SIMETAW# - a Model for Agricultural Water Demand Planning
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  • 作者:Noemi Mancosu ; Donatella Spano ; Morteza Orang…
  • 关键词:Soil water balance ; Crop coefficient ; Crop water requirement ; Evapotranspiration of applied water ; Yield reduction ; Adaptation strategies
  • 刊名:Water Resources Management
  • 出版年:2016
  • 出版时间:January 2016
  • 年:2016
  • 卷:30
  • 期:2
  • 页码:541-557
  • 全文大小:667 KB
  • 参考文献:Ainsworth EA, Long SP (2005) What have we learned from 15 years of free-air CO2 enrichment (FACE)? A meta-analysis of the responses of photosynthesis, canopy properties and plant production to rising CO2. New Phytol 165:351–372CrossRef
    Allen RG, Pereira LS, Raes D, Smith M (1998) Crop evapotranspiration. Guidelines for computing crop water requirements. Irrigation and Drainage Paper 56. FAO, Rome, Italy
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    Allen RG, Walter IA, Elliott RL, Howell TA, Itenfisu D, Jensen ME, Snyder RL (2005b) The ASCE standardized reference evapotranspiration equation. American Society of Civil Engeneers, Reston
    Allen RG, Pruitt WO, Wright JL, Howell TA, Ventura F, Snyder RL, Itenfisu D, Steduto P, Berengena J, Yrisarry JB, Smith M, Pereira LS, Raes D, Perrier A, Alves I, Walter I, Elliott RA (2006) Recommendation on standardized surface resistance for hourly calculation of reference ETo by the FAO56 Penman–Monteith method. Agric Water Manag 81(1–2):1–22CrossRef
    Bryla DR, Dickson E, Shenk R, Johnson RS, Crisosto CH, Trout TJ (2005) Influence of irrigation method and scheduling on patterns of soil and tree water status and its relation to yield and fruit quality in peach. Hortscience 40(7):2118–2124
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    Guerra E, Ventura F, Spano D, Snyder RL (2014) Correcting midseason crop coefficients for climate. J Irrig Drain Eng. doi:10.​1061/​(ASCE)IR.​1943-4774.​0000839
    Intergovernmental Panel on Climate Change (IPCC) (2013) In: Stocker TF, Qin D, Plattner GK, Tignor M, Allen SK, Boschung J, Nauels A, Xia Y, Bex V, Midgley PM (eds) Climate change 2013: the physical science basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge
    Jiménez Cisneros BE, Ok T, Arnell NW, Benito G, Cogley JG, Döll P, Jiang T, Mwakalila SS (2014) Freshwater resources. In: Field CB, Barros VR, Dokken DJ, Mach KJ, Mastrandrea MD, Bilir TE, Chatterjee M, Ebi KL, Estrada YO, Genova RC, Girma B, Kissel ES, Levy AN, MacCracken S, Mastrandrea PR, White LL (eds) Climate Change 2014: Impacts, Adaptation, and Vulnerability. Part A: Global and Sectoral Aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, pp. 229–269
    Johnson RS, Ayars J, Hsiao T (2002) Modeling young peach tree evapotranspiration. Acta Horticult 584:107–113CrossRef
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    Moratiel R, Nicolosi P, Spano D, Snyder RL (2013) Correcting soil water balance calculations for dew, fog, and light rainfall. Irrig Sci 31(3):423–429CrossRef
    Orang M, Snyder RL, Geng S, Hart Q, Sarreshteh S, Eching S (2013) California simulation of evapotranspiration of applied water and agricultural energy use in California. J Integr Agr 12(8):1371–1388CrossRef
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    Snyder RL, Geng S, Orang MN, Sarreshteh S (2012a) Calculation and simulation of evapotranspiration of applied water. J Integr Agr 11(3):489–501CrossRef
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    Ventura F, Snyder RL, Bali KM (2006) Estimating evaporation from bare soil using soil moisture data. J Irrig Drain E-Asce 132(2):153–158CrossRef
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  • 作者单位:Noemi Mancosu (1) (2)
    Donatella Spano (1) (2)
    Morteza Orang (3)
    Sara Sarreshteh (4)
    Richard L. Snyder (4)

    1. Department of Science for Nature and Environmental Resources (DipNeT), University of Sassari, Via De Nicola 9, 07100, Sassari, Italy
    2. IAFES Division, Euro-Mediterranean Center on Climate Change (CMCC), Sassari, Italy
    3. California Department of Water Resources, P.O. Box 942836, Sacramento, CA, 94236-0001, USA
    4. Department of Land, Air and Water Resources, University of California, One Shields Ave., Davis, CA, 95616, USA
  • 刊物类别:Earth and Environmental Science
  • 刊物主题:Earth sciences
    Hydrogeology
    Geotechnical Engineering
    Meteorology and Climatology
    Civil Engineering
    Environment
  • 出版者:Springer Netherlands
  • ISSN:1573-1650
文摘
A successful water management scheme for irrigated crops requires an integrated approach, which accounts for water, soil, and crop management. SIMETAW# is a user friendly soil water balance model that assesses crop water use, irrigation requirements, and generates hypothetical irrigation schedules for a wide range of crops experiencing full or deficit irrigation. SIMETAW# calculates reference evapotranspiration (ETo), and it computes potential crop evapotranspiration (ETc), and the evapotranspiration of applied water (ETaw), which is the amount of irrigation water needed to match losses from the effective soil root zone due to ETc that are not replaced by precipitation and other sources. Using input information on crop and soil characteristics and the distribution uniformity of infiltrated irrigation applications in full or deficit conditions, the model estimates the mean depth of infiltrated water (IW) into each quarter of the field. The impact of deficit irrigation on the actual crop evapotranspiration (ETa) is computed separately for each of the four quarters of the cropped field. SIMETAW# simulation adjusts ETo estimates for projected future CO2 concentration, and hence the model can assess climate change impacts on future irrigation demand allowing the user to propose adaptation strategies that potentially lead to a more sustainable water use. This paper discusses the SIMETAW# model and evaluates its performance on estimating ETc, ETa, and ETaw for three case studies. Keywords Soil water balance Crop coefficient Crop water requirement Evapotranspiration of applied water Yield reduction Adaptation strategies

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