Evaluating the Performance of Eleven Olive Cultivars in Fars Province of Iran

Document Type : Research paper

Authors

1 Crop and Horticulture Science Research Department, Fars Agriculture and Natural Resources Research and Education Center, (AREEO), Shiraz, Iran

2 Associate Professor of Research, Horticultural Science Research Institute, Karaj, Iran

3 Student, Department of Horticultural Science, College of Agriculture, Shiraz University, Shiraz, Iran

Abstract

Olive (Olea europaea L.) consumption and production are socially and economically important in Iran. The aim of this experiment was to evaluate the vegetative characteristics, floral biology, fruit characteristics, oil percentage, and yield of eleven olive cvs. (‘Arbequina’, ‘Amygdalolia’, ‘Bledy’, ‘Roghani’, ‘Zard’, ‘Sevillana’, ‘Koroneiki’, ‘Conservalia’, ‘Gordal Sevillana’, ‘Manzanilla’, and ‘Mission’) in Kazeroun olive research station, Fars province, Iran. This experiment, conducted in completely randomized blocks design with three replications, was active for five years, 2004 until 2008. The results exhibited morphological trait differences across the cultivars. ‘Amygdalolia’ and ‘Conservalia’ were suitable in subtropical areas for canning and oil, ‘Sevillana’, ‘Manzanilla’, and ‘Gordal Sevillana’ as canning ‘Arbequina’ and ‘Koroneiki’ can be grown as oil cultivars in subtropical climate.
 

Keywords


Bartolini, G., C. Messeri, G. Prevost. 1993. Olive tree germplasm: descriptor list of cultivated varieties in the world. Acta Hort. 356:116–118.
Besnard, G., P. Henry, L. Wille, D. Cooke, E. Chapuis. 2007. On the origin of the invasive olives (Olea europaea L., Oleaceae). Heredity 99:608–19.
Cantini, C., A. Cimato, G. Sani. 1999. Morphological evaluation of olive germplasm present in Tuscany region. Euphytica 109:173–81.
Connell, J.H. 1994. History and scope of the olive industry. University of California, Division of Agriculture and Natural Resources, Oakland, CA, USA 1-9.
Costagli, G., R. Gucci, H.F. Rapoport. 2003. Growth and development of fruits of olive Frantoio under irrigated and rainfed conditions. J. Hort. Sci. Biotech. 78(10):119-124. 
Ferrara, F., G. Lovusso, and F. Lamparelli. 1999. A study of floral biology and the technological features of seven olive cvs. of different origins. Acta Hort. 474:279-283.
Ferrara, E., G. Papa, and L. Lamparelli. 2002. Evaluation of the olive germplasm in the Apulia region: Biological and technological characteristics. Acta Hort. 586:159-162.
Fourati, H., M. Khlif, M. Cossentini. 2003. Comparative study of the pomological and physico-chemical characteristics of thirty cultivars of olive. Olivae 96:33-37.
Fouad, M.M., O.A. Kilany, M.E. Said. 1992. Comparative studies on flowering, fruit set and yields of some olive cultivars under Giza conditions. Egypt.  J. Appl. Sci.  7:630-646.
Galán, C., H. García-Mozo, L. Vázquez, L. Ruiz, C. Díaz de la Guardia, M.M. Trigo. 2005. Heat requirement for the onset of the Olea europaea L. pollen season in several sites in Andalusia and the effect of the expected future climate change. Inter. J. Biomet. 49:184–188.
Green, P.S. 2002. A revision of Olea L. (Oleaceae). Kew Bul. 57:91–140.
Hartmann, H., C. Panetssos. 1961. Effect of soil moisture deficiency during floral development on the fruitfulness in olives. Proc. Amer.  Sci. 78:209-217.
Hegazi, A.A. 2007. A comparative study for identification between seven olive cultivars. a- Morphological identification. Egypt. J. Appl. Sci. 22:164-171.
Hegazi, A.A. 2012. Performance of 12 Introduced Olive Cultivars under Egyptian Conditions. Res. J. Agr. Biol. Sci. 8(2):98-107
Mazinani, M.H., A. Sadeghi, and S.A. Mirman. 2008. Multivariable analysis of intra cultivar variation of a local olive cultivar in the northern part of Iran using morphological trails. Acta Hort. 791:65-71.
Poljuha, D., B. Sladonja, K.B. Bubola,   M.   Radulovic, K.   Brscic, E. Setic, M. Krapac, A. Milotic. 2008. A multidisciplinary approach to the characterisation of autochthonous Istrian olive (Olea europaea L.) varieties. Food Technol. Biotechnol. 46 :347–354.
Porlingis, I.C., D.G. Voyiatzis. 1999. Paclobutrazol decreases the harmful effect of high temperatures on fruit set in olive trees. Acta Hort. 474:241-244.
Riberio, H., L. Sautos, I. Abreu, M. Cunha. 2006. Influence of meteorological parameters on Olea flowering date and airborne pollen concentration in four regions of Portugal. Grana 45:115-121.
Rosati, A., M. Zipancic, S. Caporali, A. Paoletti. 2010. Fruit set in inversely related to flower and fruit weight in olive (Olea europaea L.). Sci. Hort. 120:200-204.
Sarri, V., L. Baldoni, A. Porceddu, N.G.M. Cultrera, A. Contento, M. Frediani, A. Belaj, I. Trujillo, P.G. Cionini. 2006. Microsatellite markers are powerful tools for discriminating among olive cultivars and assigning them to geographically defined populations. Genome 49:1606-1615.
Shatat, F., and J. Swwan. 1986. Effect of inflorescence position on the tree and on shoots on flower development and flower type in the olive. Dirasat 11(2):171-185.
Sheidai, M., Z. Noormohammadi, A.R. Dehghani, F. Parvini,  H. Hoshiar-Parsiana, M. Hosseini-Mazinanic. 2010. Intra-specific morphological and molecular diversity in brown olive (Olea cuspidata) of Iran. Sci. Asia 36:187–193.
Therios, I. 2009. Olives. School of Agriculture. Aristotle University. Thessaloniki. Greece.
Zohary, D. 1994. The wild genetic resources of the cultivated olive. Acta Hort. 356:62–5.