Publications

Laskin, DN; Montaghi, A; McDermid, GJ (2017). An open-source method of constructing cloud-free composites of forest understory temperature using MODIS. REMOTE SENSING LETTERS, 8(2), 165-174.

Abstract
Surface air temperature (T-air) is a critical driver of ecosystem processes and phenological dynamics, and can be estimated in near-real time with satellite remote sensing. However, persistent cloud cover often creates large spatial and temporal gaps in our observation records. Previous studies have successfully mapped T-air; however, the challenges of mapping forest understory temperatures (T-ust) are relatively unexplored. This study describes a methodology for constructing cloud-free composites of T-ust at 250 m spatial resolution. We used generalized linear models to correlate daily average T-ust with ground-surveyed forest structural characteristics and land surface temperature (LST) obtained from the Moderate Resolution Imaging Spectroradiometer (MODIS). Models were applied to all four daily MODIS overpasses and combined in to a single image to maximize cloud-free spatial coverage. Pixel temperatures within the remaining cloud gaps were estimated using a temporal averaging algorithm that incorporated a novel approach for factoring the relative cloudiness between days. Models predicted T-ust to within 1.5 degrees C (R-2 similar to 0.87), with an overall final map accuracy having a mean absolute error of 2.2 degrees C. Maps were produced for two growing seasons using in situ observation data from forested sites throughout the Rocky Mountains of Alberta, Canada. By avoiding complex physical models, our procedure is computationally efficient and capable of processing large volumes of data using open-source programming languages and desktop computers.

DOI:
10.1080/2150704X.2016.1244362

ISSN:
2150-704X