- احمدی ک، قلیزاده ح، عبادزاده ح ر، حاتمی ف، حسینپور ر، عبدشاه ه، رضایی م م و فضلی استبرق م (1396) آمارنامه کشاورزی سال 1395. جلد سوم: محصولات باغبانی. انتشارات وزارت جهاد کشاورزی، تهران، 231 صفحه
- علی اصغرزاد ن (1379) بررسی پراکنش و تراکم جمعیت قارچهای میکوریز آربوسکولار در خاکهای شور دشت تبریز و تعیین اثرات تلقیح آنها در بهبود تحمل پیاز و جو به تنش شوری، رساله دکتری، دانشکده کشاورزی، دانشگاه تهران، ایران.
- Andrews PK, Chalmers DJ and Moremong M (1992). Canopy-air temperature differences and soil water as predictors of water stress of apple trees grown in a humid, temperate climate. American Society of Horticultural Science. 117(3): 453–458.
- Bates LM and Hall AE (1981) Stomatal closure with soil water depletion not associated with changes in bulk leaf water status. Oecologia. 50: 62–65.
- Bayoumi TY, El-Hendawy S, Yousef MSH and El Gawad MA (2014) Application of infrared thermal imagery for monitoring salt tolerant of wheat genotypes. American Science. 10(12): 227–234.
- Berni JAJ, Zarco-Tejada PJ, Sepulcre-Cantóa G, Fereresa E and Villalobos F (2009) Mapping canopy conductance and CWSI in olive orchards using high resolution thermal remote sensing imagery. Remote Sensing of Environment, 113(11): 2380–2388.
- Charrera M, Parasi GA and Monet R (1998) Rootstock influence on the performance of the peach variety "Catherine". Acta Horticulturae. 465: 573–577.
- Dhillon R, Rojo F, Roach J, Han C and Upadhyaya S (2014) Comparison of hand-held sensor suite and thermal imaging technique to measure canopy temperature in orchard crops for plant water status predictions. An ASABE – CSBE/ASABE Joint Meeting Presentation, Paper number 141893976, Montreal, Quebec Canada.
- Ehrler WL, Idso SB, Jackson RD and Reginato RJ (1978) Wheat canopy temperatures: relation to plant water potential. Agronomy Journal. 70: 251–256.
- El Gharbi A and Jraidi B (1994) Performance of rootstocks of almond, peach and peach × almond hybrids with regard to iron chlorosis. Acta Horticulturae. 373: 91–97.
- Evans R, Cassel DK and Sneed RE (1996) Soil, water and crop characteristics important to irrigation scheduling. North Carolina Cooperative Extension Service, Raleigh. Publication Number: AG 452-1. Available at https://content.ces.ncsu.edu/soil-water-and-crop-characteristics-important-to-irrigation-scheduling.
- Fuchs M and Tanner CB (1966) Infrared thermometry of vegetation. Agronomy Journal. 58: 597–601.
- García-Tejero I, Durán-Zuazo VH, Arriaga J, Hernández A, Vélez LM and Muriel-Fernández JL (2012) Approach to assess infrared thermal imaging of almond trees under water-stress conditions. Fruits. 67: 463–474.
- García-Tejero IF, Durán-Zuazo VH, Muriel-Fernández JL and Jiménez BJA (2011a) Linking canopy temperature and trunk diameter fluctuations with other physiological water status tools for water stress management in citrus crops. Functional Plant Biology. 38: 106–117.
- García-Tejero IF, Durán-Zuazo VH, Vélez LM, Hernández A, Salguero A and Muriel-Fernández JL (2011b) Improving almond productivity under deficit irrigation in semiarid zones. The Open Agriculture Journal. 5: 56–62.
- Gardner BR, Blad BL and Watts DG (1981) Plant and air temperatures in differentially-irrigated corn. Agricultural Meteorology. 25: 207–217.
- Ghotbizadeh M and Sepaskhah AR (2015) Effect of irrigation interval and water salinity on growth of vetiver (Vetiveria zizanioides). International Plant Production. 9(1): 17–38.
- Goldhamer DA, Viveros M and Salinas M (2006) Regulated deficit irrigation in almonds: effects of variations in applied water and stress timing on yield and yield components. Irrigation Science. 24: 101–114.
- Hatfield JL (1983) The utilization of thermal infrared radiation measurements from grain sorghum crops as a method of assessing their irrigation requirements. Irrigation Science. 3: 259–268.
- Hattendorf MJ (1986) Canopy temperature and yield relationships of water-deficit-stressed alfalfa. Iowa State University. Ph.D. Dissertations.
