International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B2. Istanbul 2004
meaningful indicator for the spatial pattern analysis in this
study.
REFERENCES
Benson, B.J. and MacKenzie, M.D., 1995, Effect of sensor
spatial resolution on landscape structure parameters. Landscape
Ecology, 10(2), 113-120.
Chen, X., 2002, Using remote sensing and GIS to analyze land
cover change and its impacts on regional sustainable
development. /nternational Journal of Remote Sensing, 23(1),
107-124.
Farina, A.,1998, Principle and Methods in Landscape Ecology.
London: Chapman & Hall.
Frohn, R.C., 1998, Remote Sensing for Landscape Ecologv:
New Metric Indicators for Monitoring, Modelling, and
Assessment of Ecosystems. Boca Raton: Lewis Publishers.
Larsson, H., 2002, Analysis of variations in land cover between
1972 and 1990, Kassala Province, Eastern Sudan, using Landsat
MSS data. International Journal of Remote Sensing, 23(2), 325-
333.
Liu, H. and Zhou, Q., 2004. Accuracy analysis of remote
sensing change detection by rule-based rationality evaluation
with post-classification comparison, International Journal of
Remote Sensing, 25(5), 1037-1050.
Luque, S.S., 2000, Evaluating temporal changes using Multi-
Spectral Scanner and Thematic Mapper data on the landscape of
a natural reserve: the New Jersey Pine Barrens, a case study.
International Journal of Remote Sensing, 21(13-14), 2589-2611.
“MacLeod, R.D. and Congalton, R.G., 1998, A quantitative
comparison of change-detection algorithms for monitoring
eelgrass from remotely sensed data. Photogrammetric
Engineering & Remote Sensing, 64 (3), 207-216.
Maldonado, F.D., dos Santos, JR. and de Carvalho, V.C., 2002.
Landuse dynamics in the semi-arid region of Brazil (Quixaba,
PE): characterization by principal component analysis (PCA ).
International Journal of Remote Sensing, 23(23), 5005-5013.
Masck, J.G., Lindsay, F.E. and Goward, S.N., 2000. Dynamics
of urban growth in the Washington DC metropolitan area,
1973-1996, from Landsat observations. International Journal
of Remote Sensing, 21(18), 3473-3486.
Mertens, B. and Lambin, E.F., 2000, Land-cover-change
trajectories in southern Cameroon. Annals of the Association of
American Geographers, 90(3), 467-494.
Miller, A.B., Bryant, E.S. and Birnie, RW, 1998, An analysis
of land cover changes in the Northern Forest of New England
using multitemporal Landsat MSS data. International Journal
of Remote Sensing, 19(19), 245-265.
Pereira, V.F.G., Congalton, R.G. and Zarin, D.J.. 2002. Spatial
and temporal analysis of a tidal floodplain landscape-Amapá,
Brazil-using geographic information systems and remote
sensing. Photogrammetric Engineering and Remote Sensing,
68(5), 463-472.
702
Petit, C., Scudder, T. and Lambin, E.. 2001. Quantifying
processes of land-cover change by remote sensing: resettlement
and rapid land-cover changes in south-eastern Zambia.
International Journal of Remote Sensing, 22(17). 3435-3456.
Prakash, A. and Gupta, R.P., 1998, Land-use mapping and
change detection in a coal mining area-a case study in the Jbaria
coalfield, India. International Journal of Remote Sensing, 19(3),
391-410.
Roy, P.S. and Tomar, S., 2001. Landscape cover dynamics
pattern in Meghalaya. International Journal of Remote Sensing,
22(18), 3813-3825.
Saura, S. and Martínez-Millán, J., 2001, Sensitivity of
landscape pattern metrics to map spatial — extent.
Photogrammetric Engineering & Remote Sensing, 67(9), 1027-
1036.
Singh, A. 1989, Digital change detection techniques using
remotely-sensed data. /nternational Journal of Remote Sensing,
10(6), 989-1003.
Ustin, S.L. and Xiao, Q.F., 2001, Mapping successional boreal
forests in interior central Alaska. International Journal of
Remote Sensing, 22(6), 1779-1797.
Wickham, J.D. and Riitters, K.H., 1995, Sensitivity of
landscape metrics to pixel size. International Journal of Remote
Sensing, 16(18), 3585-3594.
Yang, X. and Lo, C.P., 2002, Using a time series of satellite
imagery to detect land use and land cover changes in the
Atlanta, Georgia metropolitan area. International Journal of
Remote Sensing, 23(9), 1775-1798.
Zhang Q., Wang, J., Peng, X., Gong P. and Shi. P., 2002, Urban
built-up land change detection with road density and spectral
information from multi-temporal Landsat TM data,
International Journal of Remote Sensing, 23(15), 3057-3078.
Zhou. Q., Li, B. and Zhou, C., 2004. Studying spatio-temporal
pattern of landuse change in arid environment of China, In
Advances in Spatial Analysis and Decision Making, Li, Z.,
Zhou, Q. and Kainz, W. (eds.), Swets & Zeitlinger, Lisse: 189-
200.
ACKNOWLEDGEMENTS
This study is supported by the Earmarked Research Grant
(Project No. HKBU 2086/01 P), Research Grants Council. Hong
Kong. The authors would like to thank staff of institute of
Geography, Chinese Academy of Sciences, particularly Mr
Alishir Kurban, for their support for the fieldwork.
KEY Wi
ABSTR;
Managin
been pri
from the
dimensio
this pape
objects.
are great
Data col!
that are |
because
objects (:
to which
usually c
highly ir
to eacl
bathyme
are very
informat
for two-(
based or
objects
oceanogi
attribute:
measure
A three-
built wit
tracks. <
horizont
integrati.
because
dimensi
‘reduced
integrate
data stru
O’Conai
shortcon
consider
means tl
The mai
handling
(Davis,
model b
Gold an
mention
natural ly
can be
unconne
