@incollection{fdi:010065674,
  title = {{T}emporal stability of mangrove multispectral signatures at fine scales : stability of mangrove multispectral signatures},
  author = {{V}iennois, {G}. and {P}roisy, {C}hristophe and {R}ahmania, {R}. and {A}ndayani, {A}. and {S}ubki, {B}. and {S}uhardjono, ... and {F}eret, {J}.{B}. and {P}rosperi, {J}. and {S}idik, {F}. and {W}idagti, {N}. and {G}ermain, {O}. and {G}aspar, {P}.},
  editor = {},
  language = {{ENG}},
  abstract = {{S}ustainable management of mangroves depends on our ability to maintain ecosystem functions. {I}t requires a careful monitoring of several forest characteristics such as the species composition. {V}ery high resolution multispectral satellite images provide pivotal information at the individual tree scale that may support identification and mapping of species of mangrove trees emerging at the canopy level. {I}n this study, we showed that fine scale spectral responses of four common {A}sian mangroves species were and remained distinct over one decade and, independently of both the satellite sensors and the angular configurations of image acquisitions. {W}e began an important radiative transfer modeling work to interpretation such promising observations.},
  keywords = {{BALI}},
  booktitle = {{A}nalysis of multitemporal remote sensing images ({M}ulti-{T}emp)},
  numero = {},
  pages = {4},
  address = {{N}ew {Y}ork},
  publisher = {{IEEE}},
  series = {},
  year = {2015},
  DOI = {10.1109/{M}ulti-{T}emp.2015.7245803},
  ISBN = {978-1-4673-7119-3},
  URL = {https://www.documentation.ird.fr/hor/fdi:010065674},
}