Hydrologic Models And Analysis Of Water Availability In Cuyama Valley California

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Hydrologic Models and Analysis of Water Availability in Cuyama Valley, California

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Author :
Publisher :
ISBN 13 :
Total Pages : 166 pages
Book Rating : 4.:/5 (888 download)

Book Synopsis Hydrologic Models and Analysis of Water Availability in Cuyama Valley, California by :

Download or read book Hydrologic Models and Analysis of Water Availability in Cuyama Valley, California written by and published by . This book was released on 2014 with total page 166 pages. Available in PDF, EPUB and Kindle. Book excerpt: Changes in population, agricultural development practices (including shifts to more water-intensive crops), and climate variability are placing increasingly larger demands on available water resources, particularly groundwater, in the Cuyama Valley, one of the most productive agricultural regions in Santa Barbara County. The goal of this study was to produce a model capable of being accurate at scales relevant to water management decisions that could be considered in the evaluation of the sustainable water supply. The Cuyama Valley Hydrologic Model (CUVHM) was designed to simulate the most important natural and human components of the hydrologic system, including components dependent on variations in climate, thereby providing a reliable assessment of groundwater conditions and processes that can inform water users and help to improve planning for future conditions. Model development included a revision of the conceptual model of the flow system, construction of a precipitation-runoff model using the Basin Characterization Model (BCM), and construction of an integrated hydrologic flow model with MODFLOW-One-Water Hydrologic Flow Model (MF-OWHM). The hydrologic models were calibrated to historical conditions of water and land use and, then, used to assess the use and movement of water throughout the Valley. These tools provide a means to understand the evolution of water use in the Valley, its availability, and the limits of sustainability. The conceptual model identified inflows and outflows that include the movement and use of water in both natural and anthropogenic systems. The groundwater flow system is characterized by a layered geologic sedimentary sequence that--in combination with the effects of groundwater pumping, natural recharge, and the application of irrigation water at the land surface--displays vertical hydraulic-head gradients. Overall, most of the agricultural demand for water in the Cuyama Valley in the initial part of the growing season is supplied by groundwater, which is augmented by precipitation during wet winter and spring seasons. In addition, the amount of groundwater used for irrigation varies from year to year in response to climate variation and can increase dramatically in dry years. Model simulation results, however, also indicated that irrigation may have been less efficient during wet years. Agricultural pumpage is a major component to simulated outflow that is often poorly recorded. Therefore, an integrated, coupled farm-process model is used to estimate historical pumpage for water-balance subregions that evolved with the development of groundwater in the Valley from 1949 through 2010. The integrated hydrologic model includes these water-balance subregions and delineates natural, municipal, and agricultural land use; streamflow networks; and groundwater flow systems. The redefinition of the geohydrologic framework (including the internal architecture of the sedimentary units) and incorporation of these units into the simulation of the regional groundwater flow system indicated that faults have compartmentalized the alluvial deposits into subregions, which have responded differently to regional groundwater flow, locations of recharge, and the effects of development. The Cuyama Valley comprises nine subregions grouped into three regional zones, the Main, Ventucopa Uplands, and Sierra Madre Foothills, which are fault bounded, represent different proportions of the three alluvial aquifers, and have different water quality. The CUVHM uses MF-OWHM to simulate and assess the use and movement of water, including the evolution of land use and related water-balance regions. The model is capable of being accurate at annual to interannual time frames and at subregional to valley-wide spatial scales, which allows for analysis of the groundwater hydrologic budget for the water years 1950-2010, as well as potential assessment of the sustainable use of groundwater. Simulated changes in storage over time showed that significant withdrawals from storage generally occurred not only during drought years (1976-77 and 1988-92) but also during the early stages of industrial agriculture, which was initially dominated by alfalfa production. Since the 1990s, agriculture has shifted to more water-intensive crops. Measured and simulated groundwater levels indicated substantial declines in selected subregions, mining of groundwater that is thousands to tens of thousands of years old, increased groundwater storage depletion, and land subsidence. Most of the recharge occurs in the upland regions of Ventucopa and Sierra Madre Foothills, and the largest fractions of pumpage and storage depletion occur in the Main subregion. The long-term imbalance between inflows and outflows resulted in simulated overdraft (groundwater withdrawals in excess of natural recharge) of the groundwater basin over the 61-year period of 1949-2010. Changes in storage varied considerably from year to year, depending on land use, pumpage, and climate conditions. Climatically driven factors can greatly affect inflows, outflows, and water use by more than a factor of two between wet and dry years. Although precipitation during inter-decadal wet years previously replenished the basin, the water use and storage depletion have lessened the effects of these major recharge events. Simulated and measured water-level altitudes indicated the presence of large areas where depressed water levels have resulted in large desaturated zones in the younger and Older Alluvium layers in the Main-zone subregions. The results of modeled projection of the base-case scenario 61 years into the future indicated that current supply-and-demand are unsustainable and will result in additional groundwater-level declines and related storage depletion and land subsidence. The reduced-supply and reduced-demand projections reduced groundwater storage depletion but may not allow for sustainable agriculture under current demands, agricultural practices, and land use.

