Recharge In A Semi Arid Basin Aquifer

Recharge in a Semi-arid Basin Aquifer

Author : Norman G. Van Broekhoven

Publisher :

Page : 0 pages

File Size : 29,4 MB

Release : 2002

Category : Aquifer storage recovery

ISBN :

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Book Description

In arid and semi-arid settings a key hydrological question is: does significant recharge occur and, if so, where, how much, and by what mechanisms? Ryan Flat and Lobo Flat are underlain by a bolson aquifer in Trans-Pecos Texas where the groundwater recharge is generally accepted to be slight. Previous studies suggest that recharge by direct infiltration into the basin fill and typical ephemeral streams in the basins is, at most, a few mm/yr. Evapotranspiration and the soil texture restricts infiltration and recharge. Nor were alluvial fans near the study aquifer usually found to be the sites of recent recharge. Infiltration into these fans appears to be impeded by low permeability layers deposited by sheet flow. Yet recharge occurs in portions of the aquifer underlying Ryan Flat and Lobo Flat. Recent recharge is suggested by groundwater potentiometric mounds centered about VH Canyon to the west and along the front of the Davis Mountains to the east. Groundwater from the mountains and these mounds have a different chemical facies than groundwater down gradient and are hypothesized to be younger members of a continuous chemical evolutionary trend. This infers that the central basin water originated in the mountains and basin margins. Groundwater isotopic data indicate that recharge is not subject to extensive evapotranspiration as occurs in the thick unsaturated zone of the basin fill. This supports the hypothesis that recharge occurs by rapid infiltration at select locations such as mountain fractures, basin margins, or ephemeral streams. Geophysical methods were used to investigate infiltration in the ephemeral stream channel near VH Canyon. Direct observations of rain events, stream flow, and infiltration provide supporting evidence that this is a site of preferential infiltration and recharge. Field mapping of fractures in mountain canyons, analysis of digital elevation models and aerial photographs indicate that the position of the mountain canyons and streams are controlled by fractures. The mechanisms of recharge seem to be a combination of fracture infiltration and flow in the mountains, infiltration into the bottoms of ephemeral streams in mountain canyons that are located along fracture zones, and infiltration of ephemeral streams near the basin margin. Digital elevation models (DEMs) were proven to be useful for identifying topographic linears caused by fractures in the mountains and under the basin fill. DEMs were able to enhance topographic trends that were less evident in aerial photographs having a much higher resolution.



Groundwater Recharge in a Desert Environment

Author : James F. Hogan

Publisher : American Geophysical Union

Page : 310 pages

File Size : 18,49 MB

Release : 2004-01-09

Category : Science

ISBN :

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Book Description

Published by the American Geophysical Union as part of the Water Science and Application Series, Volume 9. Groundwater recharge, the flux of water across the water table, is arguably the most difficult component of the hydrologic cycle to measure. In arid and semiarid regions the problem is exacerbated by extremely small recharge fluxes that are highly variable in space and time. --from the Preface Groundwater Recharge in a Desert Environment: The Southwestern United States speaks to these issues by presenting new interpretations and research after more than two decades of discipline-wide study. Discussions ondeveloping environmental tracers to fingerprint sources and amounts of groundwater at the basin scalethe critical role of vegetation in hydroecological processesnew geophysical methods in quantifying channel rechargeapplying Geographical Information System (GIS) models to land surface processescoupling process-based vadose zone to groundwater modeling, and more make this book a significant resource for hydmlogists, biogeoscientists, and geochemists concerned with water and water-related issues in arid and semiarid regions.



Recharge of Phreatic Aquifers in (Semi-)Arid Areas

Author : Ian Simmers

Publisher : Routledge

Page : 240 pages

File Size : 10,38 MB

Release : 2017-10-19

Category : Technology & Engineering

ISBN : 1351419579

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Book Description

Groundwater use is of fundamental importance to meet the rapidly expanding urban, industrial and agricultural water requirements in (semi) arid areas. Quantifying the current rate of groundwater recharge and define its variability in space and time are thus prerequesites for efficient groundwater resource managment in these regions, where such resources are often the key to economic development. Attention focuses on recharge of phreatic aquifers, often the most readily-available and affordable source of water in (semi) arid regions. These aquifers are also the most susceptible to contamination, with the recharge rate determining their level of vulnerability. (Semi) arid zone recharge can be highly variable, the greater the aridity, the smaller and potentially more variable the natural flux. Its determination is an iterative process, involving progressive data collection and resource evaluation; there is also a need to use more than one technique to verify results. Direct, localised and indirect recharge mechanisms from a spectrum of known sources are addressed in the framework of recharge from precipitation, intermittant flow and permanent water bodies. The approach taken for each of these reflects the nature and current understanding of the processes involved. The volume also reviews current recharge estimation challenges, outlines recent developments and offers guidance for potential solutions.







