In the process of data analysis, there are usually a number of candidate statistical methods (models) that can be used, and different methods (models) generally have different performances under different situations. In this thesis, we focus on model selection in curve and surface fitting. We develop a general rule to fairly assess among candidate curve or surface fitting methods regardless of whether the fitting procedures are complex and whether the corresponding estimates are linear, nonlinear, or even discontinuous. Based on the concept of generalized degrees of freedom (GDF) (Ye 1998), we propose an improved Cp method to select among a class of selection criteria in spline smoothing. In addition, a general methodology for geostatistical model selection is proposed by further generalizing GDF to spatial prediction. The proposed method not only can be used to select among various spatial prediction methods, but also can be applied to the variable selection problem in spatial regression. The validities of the proposed model selection methods for curve and surface fitting are justified both numerically and theoretically.