Cuyama Valley, California Hydrologic Study

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Author : R. T. Hanson
Publisher :
ISBN 13 :
Total Pages : 4 pages
Book Rating : 4.:/5 (888 download)

Book Synopsis Cuyama Valley, California Hydrologic Study by : R. T. Hanson

Download or read book Cuyama Valley, California Hydrologic Study written by R. T. Hanson and published by . This book was released on 2014 with total page 4 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Integrated Hydrologic Model of Pajaro Valley, Santa Cruz and Monterey Counties, California

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ISBN 13 :
Total Pages : 180 pages
Book Rating : 4.:/5 (891 download)

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Download or read book Integrated Hydrologic Model of Pajaro Valley, Santa Cruz and Monterey Counties, California written by and published by . This book was released on 2014 with total page 180 pages. Available in PDF, EPUB and Kindle. Book excerpt: Increasing population, agricultural development (including shifts to more water-intensive crops), and climate variability are placing increasingly larger demands on available groundwater resources in the Pajaro Valley, one of the most productive agricultural regions in the world. This study provided a refined conceptual model, geohydrologic framework, and integrated hydrologic model of the Pajaro Valley. The goal of this study was to produce a model capable of being accurate at scales relevant to water management decisions that are being considered in the revision and updates to the Basin Management Plan (BMP). The Pajaro Valley Hydrologic Model (PVHM) was designed to reproduce the most important natural and human components of the hydrologic system and related climatic factors, permitting an accurate assessment of groundwater conditions and processes that can inform the new BMP and help to improve planning for long-term sustainability of water resources. Model development included a revision of the conceptual model of the flow system, reevaluation of the previous model transformed into MODFLOW, implementation of the new geohydrologic model and conceptual model, and calibration of the transient hydrologic model. The conceptual model identified inflows and outflows that include the movement and use of water from natural and human components. The groundwater flow system is characterized as a layered geologic sedimentary system through which downward flow is driven by the combined effects of the application of irrigation water at the land surface and the pumping of groundwater from deeper in the system. Overall, groundwater meets most of the agricultural demand in the initial part of the growing season, augmented by precipitation during wet winter and spring seasons. In addition, the amount of groundwater used for irrigation varies from year to year in response to climate variation and can increase dramatically in dry years. Data on agricultural pumpage is a major component of simulated outflow that was previously unavailable; therefore, a coupled farm-process model was used to estimate historical pumpage for Pajaro Valley by subregion (water-balance subregions) as well as the delivery of surface water to and from the Harkins Slough Aquifer-Storage-and-Recovery System (HS-ASR) and related Coastal Distribution System (CDS) since 2002. The new, integrated hydrologic model includes new water-balance subregions; delineation of natural, municipal, and agricultural land use; streamflow networks; regions of tile drains; and, the groundwater flow system. The redefinition of the geohydrologic framework and incorporation into the simulation revealed the importance of the confining units at the base of the alluvial deposits and between the upper and lower Aromas Sand for regional groundwater flow. The PVHM model, using MODFLOW with the Farm Process (MF-FMP2), is capable of being accurate at seasonal to interannual time frames and subregional to valley-wide spatial scales for the assessment of the groundwater hydrologic budget for water years 1964-2009, as well as potential assessment of the BMP components and sustainability analysis of conjunctive use. The model provides a good representation of the regional flow system and the use and movement of water throughout