FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2030244807> ?p ?o ?g. }

• W2030244807 endingPage "17" @default.
• W2030244807 startingPage "1" @default.
• W2030244807 abstract "Numerous studies have noted a strong negative correlation between radiometric surface temperature and spectral vegetation indices such as the NDVI, and have suggested that this relationship might be exploited in strategies to model land surface energy balance from satellites. These studies have been largely empirical in nature and the relationships among remotely sensed data, land surface properties, and land surface energy balance that produce this phenomenon remain unclear. We studied the relationship between radiometric surface temperature and NDVI over a tallgrass prairie in northeastern Kansas. The study site included a mix of landcovers, with fractional vegetation cover and exposed soil backgrounds over much of the site. We observed a persistent negative correlation between radiometric surface temperature and NDVI, but found that the relationship was highly date- and time-specific. In this context, the relationship between surface temperature and NDVI was observed to depend on landcover type, and a significant proportion of the total variance in both NDVI and radiometric surface temperature was explained by stratifying the data by landcover class. More importantly, our results show the relationship between surface temperature and NDVI to have little association with surface energy balance for data sets acquired from aircraft and helicopters on several dates during the growing seasons of 1987 and 1989. Based on results from a simulation model of the soil-canopy-sensor system, we hypothesize the observed covariance between radiometric surface temperature and NDVI to be largely caused by temperature differences between the soil background and vegetation canopy and by variation in fractional vegetation cover. This hypothesis is supported by evidence showing soil moisture to be an important secondary control on radiometric surface temperature due to its effect on soil thermal inertia, rather than as a limiting control on latent heat flux, as might be expected. These findings indicate that invertible surface energy balance models must account for the effects of landcover, soil background temperatures, and soil moisture before thermal infrared imagery can be effectively used to estimate land surface fluxes." @default.
• W2030244807 created "2016-06-24" @default.
• W2030244807 creator A5005834311 @default.
• W2030244807 creator A5087826848 @default.
• W2030244807 date "1994-04-01" @default.
• W2030244807 modified "2023-10-10" @default.
• W2030244807 title "Sources of variation in radiometric surface temperature over a tallgrass prairie" @default.
• W2030244807 cites W1967520691 @default.
• W2030244807 cites W1968711448 @default.
• W2030244807 cites W1978160572 @default.
• W2030244807 cites W1986693848 @default.
• W2030244807 cites W1986802129 @default.
• W2030244807 cites W1993332736 @default.
• W2030244807 cites W2005571987 @default.
• W2030244807 cites W2007421424 @default.
• W2030244807 cites W2011013744 @default.
• W2030244807 cites W2013854246 @default.
• W2030244807 cites W2014698467 @default.
• W2030244807 cites W2025688578 @default.
• W2030244807 cites W2026642685 @default.
• W2030244807 cites W2028847099 @default.
• W2030244807 cites W2032089133 @default.
• W2030244807 cites W2034134215 @default.
• W2030244807 cites W2035147677 @default.
• W2030244807 cites W2037058369 @default.
• W2030244807 cites W2044892699 @default.
• W2030244807 cites W2050872617 @default.
• W2030244807 cites W2059764445 @default.
• W2030244807 cites W2060253412 @default.
• W2030244807 cites W2071776755 @default.
• W2030244807 cites W2072990439 @default.
• W2030244807 cites W2073707411 @default.
• W2030244807 cites W2073861093 @default.
• W2030244807 cites W2074533238 @default.
• W2030244807 cites W2081403405 @default.
• W2030244807 cites W2092722122 @default.
• W2030244807 cites W2105748500 @default.
• W2030244807 cites W2110614570 @default.
• W2030244807 cites W2117861086 @default.
• W2030244807 cites W2122270402 @default.
• W2030244807 cites W2123481070 @default.
• W2030244807 cites W2126152453 @default.
• W2030244807 cites W2146812640 @default.
• W2030244807 cites W2147425241 @default.
• W2030244807 cites W2162420611 @default.
• W2030244807 cites W2175210520 @default.
• W2030244807 cites W2179738695 @default.
• W2030244807 cites W3093803166 @default.
• W2030244807 cites W4235027737 @default.
• W2030244807 cites W4243953928 @default.
• W2030244807 doi "https://doi.org/10.1016/0034-4257(94)90109-0" @default.
• W2030244807 hasPublicationYear "1994" @default.
• W2030244807 type Work @default.
• W2030244807 sameAs 2030244807 @default.
• W2030244807 citedByCount "149" @default.
• W2030244807 countsByYear W20302448072012 @default.
• W2030244807 countsByYear W20302448072013 @default.
• W2030244807 countsByYear W20302448072014 @default.
• W2030244807 countsByYear W20302448072015 @default.
• W2030244807 countsByYear W20302448072016 @default.
• W2030244807 countsByYear W20302448072017 @default.
• W2030244807 countsByYear W20302448072018 @default.
• W2030244807 countsByYear W20302448072019 @default.
• W2030244807 countsByYear W20302448072020 @default.
• W2030244807 countsByYear W20302448072021 @default.
• W2030244807 countsByYear W20302448072022 @default.
• W2030244807 crossrefType "journal-article" @default.
• W2030244807 hasAuthorship W2030244807A5005834311 @default.
• W2030244807 hasAuthorship W2030244807A5087826848 @default.
• W2030244807 hasConcept C101000010 @default.
• W2030244807 hasConcept C127313418 @default.
• W2030244807 hasConcept C142724271 @default.
• W2030244807 hasConcept C1549246 @default.
• W2030244807 hasConcept C166957645 @default.
• W2030244807 hasConcept C170187044 @default.
• W2030244807 hasConcept C18903297 @default.
• W2030244807 hasConcept C201401522 @default.
• W2030244807 hasConcept C205649164 @default.
• W2030244807 hasConcept C25989453 @default.
• W2030244807 hasConcept C2776133958 @default.
• W2030244807 hasConcept C2780648208 @default.
• W2030244807 hasConcept C39432304 @default.
• W2030244807 hasConcept C4792198 @default.
• W2030244807 hasConcept C62649853 @default.
• W2030244807 hasConcept C71924100 @default.
• W2030244807 hasConcept C86803240 @default.
• W2030244807 hasConcept C91586092 @default.
• W2030244807 hasConceptScore W2030244807C101000010 @default.
• W2030244807 hasConceptScore W2030244807C127313418 @default.
• W2030244807 hasConceptScore W2030244807C142724271 @default.
• W2030244807 hasConceptScore W2030244807C1549246 @default.
• W2030244807 hasConceptScore W2030244807C166957645 @default.
• W2030244807 hasConceptScore W2030244807C170187044 @default.
• W2030244807 hasConceptScore W2030244807C18903297 @default.
• W2030244807 hasConceptScore W2030244807C201401522 @default.
• W2030244807 hasConceptScore W2030244807C205649164 @default.
• W2030244807 hasConceptScore W2030244807C25989453 @default.
• W2030244807 hasConceptScore W2030244807C2776133958 @default.

• next