The Platte River Hydrologic Observatory (PRIVHO)

The Platte River Hydrologic Observatory (PRIVHO), located within the Platte River Basin, of the U.S. central Great Plains, affords excellent interdisciplinary and multi-disciplinary research opportunities for scientists to examine the impacts of scaling, to investigate forcing feedbacks and coupling of various interconnected hydrological, geological, climatological and biological systems, and to test the applicability and limits of prediction in keeping with all five of CUAHSI's priority science criteria; linking hydrologic and biogeochemical cycles, sustainability of water resources, hydrologic and ecosystem interactions, hydrologic extremes, and fate and transport of contaminants. In addition, PRIVHO is uniquely positioned to investigate many human dimension questions such as those related to interstate and intrastate conflicts over water use, evolution of water policy and law in the wake of advancing science, societal and economic changes that are driven by water use, availability and management, and human impacts on climate and land use changes. The Platte River traverses several important environmental gradients, including temperature and precipitation-to-evaporation ratio, is underlain by the High Plains Aquifer under much of its reach, crosses a number of terrestrial ecoregions, and in central Nebraska, serves as a vital link in the Central Flyway, providing habitat for 300 species of migratory birds and many threatened or endangered species. The Platte River flows through metropolitan, urban and agricultural settings and is impacted by both point and non-point pollution. The Platte River is one of the most over-appropriated rivers in the country with 15 major dams, hundreds of small reservoirs, and thousands of irrigation wells. The river provides municipal and industrial water supplies for about 3.5 million people, irrigation water for millions of acres of farmland, and generates millions of dollars of hydroelectric power. PRIVHO will allow researchers to address science questions related to; the impacts of drought, managed agriculture, and water resource development and use on riparian ecosystem health, hyporheic flow dynamics and contaminant attenuation within braided streams, groundwater-surface water interaction, and the influences of climate modes such as ENSO, NAO, PDO, etc. on river hydrological dynamics. Infrastructure is in place within PRIVHO to collect core hydrologic data including precipitation, stream discharge, groundwater levels, precipitation, surface and groundwater quality, soil moisture, remotely sensed water quality, vegetative cover data, soil moisture and vegetative wetness data, and information related to migratory waterfowl, terrestrial animals and aquatic organisms.