Hostname: page-component-586b7cd67f-dlnhk Total loading time: 0 Render date: 2024-11-29T01:13:57.241Z Has data issue: false hasContentIssue false

GROWING APPLE (MALUS DOMESTICA) UNDER TROPICAL MOUNTAIN CLIMATE CONDITIONS IN NORTHERN ETHIOPIA

Published online by Cambridge University Press:  04 September 2009

DEREJE ASHEBIR*
Affiliation:
Department of Crop and Horticultural Science, Mekelle University, P.O. Box 231, Mekelle, Ethiopia
TOM DECKERS
Affiliation:
PCFruit vzw Proefcentrum Fruitteelt, Fruituinweg 1, B - 3800 St.TruidenBelgium
JAN NYSSEN
Affiliation:
Department of Geography, Ghent University, Krijgslaan 281 S8, B - 9000 Ghent, Belgium
WUBETU BIHON
Affiliation:
Department of Crop and Horticultural Science, Mekelle University, P.O. Box 231, Mekelle, Ethiopia
ALEMTSEHAY TSEGAY
Affiliation:
Department of Crop and Horticultural Science, Mekelle University, P.O. Box 231, Mekelle, Ethiopia
HAILEMARIAM TEKIE
Affiliation:
Department of Crop and Horticultural Science, Mekelle University, P.O. Box 231, Mekelle, Ethiopia
JEAN POESEN
Affiliation:
Physical and Regional Geography Research Group, K.U.Leuven, Celestijnenlaan 200E, B - 3001 Heverlee, Belgium
MITIKU HAILE
Affiliation:
Department of Land Resources Management and Environmental Protection, Mekelle University, P.O. Box 231, Mekelle, Ethiopia
FEKADU WONDUMAGEGNEHEU
Affiliation:
Department of Crop and Horticultural Science, Mekelle University, P.O. Box 231, Mekelle, Ethiopia
DIRK RAES
Affiliation:
Institute for Land and Water Management, K.U.Leuven, Celestijnenlaan 200E, B - 3001 Heverlee, Belgium
MINTESINOT BEHAILU
Affiliation:
Department of Land Resources Management and Environmental Protection, Mekelle University, P.O. Box 231, Mekelle, Ethiopia
JOZEF DECKERS
Affiliation:
Institute for Land and Water Management, K.U.Leuven, Celestijnenlaan 200E, B - 3001 Heverlee, Belgium
*
Corresponding author.

Summary

Lack of effective chilling during the dormant season is one of the major problems when apples are growing under a tropical climate. We evaluated the response of different apple cultivars (Golden Delicious, Gala, Fuji, Granny Smith and Jonagold) grown on M9 rootstock with different dormancy-management practices. The trials were carried out between 2004 and 2006 in a tropical mountain area (Tigray, Ethiopia), where chilling conditions are poor with the aim of improving and synchronizing the bud break and the blossoming period of these apple cultivars. Two-year-old well-feathered trees were planted in two experimental trial sites in a randomized complete block design. Trees were subjected to the following treatments in two sets of experiments: one defoliation per year only; two defoliations per year, one defoliation followed by 1% hydrogen cyanamide (Dormex) treatment; one defoliation followed by 2% Dormex treatment; one defoliation followed by 4% winter oil; one defoliation followed by 0.5% Dormex and 2% winter oil; and a control with no defoliation or dormancy breaking treatments. The results show positive effects of the dormancy breaking agents on the productivity of the trees after defoliation, with comparable results for the effectiveness of both Dormex and winter oil. There were no statistically significant differences between the Dormex doses. The defoliation treatment alone was not sufficient to break dormancy for the cultivars Golden Delicious, Granny Smith or Gala but showed promising results with dormancy breaking on Jonagold. Yields increased as a result of better flowering time synchronization within a tree but even with the dormancy treatments the length of the flowering period was still spread over five weeks, where under a more temperate climate it lasted two to three weeks. The average fruit weight of Jonagold and Granny Smith can be considered as a good fruit quality while the fruit of other diploid cultivars like Golden, Gala and Fuji were rather small, which indicates that fruit thinning by hand will be a necessity for these cultivars. Red colouration of the apples on the cultivars Gala and Jonagold was excellent and meets the standards necessary for commercialization of these fruits. The sugar concentration of the fruits and the fruit firmness at harvest was high. The results of these first trials indicate that it is possible to develop new apple production in the mountain region of Tigray, Ethiopia.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2009

