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RESEARCH ARTICLE

Rooting of ‘GF677’ (almond × peach hybrid) hardwood cuttings in relation to hydrogen hyperoxide, moisture content, oxygen concentration, temperature and pH of substrate

C. Tsipouridis A and T. Thomidis A B
+ Author Affiliations
- Author Affiliations

A Pomology Institute, Naoussa, P. C. 59200, Naoussa, Greece.

B Author for correspondence; e-mail: thomi-1@otenet.gr

Australian Journal of Experimental Agriculture 44(8) 801-806 https://doi.org/10.1071/EA03059
Submitted: 3 March 2003  Accepted: 7 September 2003   Published: 20 September 2004

Abstract

In this study, the influence of water content, temperature, oxygen concentration and pH of perlite substrate and H2O2 treatments on the rooting percentage of GF677 hardwood cuttings was examined. The best moisture level was 100 mL in 500 mL perlite; this resulted in 100% rooting. The observations showed that even pure O2 did not reduce callusing or, possibly, rooting and it gave similar results as 21% O2. There was no indication of a promotory effect. No rooting or callusing was observed in N, 5% CO2 or 5% O2 treatments. There were significant differences in the responses to temperature and pH levels. The best temperature was 29°C, while the best pH levels were between 3 and 5. Cuttings in media with higher pH levels (7–8) rooted less successfully. The results also showed that H2O2 possibly had an effect on the rooting percentage of cuttings.


References


Bartolini G, Briccoli-Bati C (1975) Rooting of peach hardwood cuttings in polyethylene bags. Acta Horticulturae 54, 59–61. open url image1

Bartolini G, Briccoli-Bati C (1976) Prove per migliorare la sopravvivenza delle barbatelle di pesco ottenute in sacchetti di polietilene. Rivista dell’Ortoflorofrutticoltura Italiana 3, 143–155. open url image1

Bartolini G, Pestelli P, Tazzari L, Toponi MA (2000) Parameters that influence rooting and survival of peach cuttings. Journal of the American Pomological Society 54, 183–188. open url image1

Burg SP, Burg EA (1965) Ethylene action and the ripening of fruits. Science 148, 1190–1196.
Crossref | PubMed |
open url image1

Callaway RM, King L (1996) Temperature-driven variation in substrate oxygenation and the balance of competition and facilitation. Ecology Washington DC 77, 1189–1195. open url image1

Childers NF, Sherman WB (Eds) (1988) ‘The peach.’ (Horticultural Publications: Gainesville, FL, USA)

Hwang KS (1991) Rooting of peach cuttings influenced by cultivars and hormonal changes during the rooting of hardwood cuttings. Journal of the Korean Society for Horticultural Science 32, 178–183. open url image1

Heide OM (1965) Photoperiodic effects on the regeneration ability of Begonia leaf cuttings. Physiologia Plantarum 18, 185–193.
Crossref |
open url image1

Holt TA, Maynard BK, Johnson WA (1998) Low pH enhances rooting of stem cuttings of rhododendron in subirrigation. Journal of Environmental Horticulture 16, 4–7. open url image1

McQuilken MP, Hopkins KE (2001) Sources, survival and management of Pestalotiopsis sydowiana on Calluna vulgaris nurseries. Crop Protection 20, 591–597.
Crossref | GoogleScholarGoogle Scholar | open url image1

Nag S, Saha K, Choudhuri MA (2001) Role of auxin and polyamines in adventitious root formation in relation to changes in compounds involved in rooting. Journal of Plant Growth Regulation 20, 182–194.
Crossref | GoogleScholarGoogle Scholar | open url image1

Neves C, Sa MC, Amancio S (1998) Histochemical detection of H2O2 by tissue printing as a precocious marker of rhizogenesis in grapevine. Plant Physiology and Biochemistry Paris 36, 817–824.
Crossref | GoogleScholarGoogle Scholar | open url image1

Oh W, Kim KS, Yoo YK (1998) Effects of air filled porosity of rooting media on rooting and growth of chrysanthemum cuttings. Journal of the Korean Society for Horticultural Science 39, 92–97. open url image1

Osterc G, Spethmann W (2000) The effect of the mineral nutrition and pH of the rooting substrate on rooting and mineral content of cherry rootstock greencuttings. Phyton 40, 153–155. open url image1

Pawlowski MB (1996) Rooting of Koralle cuttings and their development on different substrates. Vyestsi Akademii Navuk Byelarusi Syeryya Biyalahichnykh Navuk 2, 18–25. open url image1

Pocorny FA, Austin ME (1982) Propagation of blueberry by softwood terminal cuttings in pine bark and peat media. HortScience 17, 640–642. open url image1

Rom CR (1982) A new philosophy for peach roostock development. Fruits 36, 34–37. open url image1

Scaramuzzi F (1965) Nuova tecnica per stimolare la radicazione delle tale legnose di ramo. Rivista dell’Ortoflorofrutticoltura Italiana 2, 101–104. open url image1

Takagaki M, Udagawa Y, Takahashi E (1997) Effect of pretreatment on rooting and shoot growth of Ficus carica L. cuttings. Technical Bulletin of Faculty of Horticulture Chiba University 51, 227–230. open url image1

Verdonck O, Penninck R, De Boodt M (1983) The physical properties of different horticultural substrates. Acta Horticulturae 150, 155–160. open url image1

Xu JH, Chen SW (1989) The effect on rooting on changes in the content of endogenous ABA and IAA in hardwood cuttings of peach. Acta Horticulturae Sinica 16, 275–278. open url image1