the valley. Simulated changes in storage over time show that, prior to the 1984-92 dry period, significant withdrawals from storage occurred only during drought years. Since about 1993, growers in the Pajaro Valley have shifted to more water intensive crops, such as strawberries, bushberries, and vegetable row crops, as well as making additional rotational plantings, which have increased demand on limited groundwater resources. Simulated groundwater flow indicates that vertical hydraulic gradients between horizontal layers fluctuate and even reverse in several parts of the basin as recharge and pumpage rates change seasonally and annually. The majority of recharge predominantly enters the Alluvial aquifer system, and along with pumpage and the largest fractions of storage depletion, occurs in the inland regions. Coastal inflow as seawater intrusion replaces much of the potential storage depletion in the coastal regions. The simulated long-term imbalance between inflows and outflows indicates overdraft of the groundwater basin averaging about 12,950 acre-feet per year (acre-ft/yr) over the 46-year period of water years (1964-2009). Annual overdraft varies considerably from year to year, depending on land use, pumpage, and climate conditions. Climatically driven factors can affect inflows, outflows, and water use by as much as a factor of two between wet and dry years. Coastal inflows and outflows vary by year and by aquifer; the net coastal inflow, or seawater intrusion, ranges from about 1,000 to more than 6,000 acre-ft/yr. Maps of simulated and measured water-level elevations indicate regions with water levels below sea level in the alluvium and Aromas layers. Ongoing expansion of local hydrologic monitoring networks indicates the importance of these networks to the understanding of changes in groundwater flow, streamflow, and streamflow infiltration. In particular, the monitoring of streamflow, groundwater pumpage, and groundwater levels throughout the valley not only indicates the state of the resources, but also provides valuable information for model calibration and for model-based evaluation of management actions. The HS-ASR was simulated for the years 2002-09, and replaced about about 1,290 acre-ft of coastal pumpage. This was combined with the simulation of additional 6,200 acre-ft of deliveries from supplemental wells, recycled water, and city connection deliveries through the CDS that also supplanted some coastal pumpage. Total simulated deliveries were 7,350 acre-ft of the 7,500 acre-ft of reported deliveries for the period 2002-09. The completed CDS should be capable of delivering about 8.8 million cubic meters (7,150 acre-ft) of water per year to coastal farms within the Pajaro Valley, if all the local supply components were fully available for this purpose. This would represent about 15 percent of the 48,300 acre-ft (59.6 million cubic meters) average agricultural pumpage for the period 2005 to 2009. Combined with the potential capture and reuse of some of the return flows and tile-drain flows, this could represent an almost 70 percent reduction of average overdraft for the entire valley and a large part of the coastal pumpage that induces seawater intrusion.

Review of Hydrologic Information for Adequacy in Developing a Water Management Plan in the Owens Valley, Southern California

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Author : W. F. Hardt
Publisher :
ISBN 13 :
Total Pages : 96 pages
Book Rating : 4.:/5 (2 download)

Book Synopsis Review of Hydrologic Information for Adequacy in Developing a Water Management Plan in the Owens Valley, Southern California by : W. F. Hardt

Download or read book Review of Hydrologic Information for Adequacy in Developing a Water Management Plan in the Owens Valley, Southern California written by W. F. Hardt and published by . This book was released on 1980 with total page 96 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Hydrologic Analysis of Mojave River Basin, California, Using Electric Analog Model

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Author : W. F. Hardt
Publisher :
ISBN 13 :
Total Pages : 110 pages
Book Rating : 4.:/5 (3 download)

Book Synopsis Hydrologic Analysis of Mojave River Basin, California, Using Electric Analog Model by : W. F. Hardt

