Darren Kidd scite author profile

Assessment of local spatial climatic variability is important in the planning of planting locations for horticultural crops. This study investigated three regression-based calibration methods (i.e. traditional versus two optimized methods) to relate short-term 12-month data series from 170 temperature loggers and 4 weather station sites with data series from nearby long-term Australian Bureau of Meteorology climate stations. The techniques trialled to interpolate climatic temperature variables, such as frost risk, growing degree days (GDDs) and chill hours, were regression kriging (RK), regression trees (RTs) and random forests (RFs). All three calibration methods produced accurate results, with the RK-based calibration method delivering the most accurate validation measures: coefficients of determination (R 2 ) of 0.92, 0.97 and 0.95 and root-mean-square errors of 1.30, 0.80 and 1.31°C, for daily minimum, daily maximum and hourly temperatures, respectively. Compared with the traditional method of calibration using direct linear regression between short-term and long-term stations, the RK-based calibration method improved R 2 and reduced root-mean-square error (RMSE) by at least 5 % and 0.47°C for daily minimum temperature, 1 % and 0.23°C for daily maximum temperature and 3 % and 0.33°C for hourly temperature. Spatial modelling indicated insignificant differences between the interpolation methods, with the RK technique tending to be the slightly better method due to the high degree of spatial autocorrelation between logger sites.

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Digital soil assessment of agricultural suitability, versatility and capital in Tasmania, Australia

Kidd

Webb

Malone

et al. 2015

Geoderma Regional

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Darren Kidd

Digital mapping of peatlands – A critical review

Operational sampling challenges to digital soil mapping in Tasmania, Australia

Local-scale spatial modelling for interpolating climatic temperature variables to predict agricultural plant suitability

Digital soil assessment of agricultural suitability, versatility and capital in Tasmania, Australia

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