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Vol. 3 No. 2 (2004)

Articles

Effect of boron fertilization on vigor, yielding and fruit quality of ʻJerseyʼ highbush blueberry

DOI: https://doi.org/10.24326/asphc.2004.2.13
Submitted: March 25, 2022
Published: 2004-12-30

Abstract

The aim of the study was to examine response of ‘Jersey’ highbush blueberry to boron (B) fertilization. The experiment was carried out in 2002-2003 at a private plantation in Central Poland on mature blueberries planted on a sandy loam soil with pH 4.1, low organic matter status, and medium available B content. Blueberries were supplied with B by foliar applications or broadcasting. Foliar B sprays were done in the spring or the fall. Spring B sprays were performed at the beginning of blooming, at petal fall, and 3 and 6 weeks after the ending of flowering. In each spring spray treatment, B was used at a
rate of 0.2 kg ha-1. Fall B spray was done 5 weeks after fruit harvest using 0.8 kg B ha-1. Soil B was applied at the stage of bud break at a rate of 2 kg ha-1. Blueberries unfertilized with B served as control. The results showed that soil B application and spring B sprays increased B status in flowers and leaves. However, B fertilization, regardless of application mode, had no effect on plant vigor, the number of flowers per cane, fruit set, mean  fruit weight, berry firmness, and yielding. Berries of blueberries sprayed with B in the spring had increased soluble solids concentrations. It is concluded that: (i) B fertilizer requirements of ‘Jersey’ highbush blueberry are low, and (ii) at hot water extractable B concentration in a soil below 0.37 mg kg-1 and/or at B status in leaves of current season shoots below 37 mg kg-1, spring B sprays should be applied in blueberry culture to increase soluble solids concentration in fruit. 

References

Allison L. E., 1965. Organic carbon. In: Methods of soil analysis, D. D. Black, J. L. Evans, I. E.
White, F. E. Engminger, I. E. Clark (Eds.); American Society of Agronomy, Madison, WI, 1367–1378.
Berger K. C., Truog E., 1944. Boron tests and determination for soil and plants. Soil Sci. 57, 25–36.
Brown P. H., Hu H., 1996. Phloem mobility of boron is species dependent: evidence for phloem mobility in sorbital-rich species. Ann. Bot. 77, 497–505.
Gough R. E., 1996. Blueberries – North and South. J. Small Fruit Viticulture. 4, 106–152.
Grześkowiak A., 1996. Nawozy mineralne we współczesnym rolnictwie. [In:] Nawożenie mineralne roślin uprawnych; R. Czuba (ed.); Zakłady Chemiczne "Police" SA, Police, 17–56.
Gupta U. C., 1979. Boron nutrition of crops. Adv. Agron. 31, 273–307.
Hanson E. J., 2000. Foliar boron sprays do not affect highbush blueberry production. Small Fruit Rev. 1, 35–41.
Hanson E. J., Hancock J. F., 1996. Managing the nutrition of highbush blueberries. Extension Bulletin E-2011. Michigan State University, East Lansing, MI, 1–12.
Marschner H., 1995. Mineral nutrition of higher plants. Academic Press, London.
Olszak E., Bielenin A., 1999. Program ochrony roślin; Agrosan, Sandomierz.
Ostrowska A., Gawliński S., Szczubiałka Z., 1991. Metody analizy i oceny właściwości gleb i roślin; Instytut Ochrony Środowiska, Warszawa.
Pliszka K., 2002. Borówka wysoka. PWRiL, Warszawa.
Shorrocks V. M., 1997. The occurrence and correction of boron deficiency. Plant Soil, 193, 121–148.
Smolarz K., 2003. Uprawa borówki i Żurawiny. Hortpress, Warszawa.
Woodbridge C. G., Drew R. H., 1960. A boron deficiency dieback in highbush blueberries. Plant Dis. Rept. 44, 855–857.
Wójcik P., 2003. The importance of boron in apple production. In: Crop management and postharvest handling of horticultural crops. III. Crop fertilization, nutrition and growth; Dris R.,
Niskanen R., Jain S. M., Eds. Science Publishers, Inc., Enfield (NH), USA, 77–92.

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