TY - JOUR
T1 - Remotely sensed indicators of habitat heterogeneity
T2 - Use of synthetic aperture radar in mapping vegetation structure and bird habitat
AU - Imhoff, Marc L.
AU - Sisk, Thomas D.
AU - Milne, Anthony
AU - Morgan, Garth
AU - Orr, Tony
N1 - Funding Information:
We thank A. Johnson, M. Fi~dayson, and K Brenan from the Office of the Supervising Scientist (OSS), \]abiru, Northern Territory. OSS provided critical logistical support, transportation, and lodging throughout the field study, and K. Brenan, in particular, provided valuable consultation on bird and plant identifications. J. Russell-Smith and others" at Kakadu National Park provided assistance, permits, and aerial photography of the study area. P. Rich, University of Kansas, carried out the analysis of hemispherical canopy photography. Funding fi)r the project w(~s provided by NASA Grant NAG 5 2393, and a&litional support came from the Center for Conservation Biology at Stanfi~rd University, USA, the National Biological Service (f the U.S. Depart-merit of the Interior, and the Australian Defense Science and Technology Organization, I@~rmation Technology Division.
PY - 1997/6
Y1 - 1997/6
N2 - An integrated remote sensing/field ecology project linked the use of synthetic aperture radar (SAR) and aerial photography to studies of landscape spatial heterogeneity and bird community ecology. P-, L-, and C-band SAR data, collected over a section of Kakadu National Park in Australia's Northern Territory during the Joint NASA / Australia DC-8 data acquisition campaign, were analyzed in light of field data integrating vegetation structure and floristics with bird abundances across a heterogeneous study site. Results indicate that SAR data are able to discern structural differences relevant to bird habitat quality within floristically homogeneous stands, while multispectral sensors successfully identified floristic differences among habitat types. Simplifying indices of bird diversity showed ambiguous changes across the site; however, the abundances of individual species were observed to change significantly across both floristic and structural gradients. These results suggest that efforts to map bird diversity should focus on species-specific habitat relationships and that some measure of vegetation structure is needed to understand bird habitat. The approach employed here advances the use of SAR data in the three-dimensional mapping of animal habitats from remotely sensed data, and extends current capabilities for mapping and modeling large-scale patterns in the distribution of biological diversity.
AB - An integrated remote sensing/field ecology project linked the use of synthetic aperture radar (SAR) and aerial photography to studies of landscape spatial heterogeneity and bird community ecology. P-, L-, and C-band SAR data, collected over a section of Kakadu National Park in Australia's Northern Territory during the Joint NASA / Australia DC-8 data acquisition campaign, were analyzed in light of field data integrating vegetation structure and floristics with bird abundances across a heterogeneous study site. Results indicate that SAR data are able to discern structural differences relevant to bird habitat quality within floristically homogeneous stands, while multispectral sensors successfully identified floristic differences among habitat types. Simplifying indices of bird diversity showed ambiguous changes across the site; however, the abundances of individual species were observed to change significantly across both floristic and structural gradients. These results suggest that efforts to map bird diversity should focus on species-specific habitat relationships and that some measure of vegetation structure is needed to understand bird habitat. The approach employed here advances the use of SAR data in the three-dimensional mapping of animal habitats from remotely sensed data, and extends current capabilities for mapping and modeling large-scale patterns in the distribution of biological diversity.
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U2 - 10.1016/s0034-4257(96)00116-2
DO - 10.1016/s0034-4257(96)00116-2
M3 - Article
AN - SCOPUS:0031171027
SN - 0034-4257
VL - 60
SP - 217
EP - 227
JO - Remote Sensing of Environment
JF - Remote Sensing of Environment
IS - 3
ER -