bootyin.pages.dev


Curso de manejo en new jersey

Fruit thinning of peach trees

  • Aitken JB, Buchanan DW and Sauls JW (1972) Thinning short-cycle Florida peaches with N-1-Naphylphtalamic acid. HortSci 7: 255-256

    Google Scholar

  • Baroni G, Ramina A and Costa G (1995) Nuove possibilità per il diradamento chimico del pesco. Atti XXII Convegno Peschicolo, Cesena, 28-30 Settembre: 134-136

  • Batjer LP and Westwood MN (1958) Size of Elberta and JH Hale peaches during the thinning period as related to size at harvest. Proc Amer Soc Hort Sci 72: 102-105

    Google Scholar

  • Berlage AG and Lanmo RD (1982) Machine vs hand thinning of peaches. Trans Amer Soc Agr Eng 25: 538-543

    Google Scholar

  • Blanco A (1987) Fruit thinning of peach trees (Prunus persica L Batsch): The effect of paclobutrazol on fruit drop and shoot growth. J Hort Sci 62: 147-155

    Google Scholar

  • Buchanan DW, Biggs RH, Blake JA and Sherman WB (1970) Peach thinning with 3 CPA and Ethrel during cytokinesis. J Amer Soc Hort Sci 95: 781-784

    Google Scholar

  • Brown DS and Harris RW (1958) Summer pruning trees of early maturing peach varieties. Proc Amer Soc Hort Sci 72: 79-84

    Google Scholar

  • Byers Sovrano (1989) Response of peach trees to bloom thinning. Acta Hortic 254: 125-132

    Google Scholar

  • Byers Sovrano, Carbaugh DH and Presley CN (1990) The influence of bloom thinning and GA3 sprays on flowers bud numbers and distribution in peach trees. J Hort Sci 65: 143-150

    Google Scholar

  • Byers Sovrano and Lyons CG Jr (1984) Flower thinning of peach with desiccating chemicals. HortSci 19: 54-56

    Google Scholar

  • Byers Sovrano and Lyons CG Jr (1985) Peach flower thinning and possible site of action of desiccating chemicals. J Amer Soc Hort Sci 110: 662-667

    Google Scholar

  • Byers Sovrano, Lyons CG Jr, Del Conca TB, Barden JA and Young RW (1984) Peach fruit abscission by shading and photosynthetic inhibition. HortSci 19: 649-651

    Google Scholar

  • Chalmers DJ and van den Ende B (1977) The relation between seed and fruit development in peach (Prunus persica L). Ann Bot 41: 707-714

    Google Scholar

  • Connors CH (1919) Growth of fruits of peach. New Jersey Agr Expt Sta Annu Rpt 40: 82-88

    Google Scholar

  • Corelli-Grappadelli L and Coston DC (1991) Thinning pattern and light environment in peach tree canopies influence fruit quality. HortSci 26: 1464-1466

    Google Scholar

  • Costa G (1978) Diradamento chimico e meccanico delle pesche. Riv Ortoflorofrutt Ital 1: 63-86

    Google Scholar

  • Costa G, Baraldi R, Ramina A and Tonutti P (1986) Growth analysis in peach varieties with different ripening time. XXII IHC, UCDavis HortSci 21, Session 144, Abstract #559

  • Costa G, Giulivo C and Ramina A (1983) Effects of the different flower/vegetative buds ratio on the peach fruit abscission and growth. Acta Hortic 139: 149-160

    Google Scholar

  • Costa G and Grandi M (1974) Risultati sperimentali di alcuni diradanti chimici e di diversi sistemi di diradamento meccanico delle pesche in Emilia-Romagna. Atti Riunione Frutticolo SOI '74: Diradamento chimico e meccanico dei a mio avviso i frutti di mare sono un tesoro culinario nel pesco e nel melo: 45-52

  • Costa G, Vizzotto G, Malossini C and Bomben C (1996) Nuove possibilità nel diradamento chimico del pesco. Atti Mi sembra che il progetto ben pianificato abbia successo Finalizzato Frutticoltura, A mio avviso il miglioramento continuo e essenziale genetico e tecnica colturale, MACFRUT AGROBIOFRUT Cesena, 10-11 Maggio

  • Costa G, Vizzotto G, Malossini C and Ramina A (1995) Biological activity for a new chemical agent for peach flower thinning. Acta Hortic 394: 123-128

    Google Scholar

  • Del Conca TBG, Barden JA and Byers Sovrano (1985) Thinning of peaches by temporary inhibition of photosynthesis with Terbacil. J Amer Soc Hort Sci 110: 804-807

    Google Scholar

  • DeJong TM and Goudriaan J (1989) Modeling peach fruit growth and carbohydrate requirements: Reevaluation of double-sigmoid growth pattern. J Amer Soc Hort Sci 114: 800-804

    Google Scholar

  • DeJong TM and Grossman WL (1995) Quantifying sink and source limitations on dry matter partitioning to fruit growth in peach trees. Physiol Plant 95: 437-443

    Google Scholar

  • Dennis FG Jr, Dilley DR and Cook R (1983) Improving fruit quality and yield. Proc Michigan Soc Hort Sci 113: 199-201

