Partial rootzone drying and deficit irrigation of ‘Fuji’ apples in a semi-arid climate

Alegre S, Girona J, Marsal J, Arbones A, Motilva MJ, Romero MP (1997) Regulated deficit irrigation in olive trees. Acta Hort 474:373–376

Allen RG, Pereira LS, Raes D, Smith M (1998) Crop evapotranspiration—Guidelines for computing crop water requirements. FAO Irrigation and Drainage Paper No. 56. Food and Agricultural Organisation of the United Nations, Rome

Boland AM, Mitchell PD, Jerie PH, Goodwin I (1993) The effect of regulated deficit irrigation on tree water use and growth of peach. J Hort Sci 68:261–274

Bonachela S, Orgaz F, Villalobos F, Fereres E (2001) Soil evaporation from drip-irrigated olive orchards. Irrig Sci 20:65–71

Caspari HW, Behboudian MH, Chalmers DJ (1994) Water use, growth, and fruit yield of ‘Hosui’ Asian pears under deficit irrigation. J Am Soc Hort Sci 119:383–388

Caspari HW, Neal S, Alspach P (2004) Partial rootzone drying—a new deficit irrigation strategy for apple? Acta Hort 646:93–100

Chalmers DJ, Mitchell PD, Heek L van (1981) Control of peach tree growth and productivity by regulated water supply, tree density, and summer pruning. J Am Soc Hort Sci 106:307–312

Davies WJ, Zhang J (1991) Root signals and the regulation of growth and development of plants in drying soil. Ann Rev Plant Physiol Plant Mol Bio 42:55–76

Davies WJ, Wilkinson S, Loveys B (2002) Stomatal control by chemical signalling and the exploitation of this mechanism to increase water use efficiency in agriculture. New Phytol 153:449–460

de Souza CR, Maroco JP, dos Santos TP, Rodrigues ML, Lopes CM, Pereira JS, Chaves MM (2003) Partial rootzone drying: regulation of stomatal aperture and carbon assimilation in field-grown grapevines (Vitis vinifera cv. Moscatel). Funct Plant Biol 30:653–662

Doorenbos J, Pruitt WO (1977) Guidelines for predicting crop water requirements. FAO Irrigation and Drainage Paper No. 24. Food and Agricultural Organisation of the United Nations, Rome

dos Santos TP, Lopes CM, Rodrigues ML, Souza CR, Maroco JP, Pereira JS, Silva JR, Chaves MM (2003) Partial rootzone drying: effects on growth and fruit quality of field-grown grapevines (Vitis vinifera). Funct Plant Biol 30:663–671

Drake SR, Proebsting EL, Mahan MO, Thompson JB (1981) Influence of trickle and sprinkle irrigation on ‘Golden Delicious’ apple quality. J Am Soc Hort Sci 106:255–258

Dry PR, Loveys BR (1998) Factors influencing grapevine vigour and the potential for control with partial rootzone drying. Aust J Grape Wine Res 4:140–148

Dry PR, Loveys BR, Botting DG, Düring H (1996) Effects of partial root-zone drying on grapevine vigour, yield, composition of fruit and use of water. In: Stockley CS, Sas AN, Johnstone RS, Lee TH (eds) Proceedings of the 9th Australia Wine Industrial Technical Conference. Winetitles, Adelaide, Australia, pp128–131

Dry PR, Loveys BR, Düring H (2000a) Partial drying of the rootzone of grape. I. Transient changes in shoot growth and gas exchange. Vitis 39:3–7

Dry, PR, Loveys BR, Düring H (2000b). Partial drying of the rootzone of grape. II. Changes in the pattern of root development. Vitis 39:9–12

Dry PR, Loveys BR, McCarthy MG (2001) Strategic irrigation management in Australian vineyards. J Intl Sci Vin 35:129–139

Ebel RC, Proebsting EL, Patterson ME (1993) Regulated deficit irrigation may alter apple maturity, quality, and storage life. Hort Sci 28:141–143

Ebel RC, Proebsting EL, Evans RG (1995) Deficit irrigation to control vegetative growth in apple and monitoring fruit growth to schedule irrigation. Hort Sci 30:1229–1232

Ebel RC, Proebsting EL, Evans RG (2001) Apple tree and fruit responses to early termination of irrigation in a semi-arid environment. Hort Sci 36:1197–1201