Download or read book Hydrologic Analysis of Mojave River Basin, California, Using Electric Analog Model written by W. F. Hardt and published by . This book was released on 1971 with total page 110 pages. Available in PDF, EPUB and Kindle. Book excerpt:

The Hydrologic-economic Model of the San Joaquin Valley: Appendixes C: Final report San Joaquin Valley hydrologic-economic modeling study

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ISBN 13 :
Total Pages : 280 pages
Book Rating : 4.3/5 (197 download)

Book Synopsis The Hydrologic-economic Model of the San Joaquin Valley: Appendixes C: Final report San Joaquin Valley hydrologic-economic modeling study by :

Download or read book The Hydrologic-economic Model of the San Joaquin Valley: Appendixes C: Final report San Joaquin Valley hydrologic-economic modeling study written by and published by . This book was released on 1982 with total page 280 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Regional-scale Hydrologic Modeling of Subsurface Water Flow and Reactive Salt Transport in the Western San Joaquin Valley, California

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Author : Gerrit Schoups
Publisher :
ISBN 13 :
Total Pages : 428 pages
Book Rating : 4.:/5 (68 download)

Book Synopsis Regional-scale Hydrologic Modeling of Subsurface Water Flow and Reactive Salt Transport in the Western San Joaquin Valley, California by : Gerrit Schoups

Download or read book Regional-scale Hydrologic Modeling of Subsurface Water Flow and Reactive Salt Transport in the Western San Joaquin Valley, California written by Gerrit Schoups and published by . This book was released on 2004 with total page 428 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Groundwater Overdraft in California's Central Valley

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Author : Heidi Chou
Publisher :
ISBN 13 : 9781267967831
Total Pages : pages
Book Rating : 4.9/5 (678 download)

Book Synopsis Groundwater Overdraft in California's Central Valley by : Heidi Chou

Download or read book Groundwater Overdraft in California's Central Valley written by Heidi Chou and published by . This book was released on 2012 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Updates have been made to the CALVIN hydro-economic optimization model of California's intertied water supply and delivery system. These updates better reflect water demands, groundwater availability, and local water management opportunities. This update project focused on improving groundwater representation in CALVIN, which included changing CALVIN groundwater parameters based on California Department of Water Resources' (DWR) California Central Valley Groundwater-Surface Water Simulation Model (C2VSIM) and the United States Geological Survey (USGS) Central Valley Hydrologic Model (CVHM) model inputs and results. Using these models, a CALVIN model with updated groundwater representation now exists. In updating CALVIN, a detailed comparison between C2VSIM and CVHM was conducted and the results are discussed in this thesis. The updated CALVIN model was used to study the effects of different cases of overdraft on Central Valley groundwater basins. When compared to the updated CALVIN model's case of overdraft, ending overdraft in the entire Central Valley results in less available groundwater and higher economic scarcities in all regions, driving the model to use more surface water to try to meet demands and also to use more artificial recharge to even out variability in surface water availability.

Preliminary Evaluation of the Hydrogeologic System in Owens Valley, California

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Author : Wesley R. Danskin
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ISBN 13 :
Total Pages : 88 pages
Book Rating : 4.3/5 (121 download)

Book Synopsis Preliminary Evaluation of the Hydrogeologic System in Owens Valley, California by : Wesley R. Danskin

Download or read book Preliminary Evaluation of the Hydrogeologic System in Owens Valley, California written by Wesley R. Danskin and published by . This book was released on 1988 with total page 88 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Economic and Hydrologic Models Integration - New Method

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Author : Laura Forni
Publisher :
ISBN 13 : 9781124508580
Total Pages : pages
Book Rating : 4.5/5 (85 download)

Book Synopsis Economic and Hydrologic Models Integration - New Method by : Laura Forni

