Modeling Environmental
Impacts of Urban Expansion:
A Systematic Method for Dealing with Uncertainties
- Publication date
- Publisher
Abstract
In a rapidly transitioning China, urban land use has
changed dramatically,
both spatially and in terms of magnitude; these changes have significantly
affected the natural environment. This paper reports the development
of an Integrated Environmental Assessment of Urban Land Use Change
(IEA-ULUC) model, which combines cellular automata, scenario analysis,
and stochastic spatial sampling with the goal of exploring urban land-use
change, related environmental impacts, and various uncertainties.
By applying the IEA-ULUC model to a new urban development area in
Dalian in northeastern China, the evolution of spatial patterns from
1986 to 2005 was examined to identify key driving forces affecting
the changing trajectories of local land use. Using these results,
future urban land use in the period 2005β2020 was projected
for four scenarios of economic development and land-use planning regulation.
A stochastic sampling process was implemented to generate industrial
land distributions for each land expansion scenario. Finally, domestic
and industrial water pollution loads to the ocean were estimated,
and the environmental impacts of each scenario are discussed. The
results showed that the four urban expansion scenarios could lead
to considerable differences in environmental responses. In principle,
urban expansion scenarios along the intercity transportation rail/roadways
could have higher negative environmental impacts than cluster-developing
scenarios, while faster economic growth could more intensely aggravate
the environment than in the moderate growth scenarios