respectively. Soil CO emissions were significantly correlated (p