Research Article
BibTex RIS Cite

Olgunlaşma Süresince Kiraz Meyvelerinde Çap Değişimleri

Year 2004, Volume: 17 Issue: 1, 1 - 7, 01.06.2004

Abstract

Bu çalışmada, meyve çapındaki değişimlerin olgunlaşma üzerine etkisi ve sudan kaynaklanan meyve çatlama mekanizmasının belirlemesi amaçlanmıştır. Araştırma sonuçları, kabuk yüzeyinden su alımı yoluyla oluşan hacim artışının meyvede çatlamaya neden olan kritik bir faktör olmadığını göstermiş ve meyve olgunlaşması üzerindeki gözlemler, bu süreçte bazı düzensizliklerin olduğunu koymuştur. Meyve su içeriğindeki sabit değişimler, meyve içi lokal su dengesinde farklılıklar yaratmıştır. Bu durumun turgor basıncını etkileyebileceği düşünülmüş ve bu olayın çatlama mekanizması üzerine etkisi tartışılmıştır.

References

  • Antoszewski, R. 1974. Accumulation of nutrients in the strawberry as related to water transport and the growth pattern of strawberry receptable. Proc. 19-th Inter. Hort. Congress, 2, 167-176.
  • Belmans, K. and Keulemans, J., 1996. A study of some fruit skin characteristics in relation to the susceptibility of cherry fruit to cracking. Acta Hort. 410, 547-550.
  • Chaney, W.R., 1981. Sources of water. In: Water Deficits and Plant Growth. Vol. 6 (Ed. by T.T. Kozlowski). Academic Press, London.
  • Cline, J., Sekse, L., Meland, M., and Webster, A.D., 1995. Rain-induced fruit cracking of sweet cherries: I. Influence of cultivar and rootstock on fruit water absorption, cracking and quality. Acta Agric. Scand. Sect. B, Soil and Plant Sci. 45, 213-223,
  • Garnier, E. and Berger, A., 1986. Effect of water stress on stem diameter changes of peach trees growing in the field. Journal of Applied Ecology 23, 193-209.
  • Klamkowski, K. and Treder, W., 2000a. Wpływ stresu wodnego na dynamikę przyrostu średnicy pędu głównego jabłoni. Zesz. Nauk. Inst. Sadow. Kwiac. 8, 143-148.
  • Klamkowski, K. and Treder, W., 2000b. Zmienność mikromorfometryczna występująca w trakcie dojrzewania owoców truskawki. Rocz. AR Poznań, CCCXXIII, Ogrod. 31, 395-399.
  • Kozlowski, T. T. 1968. Diurnal changes in diameters of fruits and tree stems of Montmorency cherry. J. Hort. Sci. 43, 1-15.
  • Michelakis, N. 1997. Daily stem radius variations as indicators to optimise olive tree irrigation scheduling. Acta Hort. 449, 297-304.
  • Sekse, L. 1995. Fruit cracking in sweet cherries (Prunus avium L.). Some physiological aspects – a mini review. Sci. Hort. 63, 135-141.
  • Sekse, L. 1998a. Fruit cracking mechanisms in sweet cherries (Prunus avium L.) – a review. Acta Hort. 468, 637-648.
  • Sekse, L. 1998b. Cuticular fractures in fruits of sweet cherry (Prunus avium L.) affect fruit quality negatively and their development is influenced by cultivar and rootstock. Acta Hort. 468, 671-676.
  • Szweykowska, A. and Szweykowski, J., 1994. Botanika, 2. PWN, Warszawa, Poland.
  • Tukey, L. D. 1962. Factors affecting rhythmic diurnal enlargement and contraction in fruits of the apple (Malus Domestica Bork.) Proc. 16-th Inter. Hort. Congress, 3, 328-336.
  • Vanniere, H. 1992. Use of micrometric variations in clementine stem and fruit diameters for irrigation management. Fruits Paris 47, 219-227.
  • Vittrup Christensen, J. 1976. Revnedannelse i kirsebaer (Cracking in cherries). Tidsskrift for Planteavl 80: 289-324.
  • Vittrup Christensen, J. 1996. Rain-induced cracking of sweet cherries: its causes and prevention. In: Cherries: crop physiology, production and uses (Webster, A. D. and Looney, N. E., eds.), CAB International, Oxon, UK.
  • Yamamoto, T., Hosoi, K., Sasahara, I. and Satoh, H., 1993. Cracking susceptibility and distribution of surface stress of fruit in apple cultivars. Bulletin of the Yamagata University (Agricultural Science) 11, 727-747.
  • Yamamoto, T. and Satoh, H., 1994. Relationship among berry cracking susceptibility, berry morphology and skin stress distribution in several grape cultivars. J. Jap. Soc. Hort. Sci. 63, 247-256.

Changes in Diameters of Sweet Cherry Fruits During Ripening Process

Year 2004, Volume: 17 Issue: 1, 1 - 7, 01.06.2004

Abstract

The aim of this study was to learn the process of cherry fruit ripening, using analysis of changes in fruit diameter, and attempt to learn the mechanism of water-induced cracking of cherry fruit. It was found that an increase of fruit volume as a result of water uptake through the fruit skin was not critical factor in fruit cracking. The investigations of the fruit ripening revealed irregularities of this process. Constant changes in fruit hydration manifesting themselves in its capacity changes influence the local water balance. It might affect the existing turgor pressure of the fruit. The role, this pressure play in fruit cracking mechanism is discussed.

