Synopses & Reviews
Rapid urbanization started since early 1950s. Among numerous consequences of urbanization are change in landuse and land cover including deforestation, encroachment of prime farmland, and alterations in landscape. These consequences reduce the ecosystem carbon stocks especially in biota and soils, alter the hydrologic cycle by increasing runoff and decreasing soil water storage, change energy budget by altering albedo, and disrupt cycling of carbon and other elements. Such drastic alterations in land use and land cover and biogeochemical cycling of C and other elements affect global climate at local, regional and global scales because of drastic and irreversible changes in the structure, functions and dynamics of ecosystems. The global urban expansion rate is estimated at ~2 million ha (Mha) of additional land to accommodate annual population growth of 70 to 80 millions. Because urban areas consist of build up areas and green areas or free space, judicious management of free space is crucial to moderating the global carbon cycle. Open spaces can be sustainably managed for home lawns, sports grounds, recreational areas, forests, and urban agriculture. Green roofs are also important in influencing the albedo and the carbon and hydrologic cycles. The strategy is to increase the green space areas, enhance their net primary productivity, and increase the overall carbon budget of urban ecosystems. It is also important to link science with policy.
Synopsis
This book examines the carbon sink capacity of urban ecosystems, showing how judicious planning and careful management can offset human emissions using lawn and turf, urban forests, green roofs, parks, recreational and sports facilities and urban agriculture.
Synopsis
Urbanization drastically alters the ecosystems structure and functions, disrupts cycling of C and other elements along with water. It alters the energy balance and influences climate at local, regional and global scales. In 2008, urban population exceeded the rural population. In 2050, 70% of the world population will live in urban centers. The number of megacities (10 million inhabitants) increased from three in 1975 to 19 in 2007, and is projected to be 27 in 2025. Rapid urbanization is altering the ecosystem C budget. Yet, urban ecosystems have a large C sink capacity in soils and biota. Judicious planning and effective management can enhance C pool in urban ecosystems, and off-set some of the anthropogenic emissions. Principal components with regards to C sequestration include home lawns and turfs, urban forests, green roofs, park and recreational/sports facilities and urban agriculture.
Table of Contents
Foreword
PART I. Urban Ecosystems and Climate Change
1. Urban Ecosystems and Climate Change; R. Lal
2. Adapting Urban Land Use in a Time of Climate Change; Optimising Future Land-use Patterns to Decrease Flood Risks; E.van Leeuwen, E. Koomen
3. Comparison of Methods for Estimating Carbon Dioxide Storage by Sacramento's Urban Forest; E. Aguaron, E.G. McPherson
4. Terrestrial Carbon Management In Urban Ecosystems And Water Quality; K. Lorenz, R. Lal
PART II. Urban Forests
5. Carbon Stocks in Urban Forest Remnants: Atlanta and Baltimore as Case Studies; I. D. Yesilonis, R. V. Pouyat
6. Urban Trees for Carbon Sequestration; B.C. Scharenbroch
7. Carbon Storage in Some Urban Forest Soils of Columbus, Ohio, USA; K. Lorenz, R. Lal
PART III.