Download or read book Economic and Hydrologic Models Integration - New Method written by Laura Forni and published by . This book was released on 2010 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: A new method for integrating an economic and hydrological model is presented for California's Sacramento River Basin. An economic model, SWAP (State Wide Agricultural Production) is used in conjunction with a hydrological model, Water Evaluation and Planning system Version 21 (WEAP). SWAP (Howitt, 2001) is a Positive Mathematical Programming (PMP) calibrated optimization model that uses a deductive method of water valuation at the regional level. WEAP (Yates et al. 2005a, b) is a climate driven water resource model which contains monthly regional climate data and simulates hydrological systems and several water uses. A maximum entropy model is used as a disaggregation procedure of land use from SWAP (aggregate) to WEAP (disaggregated) at the regional level. The model linkage method uses the demand priority system implemented in WEAP as a step function to depict regional demand functions from SWAP. Cropping decisions from SWAP are used in a modified version of WEAP, ECONWEAP, with a representation of water demand tranches through the demand priorities. A comparison between WEAP and ECONWEAP addresses the efficiency of the integration. A complete analysis of water demand coverage per region demonstrates the feasibility of the integration between WEAP and SWAP. This analysis shows that ECONWEAP economically allocates water throughout the regions obtaining a hydrological and economically consistent model which presents a set of initial steps towards the integration of an economic and a hydrological model for water analysis in California. A series of improvements and limitations are described in this paper for future study references.

Regional Water Availability and Global Climatic Change

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Author : Peter Henry Gleick
Publisher :
ISBN 13 :
Total Pages : 698 pages
Book Rating : 4.:/5 (29 download)

Book Synopsis Regional Water Availability and Global Climatic Change by : Peter Henry Gleick

Download or read book Regional Water Availability and Global Climatic Change written by Peter Henry Gleick and published by . This book was released on 1986 with total page 698 pages. Available in PDF, EPUB and Kindle. Book excerpt:

The Hydrologic-economic Model of the San Joaquin Valley

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Author :
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ISBN 13 :
Total Pages : 222 pages
Book Rating : 4.3/5 (197 download)

Book Synopsis The Hydrologic-economic Model of the San Joaquin Valley by :

Download or read book The Hydrologic-economic Model of the San Joaquin Valley written by and published by . This book was released on 1982 with total page 222 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Hydrologic Modeling in Semi-arid Agricultural Region

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Author : Sagarika Roy
Publisher :
ISBN 13 :
Total Pages : 262 pages
Book Rating : 4.:/5 (883 download)

Book Synopsis Hydrologic Modeling in Semi-arid Agricultural Region by : Sagarika Roy

Download or read book Hydrologic Modeling in Semi-arid Agricultural Region written by Sagarika Roy and published by . This book was released on 2013 with total page 262 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Simulating the Predevelopment Hydrologic Condition of the San Joaquin Valley, California

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Author : Benjamin Luke Bolger
Publisher :
ISBN 13 :
Total Pages : 85 pages
Book Rating : 4.:/5 (613 download)

Book Synopsis Simulating the Predevelopment Hydrologic Condition of the San Joaquin Valley, California by : Benjamin Luke Bolger

