R. Aspinall et D. Pearson, Integrated geographical assessment of environmental condition in water catchments: Linking landscape ecology, environmental modelling and GIS, J ENVIR MGM, 59(4), 2000, pp. 299-319
Water catchments are functional geographical areas that integrate a variety
of environmental processes and human impacts on landscapes. Integrated ass
essments recognize this interdependence of resources and components making
up water catchments and are vital for viable long-term natural resource man
agement. This paper couples eco-hydrological modelling with remote sensing,
landscape ecological analyses and GIS to develop a series of indicators of
water catchment health as part of a geographical audit of environmental he
alth and change at regional scales.
Indicators are simple measures that represent key components of the system
and have meaning beyond the attributes that are directly measured. A suite
of indicators, many capable of measurement from remote sensing data sources
, are described that represent state (condition) and trend (changes across
space and time) and focus on the physical, biological and chemical properti
es of water catchments, as well as their ecological function (stability, re
silience, and sensitivity). Models implemented in GIS allow indicators to b
e combined within water catchments by setting them within a specific geogra
phic context and integrating the descriptions of environmental variability
across the geographic area. This spatial integration is necessary to place
individual, site-specific indicators within a broader geographic context; t
he models allow this context to reflect the ecological and hydrological fun
ctioning of the water catchment. Scale and other geographic effects associa
ted with integration are managed using an approach that partitions the land
scape into a hierarchical series of nested functional units.
Methods from image analysis, landscape ecological analysis, spatial interpo
lation, and numerical process modelling are integrated within a GIS (ArcVie
w) to provide a single environment within which to conduct the study. Resul
ts are described from the catchment of the upper Yellowstone River in the R
ocky Mountains, USA, an area of about 14 000 km(2). The river source is in
Yellowstone National Park. The catchment is subject to a number of land-use
issues notably those associated with changing patterns and types of land u
se including forestry, irrigated agriculture, range management, wildfire, m
ining, summer and winter recreation, and residential development, which are
associated with a number of land-use conflicts and impacts. (C) 2000 Acade
mic Press.