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Bernardi, J. (1988). Behaviour of some apple cultivars in the subtropical region of Santa Catarina, Brazil. Acta-Horticulturae 232: 4650.CrossRefGoogle Scholar
Cook, N. and Jacobs, G. (2000). Progression of apple (Malus × domestica Borkh.) bud dormancy in two mild winter climates. Journal of Horticultural Sciences and biotechnology 75: 233236.CrossRefGoogle Scholar
Diaz, D. H., Alvarez, A. and Sandoval, J. (1987). Cultural and chemical practices to induce uniform bud break of peach and apple under warm climates in Mexico. Acta-Horticulturae 199: 129136.CrossRefGoogle Scholar
Edwards, G. R. (1985). Changes in endogenous hormones in apple during bud burst induced by defoliation. Acta-Horticulturae 158: 203210.CrossRefGoogle Scholar
Edwards, G. R. (1990). Ten years’ experience with temperate fruits in the tropics. Acta-Horticulturae 279: 4751.CrossRefGoogle Scholar
Erez, A. (2000). Bud dormancy; phenomenon, problems and solutions in the tropics and subtropics. In Temperate Fruit Crops in Warm Climates, 1748 (Ed. Erez, A.). Kluwer Academic Publishers, The Netherlands.CrossRefGoogle Scholar
Gilreath, R. and Buchanan, W. (1981). Rest prediction model for low-chilling Sungold nectarine. Journal of American Society of Horticultural Sciences 106: 426429.CrossRefGoogle Scholar
Hauagge, R. and Cummins, N. (1991). Phenotypic variation of length of bud dormancy in apple cultivars and related Malus species. Journal of American Society of Horticultural Sciences 116: 100106.CrossRefGoogle Scholar
Jackson, J. and Bepete, M. (1995). The effect of hydrogen cyanaide (Dormex) on flowering and cropping of different apple cultivars under tropical conditions. Scientia Horticulturae 60: 293304.CrossRefGoogle Scholar
Jacobs, G., Watermeyer, P. and Strydom, D. (1981). Aspects of winter rest of apple trees. Crop Production 10: 103104.Google Scholar
Jones, H.G. (1987). Repeat flowering in apple caused by water stress or defoliation. Trees – Structure and Function 1: 135138.CrossRefGoogle Scholar
Labuschagne, I., Louw, J., Schmidt, K. and Sadie, A. (2002). Genetic variation in chilling requirement in apple progeny. Journal of American Society of Horticultural Sciences 127: 663672.CrossRefGoogle Scholar
Legave, J. M., Farrera, I., Almeras, T. and Calleja, M. (2008). Selecting models of apple flowering time and understanding how global warming has had an impact on this trait. Journal of Horticultural Science and Biotechnology 83: 7684.CrossRefGoogle Scholar
Mahhou, A., Alahoui, H. and Jadari, R. (2003). Effects of hydrogen cyanamide and gibberellic acid on the bud break of the ‘Dorsett Golden’ apple trees in Southern Morocco. CIRAD, EDP Sciences Fruits 58: 229238.CrossRefGoogle Scholar
Niegel, W. (1988). History, actual advance and future of the equatorian apple growing. Acta-Horticulturae 232: 6770.CrossRefGoogle Scholar
Njuguna, J. K., Leonard, S. W. and Teddy, E. M. (2004). Temperate fruits production in the tropics: A review on apples in Kenya. HortScience 39: 841.CrossRefGoogle Scholar
NMSA (2007). National Metrological Services Agency, Ethiopia.Google Scholar
Nyssen, J., Vandenreyken, H., Poesen, J., Moeyersons, J., Deckers, J., Haile, M., Salles, C. and Govers, G. (2005). Rainfall erosivity and variability in the northern Ethiopian highlands. Journal of Hydrology 311: 172187.CrossRefGoogle Scholar
Osborne, P. (2000). Tropical Ecosystems and Ecological Concepts, 280298. Cambridge: Cambridge University Press.Google Scholar
Rice, R. and Becker, S. (1990). Observations on apple and plum performance and response to growth control treatments at three climatically diverse sites in Ethiopia. Acta-Horticulturae 279: 209212.CrossRefGoogle Scholar
Rice, R. P., Rice, L. W. and Tindall, H. D. (1987). Fruit and Vegetable Production in Africa, 131132. London: MacMillan.Google Scholar
Richardson, E., Seeley, S. and Walker, D. (1974). A model for estimating the completion of rest for ‘Redhaven’ and ‘Elberta’ peach trees. HortScience 9: 974975.Google Scholar
Shaultout, D. and Unrath, R. (1983). Rest completion prediction model for Starkrimson Delicious apples. Journal of American Society of Horticultural Sciences 108: 957961.CrossRefGoogle Scholar
Sunley, R. J., Atkinson, C. J. and Jones, H. G. (2006). Chill unit models and recent changes in the occurrence of winter chill and spring frost in the United Kingdom. Journal of Horticultural Science and Biotechnology 81: 949958.CrossRefGoogle Scholar
Taylor, J., Pharis, R., Loveys, B., Notodimedjo, S. and Edwards, G. (1984). Changes in endogenous hormones in apple during bud burst induced by defoliation. Plant Growth Regulation 2: 117134.CrossRefGoogle Scholar
Tromp, J. (2005). Dormancy. In Fundamentals of Temperate Zone Tree Fruit Production, 6573. (Eds Tromp, J., Webster, A. D., and Wertheim, S. J.). Leiden, The Netherlands: Backhuys Publishers BV.Google Scholar
Visscher, P. K. and Seeley, T. D. (1982). Foraging strategy of honeybee colonies in a temperate deciduous forest. Ecology 63: 17901801.CrossRefGoogle Scholar
Webster, A. D. (2005). Sites and soils for temperate tree-fruit production: their selection and amelioration. In Fundamentals of Temperate Zone Tree Fruit Production, 1225 (Eds Tromp, J., Webster, A. D., and Wertheim, S. J.). Leiden, The Netherlands: Backhuys Publishers BV.Google Scholar
Willett, M. and Westigard, P. H. (1988). Using horticultural spray oils to control orchard pests. Pacific North West Extension Publication 328: 5.Google Scholar
Williams, W. T. and Menegazzo, G. (1988). Apple culture in the highlands of Guatemala. Acta-Horticulturae 232: 5766.CrossRefGoogle Scholar
Williams, W. T. and Tax Tzoc, B. A. (1990). Preliminary observations on the effects of hydrogen cyanamide on breaking dormancy and harvest of apples in Guatemala. Acta-Horticulturae 279: 399408.CrossRefGoogle Scholar