Wastewater-Webmap
Visulaization tool for wastewater pollution, that maps the sources and destinations of nitrogen created by researchers at UC Santa Barbara
Visulaization tool for wastewater pollution, that maps the sources and destinations of nitrogen created by researchers at UC Santa Barbara
The authors use use a new high-resolution geospatial model to measure and map nitrogen (N) and pathogen—fecal indicator organisms (FIO)—inputs from human sewage for ~135,000 watersheds globally to assess the the potential impacts of human sewage on coastal ecosystems.
The author details four specific threats to human survival (or, at least, quality of survival) that are directly linked to population growth.
Using the Interior Plains, the largest physiographic division of the US as study area, this paper investigates how political fragmentation in local governance can affect land use patterns through a watershed-level analysis of population and employment density changes.
Article deals with the groundwater, agricultural, and population consequences of resource depletion due to rock blasting and stone cutting.
Article presents a preliminary attempt at obtaining an order-of-magnitude estimate of the global burden of disease (GBD) of human infectious diseases associated with swimming/bathing in coastal waters polluted by wastewater, and eating raw or lightly steamed filter-feeding shellfish harvested from such waters. Such diseases will be termed thalassogenic - caused by the sea. (from Abstract)
Author finds that that most of the seasonal water discharge and sediment load changes in the Upper Yangtze were caused by human activities such as deforestation, water use, and construction of reservoirs rather than by decadal climatic variations, and that the changes in some tributaries had significant implications with respect to flooding and water shortages.
Paper discusses the effects of demogrpahic change, including migration, on social resilience, and use of the natural resource base. In the communities studied the authors find that emigration is concurrent with, but not driving, unsustainable agriculture.
The Basins at Risk project attempts to fill several gaps in research on freshwater resources and international conflict and includes: 'a methodology for identifying and classifying events by their intensity of cooperation and conflict; construction of a geographic information system (GIS) of countries and international basins, both current and historical; and the collection or creation of indicator variables (biophysical, socioeconomic, and geopolitical) for testing of hypotheses about factors associated with water conflict."
Difficult, but pressing, challenges demand that policymakers begin looking at water management in the Rï''o Grande basin in new ways. In addition to increasing public awareness of the limits on water supply in the basin, long-held notions about the relationships among growth management, economic development and water supply, as well as about how water should be used in urban and rural areas, will have to be re-examined. (from authorï''s abstract)