Global ETD Search

1	Turfgrass Consumptive Use: Mohave County, Arizona Brown, Paul 02 1900 (has links) 5 pp. / This Extension Bulletin is similar to others previously completed for Tucson, Phoenix, Flagstaff, Prescott and Payson. The bulletin provides information on turfgrass consumptive use for the River Cities (Bullhead, Lake Havasu, etc.) and Kingman areas. Consumptive use is provided for each month of the year in units of inches/month and inches/day for three grass production systems: high quality overseeded turf, acceptable quality overseeded turf and acceptable quality turf with no overseeding. The bulletin concludes with a discussion on how to use incorporate this into turf irrigation management programs. Irrigation Evapotranspiration Irrigation Management Turfgrass Consumptive Use
2	Turfgrass Consumptive Use: Payson, Arizona Brown, Paul, Jones, Chris 11 1900 (has links) 3 pp. / This publication is meant to be a short fact sheet that provides estimates of turfgrass consumptive use (of water) in the Payson area. The publication provides a brief description of the procedures used to generate the CU estimates, then presents the data both as a CU table and CU curve. The publication should prove useful for irrigation management and water resource planning. Turf Water Use Evapotranspiration Consumptive Use
3	Turfgrass Consumptive Use Values for the Tucson Area Brown, Paul 04 1900 (has links) 3 pp. turf irrigation Tucson evapotranspiration irrigation consumptive use
4	Turfgrass Consumptive Use: Payson, Arizona Brown, Paul W., Jones, Chris 10 1900 (has links) Revised; Originally Published: 2005 / 4 pp. Turf Water Use Evapotranspiration Consumptive Use
5	Turfgrass Consumptive Use: Prescott, Arizona Brown, Paul, Schalau, Jeff 11 1900 (has links) 3 pp. / Similar Fact Sheets for Payson & Flagstaff / This publication is intended as a brief Fact Sheet that provides estimates of turfgrass consumptive use for Prescott. Consumptive Use Turf Water Use Irrigation Management Evapotranspiration
6	Turfgrass Consumptive Use: Flagstaff, Arizona Brown, Paul, Albrecht, Wade 11 1900 (has links) 3 pp. / Similar titles for Payson and Prescott / This publication is intended to be a brief Fact Sheet that provides estimates of turf consumptive use for the Flagstaff area. The publication should find utility in both irrigation management and water resource management and planning. Consumptive Use Turf Water Use Irrigation Management Evapotranspiration
7	Turfgrass Consumptive Use: Flagstaff, Arizona Brown, Paul W. 11 1900 (has links) Revised; Originally Published: 2005 / 3 pp. Consumptive Use Turf Water Use Irrigation Management Evapotranspiration
8	Turfgrass Consumptive Use: Prescott, Arizona Brown, Paul W., Schalau, Jeff 02 1900 (has links) Revised; Originally Published: 2005 / 3 pp. Consumptive Use Turf Water Use Irrigation Management Evapotranspiration
9	The Use of Subsurface Temperature Fluctuations to Estimate Plant Water Use Clutter, Melissa, Clutter, Melissa January 2016 (has links) Irrigation agriculture is the largest use of water (~80%) in the United States ('Irrigation and Water Use', 2016) A combination of irrigation and precipitation infiltrates through the Earth's subsurface and represents the primary inputs to an agricultural field's groundwater system. This water propagates down from the surface, with some of it recharging the underlying groundwater storage as return flow. The difference between the amount of irrigation water applied and the return flow to the aquifer, represents the consumptive use of the system. The alterations in the quality and distribution of water from groundwater pumping and irrigation places greater emphasis on the need to understand the connection between agricultural consumption and subsurface groundwater flux. Temperature fluctuations in the Earth's shallow subsurface are mainly governed by spatial and temporal variations in temperature at the ground surface (Hatch et al., 2006). These temperature signals at depth are primarily controlled by advection, dispersion, and thermal conduction. It has been shown for streambeds that when temperature propagates through the subsurface, it is a nonlinear function of fluid velocity, the frequency of the surface temperature variations, and the sediment and fluid thermal properties (Stallman, 1965). This information has been useful for understanding fluxes for saturated conditions such as in stream systems, but has not yet been applied to understand consumptive use in unsaturated conditions such as in agricultural systems. Temperature propagation in unsaturated conditions is different than saturated conditions due to changes in soil and thermal properties. Previous models have had difficulty estimating groundwater fluxes for some unsaturated conditions. This study experiments with the possibility of using a combination of MATLAB and HYDRUS 1D to infer unsaturated groundwater fluxes, saturated hydraulic conductivity, and saturated water content. One application of this type of flux estimation could be the inference of root water uptake and the consumptive use of an agricultural system. The method is designed to calculate root water uptake under steady-state conditions; and therefore might have limitations for quantifying consumptive use in field applications.It is beneficial to research the consumptive use in agricultural systems in order to gain understanding of the effects of irrigation on the total flux in groundwater storage. Other applications of consumptive use include: site specific farm efficiency and crop use parameters, nonpoint source pollution to estimate nutrient fluxes, irrigation efficiency, soil salinization, waste isolation, and slope stability. Consumptive Use Evapotranspiration Flux Temperature Water Use Soil, Water & Environmental Science Agriculture
10	Consumptive Use of Water Studies in the Ashley and Ferron Creek Areas of Utah Fisher, Elden E. 01 May 1950 (has links) The inadequacy of water and power supplies in Utah for agriculture, for industry, for domestic and community consumption has retarded the State's economic growth. Shortages of water and hyroelectric power are the principle impediments to the full realization of other potentials of Utah, that is, the full use of its arable lands, the wide and diversified use of its industrial raw materials, and the unrestricted development of its communities. The problem of securing additional sources of water and power has resolved itself into one of major concern. The objective of this study was to determine unit values of consuptive use of water by the major crops (alfalfa, small grains, and pasture) in the Ashley and Ferron Creek Areas of Utah. The consumptive use by the individual field crops was based on measurements of the depletion of moisture in the soil. Evapo-transpiration tank experiments were conducted in Ashley Valley throught the growing season and the volumes of water consumed were measured directly. Yield data were obtained from field samples and comparisons between yield and consumptive use were observed. Consumptive Use Water Studies Ashley Creek Ferron Creek Water Shortage Power Shortage Civil and Environmental Engineering Engineering

Search results