Skip to Main Content
Comparison of cropland and forest surface temperatures across the conterminous United StatesAuthor(s): James D. Wickham; Timothy G. Wade; Kurt H. Riitters
Source: Agricultural and Forest Meteorology 166–167:137–143
Publication Series: Scientific Journal (JRNL)
Station: Southern Research Station
PDF: View PDF (416.97 KB)
DescriptionGlobal climate models (GCM) investigating the effects of land cover on climate have found that replacing extra-tropical forest with cropland promotes cooling. We compared cropland and forest surface temperatures across the continental United States in 16 cells that were approximately 1◦ × 2◦ using 1 km2 MODIS land surface temperature (LST) data and land cover from the 0.0009 km2 National Land Cover Database (NLCD). We found that forest surface temperatures tended to be cooler than cropland surface temperatures. This relationship held for spring, summer, fall, and annually. In winter, cropland surface temperatures were cooler than forest surface temperatures except in the southeastern United States, where forest surface temperatures were also cooler in winter. The difference between cropland and forest surface temperatures was driven by daytime maxima, which tended to be twice as large as differences in nighttime minima. The dominance of daytime maxima was influenced by the degree of continentality. For cells on coastal margins or with a high proportion of inland lakes, differences between cropland and forest nighttime minima tended to be very small. In more continental locations croplands were noticeably cooler at night which often led to insignificant differences between cropland and forest average surface temperatures.
- You may send email to email@example.com to request a hard copy of this publication.
- (Please specify exactly which publication you are requesting and your mailing address.)
CitationWickham, James D.; Wade, Timothy G.; Riitters, Kurt H. 2012. Comparison of cropland and forest surface temperatures across the conterminous United States. Agricultural and Forest Meteorology 166–167:137–143.
KeywordsAlbedo, Climate change, DTR, Land cover, MODIS, NLCD
- Empirical analysis of the influence of forest extent on annual and seasonal surface temperatures for the Continental United States
- Evaluating the relative roles of ecological regions and land-cover composition for guiding establishment of nutrient criteria
- The relationship between land cover and the urban heat island in northeastern Puerto Rico
XML: View XML