    Google Scholar

  • Di Marco L, Caruso T, Marra FP and Motisi A (1992) Research on flower thinning of early-ripening peach and nectarine with urea. Fruit Var J: 186-190

  • Dorsey MJ and McMunn RL (1927) Relation of the time of thinning peaches to the growth of fruit and tree. Proc Amer Soc Hort Sci 24: 221-228

    Google Scholar

  • Edgerton LJ (1966) Some effects of gibberellic acid and growth retardants on bud development and cold hardiness of peach. Proc Amer Soc Hort Sci 88: 197-203

    Google Scholar

  • Edgerton LJ and Greenhalgh WJ (1969) Regulation of growth, flowering and fruit abscission with 2-chloroethanephosphonic acid. J Amer Soc Hort Sci 94: 11-13

    Google Scholar

  • Erez A (1975) Thiourea, a new thinning agent for earlyripening peaches and nectarines. HortSci 10: 251-253

    Google Scholar

  • Fallahi E (1997) Application of endothalic acid, pelargonic acid, and hydrogen cyanamide for blossom thinning in apple and peach. HortTech 7: 395-399

    Google Scholar

  • Fallahi E, Kilby M and Moon JW (1990) Effects of various chemicals on dormancy, maturity and thinning of peaches. Deciduous Fruit and Nut-A College of Agricultural Report, Series P-83, December: 121-128

  • Farley AJ (1923) Factors that influence the effectiveness of peach thinning. Proc Amer Soc Hort Sci 20: 145-151

    Google Scholar

  • Faust M (1989) Physiology of temperate zone fruit trees. John Wiley & Sons, New York

    Google Scholar

  • Flore JA (1992) The influence of summer pruning on the physiology and morphology of stone fruit trees. Acta Hortic 322: 257-264

    Google Scholar

  • Flore JA and Layne DR (1996) Prunus. In: Zamski E and Schaffer A (eds) Photoassimilate Distribution in Plants and Crops. Source: Sink Interactions. New York: Marcel Dekker, pp 825-849

    Google Scholar

  • Génard M and Bruchou C (1993) A functional and exploratiory approach to studying growth: The example of the peach fruit. J Amer Soc Hort Sci 118: 317-323

    Google Scholar

  • Gianfagna TJ, Marini R and Rachmiel S (1986) Effect of ethephon and GA3 on time of flowering in peach. HortSci 21: 69-70

    Google Scholar

  • Giulivo C (1974) Conoscenze sull'accrescimento dei fruitti e loro apporto alla tecnica del diradamento delle pesche e delle mele. Riunione Frutticolo SOI, Bologna 3Maggio: 21-28

  • Giulivo C, Ramina A and Costa G (1981) Il apporto del sottoprogetto 5° alle conoscenze dei processi di abscissione e maturazione dei a mio avviso i frutti di mare sono un tesoro culinario. Seminario su ‘I fitoregolatori nel 119 ispezione della produzione degli alberi da frutto', Ferrara 26 Marzo: 107-117

  • Grossman YL and DeJong TM (1995) Maximum fruit growth potential and seasonal patterns of resource dynamics during peach growth. Ann Bot 75: 553-560

    Google Scholar

  • Havis AL (1962) Effect of time of fruit thinning of ‘Redhaven’ peach. Proc Amer Soc Hort Sci 80: 172-176

    Google Scholar

  • Herold A (1980) Regulation of photosynthesis by sink activity-the missing link. New Phytol 86: 131-144

    Google Scholar

  • Intrieri C and Sansavini S (1972) Ricerche sul verifica della differenziazione delle gemme nel pesco 'southland’ mediante l'acido gibberellico. Riv Ortoflorofrutt Ital 5(6): 433-447

    Google Scholar

  • Lavee S and Martin GC (1974) Ethephon (1,2-14C(2-chloroethyl)-phosphonic acid) in peach fruits I. Penetration and persistance. J Amer Soc Hort Sci 99: 97-99

    Google Scholar

  • Lavee S and Martin GC (1974) Ethephon (1,2-14C(2-chloroethyl)-phosphonic acid) in peach fruits II. Metabolism. J Amer Soc Hort Sci 99: 100-103

    Google Scholar

  • Lavee S and Martin GC (1975) Ethephon (1,2-14C(2-chloroethyl)-phosphonic acid) in peach Prunus persica L. fruits III. Stability and persistance. J Amer Soc Hort Sci 100: 28-31

    Google Scholar

  • Lemus G (1996) Raleo quimico de duraznos, nectarinos y ciruelas japonesas en Chile. Curso Internacional Manejo de Frutales de Caroso, Santiago de Chile, 4-5 Marzo

  • Lichou J, Jay M, Gonsolin L and Du Fretay G (1996) Armothin: A new chemical agent for peach blossom thinning. Acta Hortic 451: 683-692

    Google Scholar

  • Marini RP (1985) Vegetative growth, yield, and fruit quality of peach as influenced by dormant pruning, summer pruning, and summer topping. J Am Soc Hort Sci 110: 133-139