- Helyes L, Pék Z and McMichael B (2006) Relationship between the stress degree day index and biomass production and the effect and timing of irrigation in snap bean (Phaseolus vulgaris var. Nanus) stands: results of a long term experiments. Acta Botanica. Hungarica. 48: 311–321.
- Howell TA, Hatfield jL, Rhoades JD and Meron M (1984) Response of cotton water stress indicators to soil salinity. Irrigation Science. 5: 25–36.
- Idso SB, Reginato RJ, Reicosky DC and Hatfield JL (1981) Determining soil-induced plant water potential depressions in alfalfa by means of infrared thermometry. Agronomy Journal. 73: 826–830.
- Irmak S, Haman DZ and Bastug R (2000) Determination of crop water stress index for irrigation timing and yield estimation of corn. Agronomy Journal. 92: 1221–1227.
- Jackson RD, Idso SB, Reginato RJ and Pinter PJ (1981) Canopy temperature as a crop water stress indicator. Water Resourcs Research. 17: 1133–1138.
- Jones HG (1999) Use of infrared thermometry for estimation of stomatal conductance as a possible aid to irrigation scheduling. Agricultural and Forest Meteorology. 95: 139–149.
- Jones HG, Serraj R, Loveys BR, Xiong L, Wheaton A and Price AH (2009) Thermal infrared imaging of crop canopies for the remote diagnosis and quantification of plant responses to water stress in the field. Functional Plant Biology. 36: 978–989.
- Jones HG, Stoll M, Santos T, de Sousa C, Chaves MM and Grant OM (2002) Use of infrared thermography for monitoring stomatal closure in the field: application to grapevine. Experimental Botany. 53: 2249–2260.
- Kluitenberg GJ and Biggar JW (1992) Canopy temperature as a measure of salinity stress on sorghum. Irrigation Science. 13(3): 115–121.
- Maas, E.V. 1986. Salt tolerance in plants. Appl. Agric. Res. 1: 12–26.
- Mahhou A, De Jong TM, Shackel KS and Cao T (2011) Water stress and crop load effects on yield and fruit quality of Elegant Lady peach [Prunus persica (L.) Batch], Fruits 61: 407–418.
- Marsal J, Girona J and Mata M (1997) Leaf water relation parameters in almond compared to hazelnut trees during deficit irrigation period. American Society for Horticultural Science. 122: 582–587.
- Monastra F and Raparelli E (1997) Inventory of almond research, germplasm and references, REUR Technical Series 51, FAO, Rome, 232 p.
- Monteith JL (1973) Principles of Environmental Physics. 3rd Ed. Edward Arnold, London, 440 p.
- Murray FW (1967) On the computation of saturation vapor pressure. Applied Meteorology and Climatology. 6: 203–204.
- Ranjbar A, Lemeur R and Van Damme P (2001) Ecophysiological characteristics of two pistachio species (Pistacia khinjuk and Pistacia mutica) in response to salinity. Proceeding 11th GREMPA Seminar on Pistachios and Almonds, Zaragoza, Spain.
- Razouk R, Ibijbijen J Kajji A and Karrou M (2013) Response of peach, plum and almond to water restrictions applied during slowdown periods of fruit growth. American Plant Sciences 4: 561–570.
- Reicosky DC, Deaton DE and Parsons JE (1980) Canopy air temperatures and evapotranspiration from irrigated and stressed soybeans. Agricultural Meteorology. 21: 21–35.
- Rieger M (1995) Offsetting effects of reduced root hydraulic conductivity and osmotic adjustment following drought. Tree Physiology. 15: 379–385.
- Romero P, Navarro JM, Garcia F and Ordaz PB (2004) Effects of regulated deficit irrigation during the pre-harvest period on gas exchange, leaf development and crop yield of mature almond trees. Tree Physiology 24: 303–312.
- Shackel K (2011) A plant-based approach to deficit irrigation in trees and vines. Horticultural Science. 46(2): 173–177.
- Torrecillas A, Ruiz-Sanchez MC, Leon A and Garcia AL (1988) Stomatal response to leaf water potential in almond trees under drip irrigated and non irrigated conditions. Plant and Soil. 112(1): 151–153.
- Wang D and Gartung J (2010) Infrared canopy temperature of early-ripening peach trees under postharvest deficit irrigation. Agricultural Water Management 97: 1787–1794.
- Yadollahi A and NazaryMoghadam AR (2012) Micropropagation of GF677 rootstock. Agricultural Science. 4(5): 131–138.
|