2015
DOI: 10.1016/j.rse.2015.06.017
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Spatio-temporal sensitivity of MODIS land surface temperature anomalies indicates high potential for large-scale land cover change detection in Arctic permafrost landscapes

Abstract: The accelerated warming of the Arctic climate may alter the local and regional surface energy balances, for which changing land surface temperatures (LSTs) are a key indicator. Modeling current and anticipated changes in the surface energy balance requires an understanding of the spatio-temporal interactions between LSTs and land cover, both of which can be monitored globally by measurements from space. This paper investigates the accuracy of the MODIS LST/Emissivity Daily L3 Global 1 km V005 product and its s… Show more

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Cited by 61 publications
(33 citation statements)
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“…The impact of waterbodies on the broad‐scale land surface temperatures has been investigated in different Arctic landscapes using satellite data [ Muster et al , ; Boike et al , ]. These investigations have revealed clear warming trends for regions in which the water coverage increased.…”
Section: Discussionmentioning
confidence: 99%
“…The impact of waterbodies on the broad‐scale land surface temperatures has been investigated in different Arctic landscapes using satellite data [ Muster et al , ; Boike et al , ]. These investigations have revealed clear warming trends for regions in which the water coverage increased.…”
Section: Discussionmentioning
confidence: 99%
“…It has been determined that LST data from the night collection (NT) ( Table 2) have the greatest indicator potential among different types of source data. LST with much lower resolution (derived from the MODIS satellite) was previously used to analyse the vegetation, and its importance as an indicator was proven in the vegetation identification (Nemani and Running, 1997;Roberts et al, 2015), analysis of land cover change detection in the Arctic permafrost landscape (Muster et al, 2015) and analysis of spatial changes in urban areas (Nguyen et al, 2015). So far, the LST has not been used for the identification of Natura 2000 habitats, including mires.…”
Section: Comparison With Other Remote Sensing Methods Of Wetland Idenmentioning
confidence: 99%
“…However, calculating long-term means of the LST compensates for these issues and creates spatially extensive information on the mean summer LST. This is reasoned by the fact that the surface thermal regime is, on average, determined by the physical surface characteristics and not by atmospheric conditions [13]. Accordingly, this allows for characterizing the surface thermal regime of the Arctic MDR by revealing patterns of cold-and hotspots and influencing factors that may serve as a proxy for permafrost distribution and development.…”
Section: Processing Of Lst Using Dense Landsat Time Seriesmentioning
confidence: 99%
“…The environmental change of the Arctic occurs on multiple scales and in remote regions, hence remote sensing provides a unique opportunity to detect and to monitor these landscape dynamics in a continuous manner. Satellite-derived Land Surface Temperature (LST) characterizes the land-atmosphere exchange of energy and depends on a variety of surficial properties, such as vegetation type, soil, and plant moisture, or surface roughness [13]. LST may change with the alteration of the surficial properties, allowing environmental change to be characterized by means of time series remote sensing.…”
Section: Introductionmentioning
confidence: 99%
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