Mapping the biomass of Bornean tropical rain forest from remotely sensed data
Mapping the biomass of Bornean tropical rain forest from remotely sensed data
The biomass and biomass dynamics of forests are major uncertainties in our understanding of tropical environments. Remote sensing is often the only practical means of acquiring information on forest biomass but has not always been used successfully. Here the conventional approaches to the estimation of forest biomass from remotely sensed data were evaluated relative to techniques based on the application of artificial neural networks. Together these approaches were used to estimate and map the biomass of tropical forests in north-eastern Borneo from Landsat TM data. The neural networks were found to be particularly suited to the application. A basic multi-layer perceptron network, for example, provided estimates of biomass that were strongly correlated with those measured in the field (r = 0.80). Moreover, these estimates were more strongly correlated with biomass than those derived from 230 conventional vegetation indices, including the widely used normalized difference vegetation index (NDVI).
p.379
Foody, G.M.
06e50027-603d-4a5b-88f5-af2bb6235a37
Cutler, M.E.
14c202a6-3da4-4e08-a0aa-19eca7aa8489
McMorrow, J.
a87ee126-8943-400c-99f3-5fd4d72a5cba
Pelz, D.
9a9160dc-38cb-49a1-b05a-111c3334a80e
Tangki, M.
e03d757a-14e4-4dfd-a9f8-ba92a8207dae
Boyd, D.S.
cc3e74df-9587-4328-a591-f67144fffa82
2001
Foody, G.M.
06e50027-603d-4a5b-88f5-af2bb6235a37
Cutler, M.E.
14c202a6-3da4-4e08-a0aa-19eca7aa8489
McMorrow, J.
a87ee126-8943-400c-99f3-5fd4d72a5cba
Pelz, D.
9a9160dc-38cb-49a1-b05a-111c3334a80e
Tangki, M.
e03d757a-14e4-4dfd-a9f8-ba92a8207dae
Boyd, D.S.
cc3e74df-9587-4328-a591-f67144fffa82
Foody, G.M., Cutler, M.E., McMorrow, J., Pelz, D., Tangki, M. and Boyd, D.S.
(2001)
Mapping the biomass of Bornean tropical rain forest from remotely sensed data.
Global Ecology & Biogeography, 10 (4), .
(doi:10.1046/j.1466-822X.2001.00248.x).
Abstract
The biomass and biomass dynamics of forests are major uncertainties in our understanding of tropical environments. Remote sensing is often the only practical means of acquiring information on forest biomass but has not always been used successfully. Here the conventional approaches to the estimation of forest biomass from remotely sensed data were evaluated relative to techniques based on the application of artificial neural networks. Together these approaches were used to estimate and map the biomass of tropical forests in north-eastern Borneo from Landsat TM data. The neural networks were found to be particularly suited to the application. A basic multi-layer perceptron network, for example, provided estimates of biomass that were strongly correlated with those measured in the field (r = 0.80). Moreover, these estimates were more strongly correlated with biomass than those derived from 230 conventional vegetation indices, including the widely used normalized difference vegetation index (NDVI).
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Published date: 2001
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Local EPrints ID: 16145
URI: http://eprints.soton.ac.uk/id/eprint/16145
PURE UUID: b71ab575-30f0-4d9b-83b9-37885de71f89
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Date deposited: 23 Jun 2005
Last modified: 15 Mar 2024 05:46
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Author:
G.M. Foody
Author:
M.E. Cutler
Author:
J. McMorrow
Author:
D. Pelz
Author:
M. Tangki
Author:
D.S. Boyd
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