Groundwater Modelling in Arid and Semi-Arid Areas

Author : Howard S. Wheater

Publisher : Cambridge University Press

Page : pages

File Size : 33,61 MB

Release : 2010-09-09

Category : Science

ISBN : 1139489720

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Book Description

Arid and semi-arid regions face major challenges in the management of scarce freshwater resources under pressures of population, economic development, climate change, pollution and over-abstraction. Groundwater is commonly the most important water resource in these areas. Groundwater models are widely used globally to understand groundwater systems and to guide decisions on management. However, the hydrology of arid and semi-arid areas is very different from that of humid regions, and there is little guidance on the special challenges of groundwater modelling for these areas. This book brings together the experience of internationally leading experts to fill a gap in the scientific and technical literature. It introduces state-of-the-art methods for modelling groundwater resources, illustrated with a wide-ranging set of illustrative examples from around the world. The book is valuable for researchers, practitioners in developed and developing countries, and graduate students in hydrology, hydrogeology, water resources management, environmental engineering and geography.





Seasonality of Groundwater Recharge in the Basin and Range Province, Western North America

Author : Kirstin Lynn Neff

Publisher :

Page : 126 pages

File Size : 42,89 MB

Release : 2015

Category : Climatic changes

ISBN :

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Book Description

Alluvial groundwater systems are an important source of water for communities and biodiverse riparian corridors throughout the arid and semi-arid Basin and Range Geological Province of western North America. These aquifers and their attendant desert streams have been depleted to support a growing population, while projected climate change could lead to more extreme episodes of drought and precipitation in the future. The only source of replenishment to these aquifers is recharge. This dissertation builds upon previous work to characterize and quantify recharge in arid and semi-arid basins by characterizing the intra-annual seasonality of recharge across the Basin and Range Province, and considering how climate change might impact recharge seasonality and volume, as well as fragile riparian corridors that depend on these hydrologic processes. First, the seasonality of recharge in a basin in the sparsely-studied southern extent of the Basin and Range Province is determined using stable water isotopes of seasonal precipitation and groundwater, and geochemical signatures of groundwater and surface water. In northwestern Mexico in the southern reaches of the Basin and Range, recharge is dominated by winter precipitation (69% ± 42%) and occurs primarily in the uplands. Second, isotopically-based estimates of seasonal recharge fractions in basins across the region are compared to identify patterns in recharge seasonality, and used to evaluate a simple water budget-based model for estimating recharge seasonality, the normalized seasonal wetness index (NSWI). Winter precipitation makes up the majority of annual recharge throughout the region, and North American Monsoon (NAM) precipitation has a disproportionately weak impact on recharge. The NSWI does well in estimating recharge seasonality for basins in the northern Basin and Range, but less so in basins that experience NAM precipitation. Third, the seasonal variation in riparian and non-riparian vegetation greenness, represented by the normalized difference vegetation index (NDVI), is characterized in several of the study basins and climatic and hydrologic controls are identified. Temperature was the most significant driver of vegetation greenness, but precipitation and recharge seasonality played a significant role in some basins at some elevations. Major contributions of this work include a better understanding of recharge in a monsoon-dominated basin, the characterization of recharge seasonality at a regional scale, evaluation of an estimation method for recharge seasonality, and an interpretation of the interaction of seasonal hydrologic processes, vegetation dynamics, and climate change.



Isotope Tracers in Catchment Hydrology

Author : C. Kendall

Publisher : Elsevier

Page : 870 pages

File Size : 25,36 MB

Release : 2012-12-02

Category : Science

ISBN : 008092915X

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Book Description

This book represents a new "earth systems" approach to catchments that encompasses the physical and biogeochemical interactions that control the hydrology and biogeochemistry of the system. The text provides a comprehensive treatment of the fundamentals of catchment hydrology, principles of isotope geochemistry, and the isotope variability in the hydrologic cycle -- but the main focus of the book is on case studies in isotope hydrology and isotope geochemistry that explore the applications of isotope techniques for investigating modern environmental problems. Isotope Tracers in Catchment Hydrology is the first synthesis of physical hydrology and isotope geochemistry with catchment focus, and is a valuable reference for professionals and students alike in the fields of hydrology, hydrochemistry, and environmental science. This important interdisciplinary text provides extensive guidelines for the application of isotope techniques for all investigatores facing the challenge of protecting precious water, soil, and ecological resources from the ever-increasing problems associated with population growth and environmental change, including those from urban development and agricultural land uses.