Can biophysical properties of submersed macrophytes be determined by remote sensing?

Malthus, T J; Ciraolo, G; La Loggia, G

Title: Can biophysical properties of submersed macrophytes be determined by remote sensing?

Conference · Sun Jun 01 00:00:00 EDT 1997

OSTI ID:478165

Malthus, T J ^[1]; Ciraolo, G; La Loggia, G ^[2]

Univ. of Edinburgh (United Kingdom)
Univ. of Palermo, Sicily (Italy); and others

This paper details the development of a computationally efficient Monte Carlo simulation program to model photon transport through submersed plant canopies, with emphasis on Seagrass communities. The model incorporates three components: the transmission of photons through a water column of varying depth and turbidity; the interaction of photons within a submersed plant canopy of varying biomass; and interactions with the bottom substrate. The three components of the model are discussed. Simulations were performed based on measured parameters for Posidonia oceanica and compared to measured subsurface reflectance spectra made over comparable seagrass communities in Sicilian coastal waters. It is shown that the output is realistic. Further simulations are undertaken to investigate the effect of depth and turbidity of the overlying water column. Both sets of results indicate the rapid loss of canopy signal as depth increases and water column phytoplankton concentrations increase. The implications for the development of algorithms for the estimation of submersed canopy biophysical parameters are briefly discussed.

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OSTI ID:: 478165

Report Number(s):: CONF-970319-; CNN: Grant GR9/02233; TRN: 97:002802-0059

Resource Relation:: Conference: 4. thematic international conference on remote sensing for marine and coastal environments: technology and applications, Orlando, FL (United States), 17-19 Mar 1997; Other Information: PBD: 1997; Related Information: Is Part Of Proceedings of the fourth international conference on remote sensing for marine and coastal environments. Technology and applications: Volume I; PB: 741 p.

Country of Publication:: United States

Language:: English

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54 ENVIRONMENTAL SCIENCES
PHOTON TRANSPORT
COMPUTERIZED SIMULATION
CANOPIES
SEAWEEDS
MONTE CARLO METHOD

Title: Can biophysical properties of submersed macrophytes be determined by remote sensing?

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