Download or read book Simulating the Predevelopment Hydrologic Condition of the San Joaquin Valley, California written by Benjamin Luke Bolger and published by . This book was released on 2009 with total page 85 pages. Available in PDF, EPUB and Kindle. Book excerpt: The San Joaquin Valley is part of the Great Central Valley of California, a major agricultural centre and food supplier for the United States. This area has significant water management concerns given the very high water demand for an increasing state population and for intense irrigation in a hot, temperate to semi-arid climate where the overall rate of evapotranspiration (ET) is high, and the overall rate of precipitation is low. Irrigation heavily relies upon groundwater and surface water extractions. Through the historical and current concerns of regional water resources reliability, land surface subsidence, water quality issues, and the health of ecosystems, a need for regional-scale water resource management and planning has developed. The physically-based surface-subsurface HydroGeoSphere (HGS) model is used to examine the regional-scale hydrologic budget of a large portion of the San Joaquin Valley. The objective of this investigation is to develop a steady-state groundwater-surface water model of the San Joaquin Valley representative of predevelopment hydrologic conditions. The groundwater-surface water system has undergone drastic changes since the employment of groundwater and surface water extractions for irrigation and mining, and is still responding to past and present stresses. The only certain stable initial condition must therefore be that of the natural system. The model input parameters were constrained by all relevant available hydrologic data. The model was not calibrated to subsurface hydraulic heads or river flows. However, the model does provide a fair match between simulated and actual estimated water table elevations. Historic river flow estimates were not used to calibrate the model, because data consistent with that collected by Hall (1886) and representative of the natural system were not available. For this investigation, water enters through precipitation and the inflow of major rivers only. The subsurface domain is bounded by no-flow boundaries, and groundwater is therefore only able to exit the subsurface through discharge to surface water features or through ET. Surface water is only able to exit the model through discharge via the San Joaquin River and through ET. Average river inflows circa 1878 to 1884 documented by Hall (1886) were applied where the rivers enter into the valley. The spatially variable average rate of precipitation (years 1971 to 2000) from a PRISM dataset was applied to the top of the model. The spatially variable long term average potential ET rates from the California Department of Water Resources (DWR) et al. (1999) were applied to the top of the model. Averaged overland flow parameters and vegetation factors needed to calculate actual ET were specified at the top of the model based on literature values and the 1874 spatial distribution of natural vegetation provided by California State University at Chico et al. (2003). Hydrogeological data including hydraulic conductivities, porosities, specific storage, and unsaturated zone properties are based on literature values from other relevant studies. The resulting steady state model is therefore characterized by historical long term average data assumed to be representative (as close as possible) of the flow system circa 1848. Results indicate that the natural hydrologic setting of the San Joaquin Valley is a complex one. Complex hydrologic processes, including significant groundwater-surface water interaction along the major rivers and within wetland areas formed by flooded surface water, as well as ET and impacted root zone processes were identified in the model domain. Identification and simulation of the complex recharge and discharge relationships in the model domain sheds insight into the hydrologic nature of some historic natural wetlands. Evapotranspiration is a very significant sink of both surface water and groundwater (44.8 % of the water balance input), and has a major impact on hydrologic processes in the root zone. The presence and path of the major rivers in the domain are well defined in the model output and agree well with their actual locations. The model simulates gaining and losing reaches of the major rivers, replicating the historic recharge-discharge relationship documented by others. The general location, formation, and hydrologic processes of some significant wetlands simulated by the model have a fair agreement with historical records. As mentioned above, there is also a fair match between simulated and actual estimated water table elevations. Successful simulation of the complex hydrologic processes and features that characterize the predevelopment hydrologic conditions of the San Joaquin Valley and that resolve the water balance of the natural system underscores the importance and necessity of using an integrated model. This steady state model should serve as a reasonable initial condition for future transient runs that bring the model up to current hydrologic conditions capable of estimating present and future water budgets.

Predicted Water-level and Water-quality Effects of Artificial Recharge in the Upper Coachella Valley, California, Using a Finite-element Digital Model

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Author : Lindsay A. Swain
Publisher :
ISBN 13 :
Total Pages : 68 pages
Book Rating : 4.3/5 (121 download)

Book Synopsis Predicted Water-level and Water-quality Effects of Artificial Recharge in the Upper Coachella Valley, California, Using a Finite-element Digital Model by : Lindsay A. Swain

Download or read book Predicted Water-level and Water-quality Effects of Artificial Recharge in the Upper Coachella Valley, California, Using a Finite-element Digital Model written by Lindsay A. Swain and published by . This book was released on 1972 with total page 68 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Geological Survey Professional Paper

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Author : Geological Survey (U.S.)
Publisher :
ISBN 13 :
Total Pages : 734 pages
Book Rating : 4.F/5 ( download)

Book Synopsis Geological Survey Professional Paper by : Geological Survey (U.S.)

Download or read book Geological Survey Professional Paper written by Geological Survey (U.S.) and published by . This book was released on 1970 with total page 734 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Geological Survey Professional Paper

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Author :
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ISBN 13 :
Total Pages : 730 pages
Book Rating : 4.:/5 (319 download)

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Download or read book Geological Survey Professional Paper written by and published by . This book was released on 1970 with total page 730 pages. Available in PDF, EPUB and Kindle. Book excerpt: