The Atlas of Health Inequalities in Japan


Book Description

This new health atlas of Japan presents a series of maps about the health of the contemporary Japanese population, i.e. detailed maps of health indicators in small areas using cartograms. This is the first comprehensive small-area based health atlas about contemporary Japan using vital statistics from 1995-2014. Each map is supplemented with concise explanations written by leading epidemiologists and health geographers in Japan. The book employs various cutting-edge methods in spatial epidemiology, Bayesian spatial smoothing for the reliable mapping of mortality indices, advanced cartographic transformations using the concept of aerial cartograms, and summary statistics of socioeconomic health inequalities. The atlas highlights geographical aspects of social gradients in health by comparing mortality maps with distribution of deprivation index during the recent long-lasting economic stagnation period of Japan known as the lost decades. This health atlas will be a useful resource for international comparisons between Japan and other advanced countries in terms of health and related socioeconomic disparities between regions. It will be of interest to public health practitioners, administrators, researchers and students working on health geography and public health.




The Geology of Washington and Beyond


Book Description

The 20 chapters of The Geology of Washington and Beyond�an outgrowth of a geologic symposium�present the substantial advances in recent research on the geologic history of Washington State. The 32 contributors used new conceptual developments such as sequence stratigraphy, identification and matching of terranes, and neotechtonics, as well as breakthroughs in technology such as lidar mapping, paleomagnetism, and new methods of radiometric dating, to examine the fascinating geology of Washington State and beyond. Also included is geologic mapping in areas previously known only by reconnaissance. This book will influence resource management decisions, as well as disaster and land-use planning in the region. The introductory chapters make the book accessible for undergraduate courses in geology and to the general public.




The Designer's Atlas of Sustainability


Book Description

Designing for sustainability is an innovation shaping both the design industry and design education today.Yet architects, product designers, and other key professionals in this new field have so far lacked a resource that addresses their sensibilities and concerns. The Designer's Atlas of Sustainability now explores the basic principles, concepts, and practice of sustainable design in a visually sophisticated and engaging style. The book tackles not only the ecological aspects of sustainable design-designers' choice of materials and manufacturing processes have a tremendous impact on the natural world-but also the economic and cultural elements involved. The Atlas is neither a how-to manual nor collection of recipes for sustainable design, but a compendium of fresh approaches to sustainability that designers can incorporate into daily thinking and practice. Illuminating many facets of this exciting field, the book offers ideas on how to harmonize human and natural systems, and then explores practical options for making the business of design more supportive of long-term sustainability. An examination of the ethical dimensions of sustainable development in our public and private lives is the theme present throughout. Like other kinds of atlases, The Designer's Atlas of Sustainability illustrates its subject, but it goes far beyond its visual appeal, stimulating design solutions for "development that cultivates environmental and social conditions that will support human well-being indefinitely."










Vital Signs 2005-2006


Book Description

'VITAL SIGNS does for the environment what stock market indicators do for the City. But it says more about the future of our world than the FTSE ever can ' BBC Wildlife Magazine 'VITAL SIGNS is a sharply focused snapshot of the world Ideal for dipping into it makes fascinating reading ' New Agriculturalist 'The scope of the book is vast ... the presentation is clean and seamless ' Humanitarian Affairs Review 'An enlightening insight into the relationship between the environment and human activity ' Green Futures VITAL SIGNS 20052006 provides up-to-the-minute information on global warming, population growth, military spending, HIV/AIDS, economic equity, the trade in drugs and a whole range of other environmental, developmental, social, political and economic issues. By distilling 25 'vital signs' of our times from thousands of governmental, industrial and scientific sources, this book allows reader s to track key indicators that show our progress in issues that too often escape the attention of the news media, world leader s and economic experts . Each theme is presented in both text and two colour graphics, providing a thorough, well-documented and very accessible over view.




Urban Stormwater Management in the United States


Book Description

The rapid conversion of land to urban and suburban areas has profoundly altered how water flows during and following storm events, putting higher volumes of water and more pollutants into the nation's rivers, lakes, and estuaries. These changes have degraded water quality and habitat in virtually every urban stream system. The Clean Water Act regulatory framework for addressing sewage and industrial wastes is not well suited to the more difficult problem of stormwater discharges. This book calls for an entirely new permitting structure that would put authority and accountability for stormwater discharges at the municipal level. A number of additional actions, such as conserving natural areas, reducing hard surface cover (e.g., roads and parking lots), and retrofitting urban areas with features that hold and treat stormwater, are recommended.










Channel-conveyance capacity, channel change, and sediment transport in the lower Puyallup, White, and Carbon Rivers, western Washington


Book Description

Draining the volcanic, glaciated terrain of Mount Rainier, Washington, the Puyallup, White, and Carbon Rivers convey copious volumes of water and sediment down to Commencement Bay in Puget Sound. Recent flooding in the lowland river system has renewed interest in understanding sediment transport and its effects on flow conveyance throughout the lower drainage basin. Bathymetric and topographic data for 156 cross sections were surveyed in the lower Puyallup River system by the U.S. Geological Survey (USGS) and were compared with similar datasets collected in 1984. Regions of significant aggradation were measured along the Puyallup and White Rivers. Between 1984 and 2009, aggradation totals as measured by changes in average channel elevation were as much as 7.5, 6.5, and 2 feet on the Puyallup, White, and Carbon Rivers, respectively. These aggrading river sections correlated with decreasing slopes in riverbeds where the rivers exit relatively confined sections in the upper drainage and enter the relatively unconstricted valleys of the low-gradient Puget Lowland. Measured grain-size distributions from each riverbed showed a progressive fining downstream. Analysis of stage-discharge relations at streamflow-gaging stations along rivers draining Mount Rainier demonstrated the dynamic nature of channel morphology on river courses influenced by glaciated, volcanic terrain. The greatest rates of aggradation since the 1980s were in the Nisqually River near National (5.0 inches per year) and the White River near Auburn (1.8 inches per year). Less pronounced aggradation was measured on the Puyallup River and the White River just downstream of Mud Mountain Dam. The largest measured rate of incision was measured in the Cowlitz River at Packwood (5.0 inches per year). Channel-conveyance capacity estimated using a one-dimensional hydraulic model decreased in some river reaches since 1984. The reach exhibiting the largest decrease (about 20–50 percent) in channel-conveyance capacity was the White River between R Street Bridge and the Lake Tapps return, a reach affected by recent flooding. Conveyance capacity also decreased in sections of the Puyallup River. Conveyance capacity was mostly unchanged along other study reaches. Bedload transport was simulated throughout the entire river network and consistent with other observations and analyses, the hydraulic model showed that the upper Puyallup and White Rivers tended to accumulate sediment. Accuracy of the bedload-transport modeling, however, was limited due to a scarcity of sediment-transport data sets from the Puyallup system, mantling of sand over cobbles in the lower Puyallup and White Rivers, and overall uncertainty in modeling sediment transport in gravel-bedded rivers. Consequently, the output results from the model were treated as more qualitative in value, useful in comparing geomorphic trends within different river reaches, but not accurate in producing precise predictions of mass of sediment moved or deposited. The hydraulic model and the bedload-transport component were useful for analyzing proposed river-management options, if surveyed cross sections adequately represented the river-management site and proposed management options. The hydraulic model showed that setback levees would provide greater flood protection than gravel-bar scalping after the initial project construction and for some time thereafter, although the model was not accurate enough to quantify the length of time of the flood protection. The greatest hydraulic benefit from setback levees would be a substantial increase in the effective channel-conveyance area. By widening the distance between levees, the new floodplain would accommodate larger increases in discharge with relatively small incremental increases in stage. Model simulation results indicate that the hydraulic benefit from a setback levee also would be long-lived and would effectively compensate for increased deposition within the setback reach from increased channel-conveyance capacity. In contrast, the benefit from gravel-bar scalping would be limited by the volume of material that could be removed and the underlying hydraulics in the river section that would be mostly unaffected by scalping. Finally, the study formulated an explanation of the flooding that affected Pacific, Washington, in January 2009. Reduction in channel-conveyance capacity of about 25 percent at the White River near Auburn streamflow-gaging station between November 2008 and January 2009 was caused by rapid accumulation of coarse-grained sediment just downstream of the gage, continuing an ongoing trend of aggradation that has been documented repeatedly.