Northern Agriculture Region Integrated Management Strategy Of this divertible surface water resource only 15% remains fresh, 10% is of marginal quality and 75% is brackish or saline. http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126
WS 3(4) 001-010 be met with less fresh water. The paper is illustrated with water reuse case studies in agriculture, urban areas, industry and water resource http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126
Pubblicazioni 1994 Agric. Water Manag., 26, 8191. SISTO, L., LOSAVIO, N., MASTRORILLI, M., RANA, G., 1994. Water resource optimization the case of olive http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126
Dr. Grattan - Publications sodic drainage water A resource for Agric. Water Manag 45(1)5571. http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126
Irrigation Water Quality Irrigation Water Quality DeHaan, D.; George, J. A.; Grabs, G. PapAm-Soc-Agric-Eng. St. Joseph, Mich. American Society of Agricultural http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126
Attitudes Toward Water Resources II waterquality; environmental- legislation; resource-conservation; Sully, G. Int-j-pest-manag v.39, p Niemeyer, S . http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126
SWMRU Publication List Switchgrasses Forage yield, forage quality, and water use efficiency. J. Range Manag. Vol. for reducing water application. Appl. Eng. http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126
Citations Clearcut TupeloCypress Wetland. Water Resource Bull. Vol. 27(1)111-117 Environ Manag. Vol. 18(5)743-758. of Agric., Forest Svc. http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126
Nat'l Academies Press, Ground Water Vulnerability Assessment Ground Water Vulnerability Assessment Predicting Relative Appendix A contains a listing of sources of digital resource databases. http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126
Calder.PDF UNITED NATIONS Rome, Italy1 Abstract This paper aims to provoke discussion on land use and water resource impacts, particularly in relation to http://tmsyn.wc.ask.com/r?t=an&s=hb&uid=24312681243126812&sid=343126
Dr. Grattan - Publications Salinesodic drainage water A resource for forage production? agric. water manag 45(1)55-71. 53. Poss, JA, SR Grattan, DL Suarez, CM Grieve and MC http://lawr.ucdavis.edu/faculty/grattan/p-complete.htm
Extractions: Grattan, S.R., E.V. Maas, and G. Ogata. 1981. Foliar uptake and injury from saline aerosol. J. Environ. Qual. 10:406-409. Maas, E.V., S.R. Grattan, and G. Ogata. 1982. Foliar salt accumulation and injury in crops sprinkled with saline water. Irrig. Sci. 3:157-168. Grieve, C.M. and S.R. Grattan. 1983. Rapid assay for the determination of water soluble quaternary ammonium compounds. Plant and Soil: 70:303-307. Grattan, S.R. and E.V. Maas. 1984. Interactive effects of salinity and substrate phosphate on soybean. Agron. J. 76:668-676. Grattan, S.R, and C.M. Grieve. 1985. Betaine status in wheat in relation to nitrogen stress and transient salinity stress. Plant and Soil 85:3-9. Grattan, S.R. and E.V. Maas. 1985. Root control of leaf phosphorus and chlorine accumulation in soybean under salinity stress. Agron. J. 77:890-895. Grattan, S.R., R.L. Snyder, and F.E. Robinson. 1988. Yield threshold soil water depletion. In D.A. Goldhamer and R.L. Snyder, (eds) Irrigation Scheduling: A guide for efficient on-farm water management. UC Publication 21454. Oster, J.D. and S.R. Grattan. 1988. Salt effects on plants and soils.
650 Addresses Fengrong Zhang, Dept. of Land Res. and manag. Beijing agric. Abraham Gorfu Wolde Mariam, Min. of water resource, baroakobo river basin, http://144.16.93.203/energy/HC270799/LM/SUSLUP/ActualAddressList.html
Soil Science - UserLogin water resource Pub., Fort Collins, CO. Context Link Field test of a soil water balance simulation model. agric. water manag. 58223240. http://www.soilsci.com/pt/re/soilsci/fulltext.00010694-200411000-00001.htm
Soil Science - UserLogin The Markov chain theory has been used widely to analyze water resource systems and Analyzing fieldmeasured soil-water properties. agric. water manag. http://www.soilsci.com/pt/re/soilsci/fulltext.00010694-199709000-00009.htm
The Institute Of Subtropical Plants And Olive Tree Of Chania The main goals in the Irrigation and water Resources involve agric. water manag. 28 113120. 3. CHARTZOULAKIS K., THERIOS I., MISOPOLINOS N. AND http://www.nagref-cha.gr/endocs/irrigation.html
Extractions: Objectives Laboratory equipment The main goals in the Irrigation and Water Resources involve: Studies on water requirements for the main crops, olive trees, citrus, avocados, kiwi and greenhouse vegetables. Evaluation and improvement of the new irrigation methods (drip, microsprinklers, etc.). Study of the soil - plant - water relationships and the plant defense mechanisms to drought. Development of the methodology for the application of consultative irrigation in practice. The evaluation and improvement of the technical and hydraulic characteristics of equipment and the materials of irrigation. Study on the use of low quality waters (saline water, reclaimed wastewaters) for irrigation and plant tolerarance to salinity. Water resources management in agriculture. Surveys on monitoring and combating desertification.