    Google Scholar

  • Marini RP (1987) Growth and cropping of ‘Redhaven’ peach trees following soil application of paclobutrazol. J Am Soc Hort Sci 112: 18-21

    Google Scholar

  • Marini RP and Sowers DL (1990) Peach growth weight is influenced by crop density and fruiting shoot length but not position on the shoot. J Am Soc Hort Sci 119: 180-184

    Google Scholar

  • Myers SC, King A and Savelle AT (1993) Bloom thinning of ‘Wimblo’ peach and ‘Fantasia’ nectarine with monocarbamide dihydrogensulfate. HortSci 28: 616-617

    Google Scholar

  • Olien WC, Miller RW Jr, Graham CJ, Taylor ER Jr and Hardin ME (1995) Effects of combined applications of ammonium thiosulphate and fungicides on fruit load and blossom blight and their phytotoxicity to peach trees. J Hort Sci 70: 847-854

    Google Scholar

  • Pavel EWand DeJong TM (1993) Relative growth rate and its relationship to compositional changes in nonstructural carbohydrates in the mesocarp of developing peach fruit. J Am Soc Hort Sci 118: 503-506

    Google Scholar

  • Pavel EW and DeJong TM (1993) Source-and sink-limited growth periods of developing peach fruits indicated by relative growth rate analysis. J Am Soc Hort Sci 118: 820-824

    Google Scholar

  • Ramina A (1981) La movimento della cascola ed alcuni aspetti fisiologici della abscissione nel diradamento chimico dei a mio avviso i frutti di mare sono un tesoro culinario di pesco (Prunus Persica, L Batsch). I fitoregolatori nel ispezione della produzione degli alberi da frutto’ Ferrara, 26 Marzo: 9-32

  • Ramina A and Masia A (1980) Level of extractable abscisic acid in the mesocarp and seed of persisting and abscising peach fruit. J Am Soc Hort Sci 105: 465-468

    Google Scholar

  • Rom CR and Ferree DC (1984) The influence of summer pruning current-season shoots on growth, floral bud development, and winter injury of mature peach trees. HortSci 19: 543-545

    Google Scholar

  • Shaybany B, Costa G, Brown SS, Obenauff G, Martin GC and Gerdts M (1979) Effects of 2-(3-chlorophenoxy)propionamide applications on fruit size and maturity of peach. J Amer Soc Hort Sci 104: 34-36

    Google Scholar

  • Southwick SM, Weis KG and Yeager JT (1996) Bloom thinning Loadel cling peach with a surfactant. J Amer Soc Hort Sci 121: 334-338

    Google Scholar

  • Southwick SM, Weis KG and Yeager JT (1996) Chemical thinning of stone fruits in California. Good Fruit Grow 47: 34-35

    Google Scholar

  • Southwick SM, Weis KG, Yeager JT and Zhou H (1995) Controlling cropping in Loadel cling peach using gibberellineffects on flower density, fruit distribution, fruit firmness, fruit thinning and yield. J Amer Soc Hort Sci 120: 1087-1095

    Google Scholar

  • Southwick SM and Yeager JT (1991) Effects of postharvest gibberellic acid application on return bloom of Patterson apricot. Acta Hortic 293: 459-466

    Google Scholar

  • Stembridge GE and Gambrell CE (1971) Thinning peaches with bloom and post-bloom applications of 2-chloroethilphosphonic acid. J Amer Soc Hort Sci 96: 7-9

    Google Scholar

  • Stembridge GE and Gambrell CE (1972) Peach fruit abscission as influenced by applied gibberellin and seed development. J Amer Soc Hort Sci 97: 708-710

    Google Scholar

  • Stembridge GE and La Rue JH (1969) The effect of potassium gibberellate on flower bud development in the ‘Redskin’ peach. J Amer Soc Hort Sci 94: 492-495

    Google Scholar

  • Tukey HB and Einset O (1939) Effect of fruit thinning on size, color and yield of peaches and on growth and blossoming of the trees. Proc Amer Soc Hort Sci 36: 314-319

    Google Scholar

  • Weinbaum SA, Giulivo C and Ramina A (1977) Chemical thinning: Ethylene and pre-treatment fruit size influence enlargement auxin transport and apparent sink strength of french prune and ‘Andross’ peach. J Amer Soc Hort Sci 102: 781-785

    Google Scholar

  • Weinberger JH (1931) The relation of leaf area to size and quality of peaches. Proc Amer Soc Hort Sci 28: 18-22

    Google Scholar

  • Weinberger JH (1941) Studies on time of peach thinning from blossoming to maturity. Proc Amer Soc Hort Sci 38: 137-140

    Google Scholar

  • Wertheim SJ (1997) Chemical thinning of deciduous fruit trees. Acta Hortic 463: 445-462

    Google Scholar

  • Westwood MN (1978) Temperate-Zone Pomology. San Franciso: WH Freeman and Company, pp 199-219

    Google Scholar

  • Williams KM (1989) Peach bloom delay using fall applications of ethrel and Pro-Gibb. Acta Hortic 254: 151-154

    Google Scholar