Population growth,urban sprawl and landscape integrity of Beijing City

The detailed landscape pattern of the urban area within the 6th ring road in Beijing City was identified using airborne remote sensing data acquired between 1997 and 2002. The landscape indices at landscape level were computed using Fragstats 3.3, and changes in land use/cover types in Beijing from 1997 to 2002 were examined. The results show that urban built area (UBA) and farmland changed greatly within the 6th ring road, and that farmland had been replaced by UBA. The number of patches increased by 106.6%, mean patch area decreased by 51.6%, the splitting index increased by 94.3%, and the landscape diversity index increased by 17.8%. The landscape pattern had become more fragmented and diversified in these 5 years. The main driving forces for landscape change were the increasing demand for land for construction due to the growing population, unreasonable urban growth, and improvements in housing standards. The landscape pattern change in Beijing led by rapid urbanisation has negatively influenced urban ecosystem health and has caused several environmental problems. We provide suggestions for improving urban planning and sustainable development in Beijing City.     

A GIS-based moving window analysis of landscape pattern in the Beijing metropolitan area,China

Quantifying landscape pattern and its change is essential for monitoring and assessment of ecological consequences of urbanization. Using the GIS-based land-use data for 2002, we combined moving window analysis along an urban-rural gradient and around the urban centre with landscape metrics to quantify the spatial pattern of urbanization in Beijing. The results of moving window analysis along the urban-rural gradient indicated that, for class-level metrics, the spatial pattern of urbanization could be quantified using landscape metrics, different land-use types exhibited distinctive spatial signatures, and, for landscape-level metrics, the increase in urbanization in the metropolitan Beijing region has resulted in dramatic increases in patch density (PD), edge density (ED), and patch and landscape shape complexity, and sharp decreases in the largest and mean patch size (MPS), agriculture land-use type, and landscape connectivity. The results of moving window analysis around the urban centre showed that the direction of urbanization could be quantified using the class-level metrics, and landscape-level metrics indicated similar results to gradient analysis. In general, moving window analysis showed that the increasingly urbanized landscape became compositionally more diverse, geometrically more complex, and ecologically more fragmented.     

Beijing environmental sustainable development from 1983 to 2003

Ever since the Earth Summit was launched at Rio de Janeiro, research has been done on the problems of developing indices for the health of the environment and for its sustainable development. However, this research has concentrated more on national and regional levels than on local levels, more on spatial comparisons than on time series analysis, more on short-term than on long-time analysis, more on qualitative than on quantitative analysis. In contrast, therefore, this paper presents an indicator system procedure for measuring Beijing (the capital of China) environmental sustainability based on the Pressure-State-Response (PSR) philosophy, evaluates the trend of Beijing environmental sustainability index (BESI) quantitatively for 21 years, from 1983 to 2003, and suggests three great opportunities in the near future that are expected to provide some dependable information to policy makers. The results suggest that Beijing is still far from environmental sustainable development. The total trend was better in the 1980s than in the 1990s, and has improved slightly since 2000.