Sources For Environment Abstracts agricultural water management, agric water manag water Resources management, water Resour manag. water Resources Research, water Resour Res http://www.lexisnexis.com/academic/3cis/cist/eanet/source.htm
Extractions: Sources for Environment Abstracts Over 800 scientific journals and other periodicals are reviewed regularly to select material for inclusion in Environment Abstracts. In addition, Environment Abstracts systematically identifies and indexes difficult-to-locate conference papers and proceedings. Reports and monographs from public and private organizations are also covered as warranted. The following list shows the titles of all journals that have been covered by Environment Abstracts. Both the full title of the journal and the abbreviation used in Environment Abstracts are shown. Please consult the abstracts to determine coverage dates for each journal. A B C D ... Z A Accounts of Chemical Research Acc Chem Res Acid Enviro [includes Acid Magazine] Acid News Acid Precipitation Bulletin Acid Precip Bull Acid Rain Information Publications Acid Rain Inf Publ Acta Polytechnica Scandinavica Acustica Adirondac Advances in Cryogenic Engineering Adv Cryogenic Eng Adv Environ Technol Manag Advances in Water Resources Adv Water Resour AERO Sun Times African Environment Afr Environ African Wildlife Afr Wildl Agribusiness AFRC News Agricultural and Forest Meteorology Agric For Meteorol Agricultural Engineering Agric Eng Agricultural Research Agric Res Agricultural Systems Agric Syst Agricultural Water Management Agric Water Manag Agric Ecosyst Environ Agroborealis Agroforestry Systems Agrofor Syst Air Transport World Air Transp World Alces Alternatives Altern: Perspec Soc Technol Environ Altern: Soc Transform Human Gov Ambio AMC Journal [previously Am Mining Cong J]
Annual Reviews - Error UN Food agric. Organ. 1995. Irrigation in Africa in figures. water Rep. 7. Rome, Italy Int. water manag. Inst. SWIM Pap. 5. Colombo, Sri Lanka http://arjournals.annualreviews.org/doi/abs/10.1146/annurev.energy.28.040202.122
Extractions: An Error Occurred Setting Your User Cookie A cookie is a small amount of information that a web site copies onto your hard drive. Annual Reviews Online uses cookies to improve performance by remembering that you are logged in when you go from page to page. If the cookie cannot be set correctly, then Annual Reviews cannot determine whether you are logged in and a new session will be created for each page you visit. This slows the system down. Therefore, you must accept the Annual Reviews cookie to use the system. What Gets Stored in a Cookie? Annual Reviews Online only stores a session ID in the cookie, no other information is captured. In general, only the information that you provide, or the choices you make while visiting a web site, can be stored in a cookie. For example, the site cannot determine your email name unless you choose to type it. Allowing a web site to create a cookie does not give that or any other site access to the rest of your computer, and only the site that created the cookie can read it. Please read our for more information about data collected on this site.
Citations In agricultural Resources and Environmental Indicators. agric. Handbook No. Cumulative Impacts on water Quality Functions of Wetlands. Envir manag. http://www.water.ncsu.edu/watershedss/citation.html
Extractions: References Aadland, L.P. 1993. Stream habitat types: their fish assemblages and relationship to flow. North American Journal of Fisheries Management. 13:790-806. Adamus, P. and Brandt, K. 1990. Impacts on Quality of Inland Wetlands of the United States. EPA/600/3-90/073. Environmental Protection Agency: Corvallis, OR. American Public Health Association (APHA). 1992. Standard Methods of Water and Wastewater. 18th ed. American Public Health Association, American Water Works Association, Water Environment Federation publication. APHA, Washington D.C. American Water Works Association (AWWA). 1990. Water Quality and Treatment: A Handbook of Community Water Supplies. 4th ed. McGraw-Hill. Aspelin, Arnold L. 1994. Pesticide Industry Sales and Usage: 1992 and 1993 Market Estimates. U.S. EPA 33-K-94-001. U.S. Gov. Print. Office, Washington, D.C. Aust, W.M., R. Lea, J.D. Gregory. 1991. Removal of Floodwater Sediments by a Clearcut Tupelo-Cypress Wetland. Water Resource Bull. Vol. 27(1):111-117. Available through EPA Wetlands Hotline. 1-800-832-7828.
UNCCD - United Nations Convention To Combat Desertification agric. water manag. 14 252263. 2. JV Giráldez, P. González and A. Laguna. 1989. Alternative water resources, supported by the Foundation Ramón Areces, http://www.unccd.int/cop/cst/experts/individualDetails.php?id=306
Economics Of Irrigation Management Historically, irrigation water has been a rather inexpensive and unlimited for evaluating the economic efficiency of irrigation agric. Wat manag 12. http://www.italocorotondo.it/tequila/module5/irrig_sched/econ_irrig_manag.htm
Extractions: Irrigation scheduling Economics of irrigation management Historically, irrigation water has been a rather inexpensive and unlimited commodity to farmers; gradually, it is becoming ever more costly and limited. Cases of a cost exceeding 0.3 euro/m for pressurized water are not uncommon in the Mediterranean area as severe limitations in supplies become more and more frequent Mjelde et al. (1987) maintained that the development of irrigation strategies lags behind technological developments, however several important conceptual tools are available to decision-makers, derived from economic theory and decision-making supports. The economic theory elaborated the principles illustrated in the figure below, where: P unit output price C unit cost of water Y output W water volume P profit with the following assumptions: Y = f (W) P = P x Y - C x W = P x f (W) - C x W The condition for total output maximization is that the first derivative of f (W), namely f'(W) be equal to . For profit maximization the condition is Pf ' (W) - C = then Pf ' (W) = C and f 'W = C / P The curve Y = f (W), when plotted against the C/P line is useful in giving indications on profit and water efficiency maximisation; the points X
