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Pollination requirements of loquat (Eriobotrya japonica Lindl.), cv. `Algerie'

Published online by Cambridge University Press:  15 April 2003

Julián Cuevas
Affiliation:
Department of Crop Production, University of Almería, La Cañada de San Urbano s/n, 04120 Almería, Spain
Juan José Hueso
Affiliation:
Experimental Station “Las Palmerillas”, Caja Rural Intermediterránea, Autovía del Mediterráneo, km. 419, 04710 Almería, Spain
Moisés Puertas
Affiliation:
Department of Crop Production, University of Almería, La Cañada de San Urbano s/n, 04120 Almería, Spain
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Abstract

Introduction. Loquat shares with other pomes, such as apple (Malus domestica) and pear (Pyrus communis), flowering habits, but, in contrast with them, the tree is considered a self-compatible species. However, when planted in solid blocks under mesh, low fruit set and small fruit size are often reported. To explore in which way restrictions of bee activity and/or impediments for cross-pollination can be responsible for low productivity and poor fruit quality, we carried out controlled pollination on flowers of loquat cv. Algerie. Materials and methods. A first experiment checked cross-pollination response by comparing fruit set and quality from self-, open-, and cross-pollinated flowers. A second experiment explored poor pollination effects by modifying the number of stigmas being hand cross-pollinated. Results. Cv. Algerie loquat flowers cross-pollinated with pollen of cvs. `Tanaka' and `Golden Nugget' loquat flowers produced more fruits of higher quality (larger, heavier and more precocious) than flowers under self-pollination. Benefits of cross-pollination can be explained by an earlier and higher level of fertilization. Observations under microscopy showed, however, that self-incompatibility of cv. Algerie flowers is not complete, and a certain level of self-fertilization occurs. The second experiment demonstrated that limiting the number of stigmas pollinated resulted in a significant reduction in the number of seeds formed that, in turn, affected fruit size and shape. Flowers with only one stigma pollinated seldom formed more than two seeds while flowers with all five stigmas pollinated produced fruit with an average of four seeds. Conclusion. Our results emphasize a dependence of cv. Algerie flower pollination on both adequate activity of pollinator insects and appropriate placement of pollinizers.

Type
Research Article
Copyright
© CIRAD, EDP Sciences

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References

Smock, R.M., Morphology of the flower and fruit of the loquat, Hilgardia 10 (15) (1937) 615-627.
Lin, S., Sharpe, R.H., Janick, J., Loquat: botany and horticulture, Hortic. Rev. 23 (1999) 233-276.
Morton J.F., Loquat, in: Fruits of warm climates, Creat. Resour. Syst., Miami, USA, 1987, pp. 103-108.
Rodríguez A., El cultivo del níspero y el valle del Algar-Guadalest, Ed. Soc. Coop. Crédit. Callosa d'Ensarriá, Alicante, Spain, 1983.
Campbell C.W., Malo S.E., The loquat, IFAS Fact Sheets 5, Univ. Fla, Gainesville, USA, 1986.
Mc Gregor S.E., Loquat, in: Insect pollination of cultivated crop plants, Agriculture Handbook, No 496, US Gov. Print. Off., Washington, DC, USA, 1976.
Caballero P., Fernández M.A., Loquat, production and market, in: Llácer G. (Ed.), Proc. I Int. Symp. Loquat, Valencia, Spain, 2002, pp. 11-15.
Martínez-Calvo, J., Badenes, M.L., Llácer, G., El níspero del Japón, Agríc. Vergel 217 (2000) 24-33.
Salvador-Sola F.J., Predicción del tama no del fruto en níspero japonés (Eriobotrya japonica Lindl.). Determinación de los niveles óptimos de aclareo de frutos, Proy. fin carrera, Univ. Almería, Spain, 1999, 80 p.
Martin, F.W., Staining and observing pollen tubes in the style by means of fluorescence, Stain Technol. 34 (1959) 125-128. CrossRef
Stösser, R., Anvari, S.F., Pollen tube growth and fruit set as influenced by senescence of stigma, styles, and ovules, Acta Hortic. 139 (1983) 13-22. CrossRef
Hodgson, R.W., Moore, P.W., Fruit thinning experiments with the loquat, Proc. Am. Soc. Hortic. Sci. 42 (1943) 187-192.
Oppenheimer, C., Reuveni, O., Flowering and pollination of the loquat (Eriobotrya japonica Lindl.) in Israel, Indian J. Hortic. 18 (2) (1961) 97-105.
Crescimanno, F.G., Ricerche sulla biologia fiorale del nespolo del Giapone, Riv. Ortoflorofruttic. Ital. 83 (1958) 107-120.
Stern, R.A., Gazit, S., El-Batsri, R., Degani, C., Pollen parent effect on outcrossing rate, yield, and fruit characteristics of `Floridian' and `Mauritius' lychee, J. Am. Soc. Hortic. Sci. 118 (1) (1993) 109-114.
Degani C., Goldring A., Adato I., El-Batsri R., Gazit S., Pollen parent effect on outcrossing rate, yield, and fruit characteristics of `Fuerte' avocado. HortScience 25 (1990) 471-473.
Modlibowska, I., Pollen tube growth and embryo-sac development in apples and pears, J. Pomolog. Hortic. Sci. 21 (1945) 57-89.
Yamashita, K., Saita, H., Hashimoto, N., Pollen-stigma interaction which might be critical to the gametophytic incompatibility of Japanese pear, J. Jpn. Soc. Hortic. Sci. 59 (1990) 83-89. CrossRef
Kaufane, E., Rumpunen, K., Pollination, pollen tube growth and fertilization in Chaenomeles japonica (Japanese quince), Sci. Hortic. 94 (2002) 257-271.
Pimienta, E., Polito, V.S., Ovule abortion in `Nonpareil' almond [Prunus dulcis (Mill.) D.A. Webb], Am. J. Bot. 69 (6) (1982) 913-920. CrossRef
Khan B.M., Shahid M., Chaudry M.I., Effect of honey bee pollination on the fruit setting and yield of loquat, Pakistan J. Forest. (1986) 73-77.