Gardner WH (1986) Water content. In: Klute A (ed) Methods of soil analysis Part 1 Physical and mineralogical methods (Agronomy monograph 9). ASA and SSSA, Madison, WI, pp 635–662

Goldhamer DA (1997) Regulated deficit irrigation for California canning olives. Acta Hort 474:369–372

Gowing DJG, Davies WJ, Jones HG (1990) A positive root-sourced signal as an indicator of soil drying in apple, Malus × domestica Borkh. J Exp Bot 41:1535–1540

Green SR, Clothier BE (1999) The root zone dynamics of water uptake by a mature apple tree. Plant Soil 206:61–77

Guelfat’Reich S, Assaf R, Bravdo BA, Levin I (1974) The keeping quality of apples in storage as affected by different irrigation regimes. J Hort Sci 49:217–225

Irving DE, Drost JH (1987) Effects of water deficit on vegetative growth, fruit growth and fruit quality in Cox’s Orange Pippin apple. J Hort Sci 62:427–432

James JG, Erpenbeck JM, Bassett DL, Middleton JE (1989) Irrigation requirements for Washington—estimates and methodology EB 1513 Cooperative Extension, College of Agric Home Econom. Washington State University, Pullman, WA

Kilili AW, Behboudian MH, Mills TM (1996) Composition and quality of ‘Braeburn’ apples under reduced irrigation. Sci Hort 67:1–11

Kingston CM (1992) Maturity indices for apple and pear. Hort Rev 13:407–432

Landsberg JJ, Jones HG (1981) Apple orchards. In: Kozlowski T (ed) Water deficit and plant growth, vol 6. Academic Press, New York, pp 419–469

Li S-H, Huguet J-G, Schoch PG, Orlando P (1989) Response of peach tree growth and cropping to soil water deficit at various phenological stages of fruit development. J Hort Sci 64:541–552

Lötter JDeV, Beukes DJ, Weber HW (1985) Growth and quality of apples as affected by different irrigation treatments. J Hort Sci 60:181–192

Loveys BR, Grant WJR, Dry PR, McCarthy MG (1997) Progress in the development of partial root-zone drying. Aust Grapegrow Winemak 403:18–20

Loveys B, Stoll M, Dry P, McCarthy M (1998) Partial rootzone drying stimulates stress responses in grapevine to improve water use efficiency while maintaining crop yield and quality. Aust Grapegrow Winemak Annu Tech Issu 108–113

Marsal J, Mata M, Arbonés A, Rufat J, Girona J (2002) Regulated deficit irrigation and rectification of irrigation scheduling in young pear trees: an evaluation based on vegetative and productive response. Eur J Agric 17:111–122

Mitchell PD, Chalmers DJ (1982) The effect of reduced water supply on peach tree growth and yields. J Am Soc Hort Sci 107:853–856

Mitchell PD, Ende B van den, Jerie PH, Chalmers DJ (1989) Responses of ’Bartlett’ pear to withholding irrigation, regulated deficit irrigation, and tree spacing. J Am Soc Hort Sci 114:5–19

Mpelasoka BS, Behboudian MH, Dixon J, Neal SM, Caspari HW (2000) Improvement of fruit quality and storage potential of ‘Braeburn’ apple through deficit irrigation. J Hort Sci Biotechnol 75:615–621

Mpelasoka BS, Behboudian MH, Green SR (2001) Water use, yield and fruit quality of lysimeter-grown apple trees: responses to deficit irrigation and to crop load. Irr Sci 20:107–113

PAWS, Public Agricultural Weather System-WSU-PAWS Washington State Univer. Prosser, WA. http://frost.Prosser.wsu.edu/

Proebsting EL, Drake SR, Evans RG (1984) Irrigation management, fruit quality, and storage life of apple. J Am Soc Hort Sci 109:229–232

Tardieu F, Zhang J, Davies WJ (1992a) What information is conveyed by an ABA signal from maize roots in drying field soil? Plant Cell Environ 15:185–191

Tardieu F, Zhang J, Katerji N, Bethenod O, Palmer S, Davies WJ (1992b) Xylem ABA controls the stomatal conductance of field-grown maize subjected to soil compaction or soil drying. Plant Cell Environ 15:193–197

Volz RK, Harker FR, Lang S (2003) Firmness decline in ‘Gala’ apple during fruit development. J Am Soc Hort Sci 128:797–802