@article{fdi:010069357,
  title = {{C}omparing {L}andsat-7 {ETM}+ and {ASTER} {I}mageries to estimate daily evapotranspiration within a {M}editerranean vineyard watershed},
  author = {{M}ontes, {C}. and {J}acob, {F}r{\'e}d{\'e}ric},
  editor = {},
  language = {{ENG}},
  abstract = {{W}e compared the capabilities of {L}andsat-7 {E}nhanced {T}hematic {M}apper {P}lus ({ETM}+) and {A}dvanced {S}pace-borne {T}hermal {E}mission and {R}eflection {R}adiometer ({ASTER}) imageries for mapping daily evapotranspiration ({ET}) within a {M}editerranean vineyard watershed. {W}e used {L}andsat and {ASTER} data simultaneously collected on four dates in 2007 and 2008, along with the simplified surface energy balance index ({S}-{SEBI}) model. {W}e used previously ground-validated good quality {ASTER} estimates as reference, and we analyzed the differences with {L}andsat retrievals in light of the instrumental factors and methodology. {A}lthough {L}andsat and {ASTER} retrievals of {S}-{SEBI} inputs were different, estimates of daily {ET} from the two imageries were similar. {T}his is ascribed to the {S}-{SEBI} spatial differencing in temperature, and opens the path for using historical {L}andsat time series over vineyards.},
  keywords = {{ZONE} {MEDITERRANEENNE} ; {A}dvanced {S}paceborne {T}hermal {E}mission and {R}eflection {R}adiometer ({ASTER}) ; daily evapotranspiration ({ET}) ; {L}andsat-7 {E}nhanced {T}hematic {M}apper {P}lus ; ({ETM} plus ) ; simplified surface energy balance index ({S}-{SEBI}) ; solar and thermal infrared remote sensing ; vineyard landscape ; {FRANCE}},
  booktitle = {},
  journal = {{IEEE} {G}eoscience and {R}emote {S}ensing {L}etters},
  volume = {14},
  numero = {3},
  pages = {459--463},
  ISSN = {1545-598{X}},
  year = {2017},
  DOI = {10.1109/lgrs.2017.2650143},
  URL = {https://www.documentation.ird.fr/hor/fdi:010069357},
}