References

  • Antoszewski, R. 1974. Accumulation of nutrients in the strawberry as related to water transport and the growth pattern of strawberry receptable. Proc. 19-th Inter. Hort. Congress, 2, 167-176.
  • Belmans, K. and Keulemans, J., 1996. A study of some fruit skin characteristics in relation to the susceptibility of cherry fruit to cracking. Acta Hort. 410, 547-550.
  • Chaney, W.R., 1981. Sources of water. In: Water Deficits and Plant Growth. Vol. 6 (Ed. by T.T. Kozlowski). Academic Press, London.
  • Cline, J., Sekse, L., Meland, M., and Webster, A.D., 1995. Rain-induced fruit cracking of sweet cherries: I. Influence of cultivar and rootstock on fruit water absorption, cracking and quality. Acta Agric. Scand. Sect. B, Soil and Plant Sci. 45, 213-223,
  • Garnier, E. and Berger, A., 1986. Effect of water stress on stem diameter changes of peach trees growing in the field. Journal of Applied Ecology 23, 193-209.
  • Klamkowski, K. and Treder, W., 2000a. Wpływ stresu wodnego na dynamikę przyrostu średnicy pędu głównego jabłoni. Zesz. Nauk. Inst. Sadow. Kwiac. 8, 143-148.
  • Klamkowski, K. and Treder, W., 2000b. Zmienność mikromorfometryczna występująca w trakcie dojrzewania owoców truskawki. Rocz. AR Poznań, CCCXXIII, Ogrod. 31, 395-399.
  • Kozlowski, T. T. 1968. Diurnal changes in diameters of fruits and tree stems of Montmorency cherry. J. Hort. Sci. 43, 1-15.
  • Michelakis, N. 1997. Daily stem radius variations as indicators to optimise olive tree irrigation scheduling. Acta Hort. 449, 297-304.
  • Sekse, L. 1995. Fruit cracking in sweet cherries (Prunus avium L.). Some physiological aspects – a mini review. Sci. Hort. 63, 135-141.
  • Sekse, L. 1998a. Fruit cracking mechanisms in sweet cherries (Prunus avium L.) – a review. Acta Hort. 468, 637-648.
  • Sekse, L. 1998b. Cuticular fractures in fruits of sweet cherry (Prunus avium L.) affect fruit quality negatively and their development is influenced by cultivar and rootstock. Acta Hort. 468, 671-676.
  • Szweykowska, A. and Szweykowski, J., 1994. Botanika, 2. PWN, Warszawa, Poland.
  • Tukey, L. D. 1962. Factors affecting rhythmic diurnal enlargement and contraction in fruits of the apple (Malus Domestica Bork.) Proc. 16-th Inter. Hort. Congress, 3, 328-336.
  • Vanniere, H. 1992. Use of micrometric variations in clementine stem and fruit diameters for irrigation management. Fruits Paris 47, 219-227.
  • Vittrup Christensen, J. 1976. Revnedannelse i kirsebaer (Cracking in cherries). Tidsskrift for Planteavl 80: 289-324.
  • Vittrup Christensen, J. 1996. Rain-induced cracking of sweet cherries: its causes and prevention. In: Cherries: crop physiology, production and uses (Webster, A. D. and Looney, N. E., eds.), CAB International, Oxon, UK.
  • Yamamoto, T., Hosoi, K., Sasahara, I. and Satoh, H., 1993. Cracking susceptibility and distribution of surface stress of fruit in apple cultivars. Bulletin of the Yamagata University (Agricultural Science) 11, 727-747.
  • Yamamoto, T. and Satoh, H., 1994. Relationship among berry cracking susceptibility, berry morphology and skin stress distribution in several grape cultivars. J. Jap. Soc. Hort. Sci. 63, 247-256.
There are 19 citations in total.

Details

Primary Language English
Subjects Agricultural Engineering
Journal Section Articles
Authors

W. Treder This is me

K. Klamkowskı This is me

P. Wójcık This is me

Publication Date June 1, 2004
Published in Issue Year 2004 Volume: 17 Issue: 1

Cite

APA Treder, W., Klamkowskı, K., & Wójcık, P. (2004). Changes in Diameters of Sweet Cherry Fruits During Ripening Process. Akdeniz University Journal of the Faculty of Agriculture, 17(1), 1-7.
AMA Treder W, Klamkowskı K, Wójcık P. Changes in Diameters of Sweet Cherry Fruits During Ripening Process. Akdeniz University Journal of the Faculty of Agriculture. June 2004;17(1):1-7.
Chicago Treder, W., K. Klamkowskı, and P. Wójcık. “Changes in Diameters of Sweet Cherry Fruits During Ripening Process”. Akdeniz University Journal of the Faculty of Agriculture 17, no. 1 (June 2004): 1-7.
EndNote Treder W, Klamkowskı K, Wójcık P (June 1, 2004) Changes in Diameters of Sweet Cherry Fruits During Ripening Process. Akdeniz University Journal of the Faculty of Agriculture 17 1 1–7.
IEEE W. Treder, K. Klamkowskı, and P. Wójcık, “Changes in Diameters of Sweet Cherry Fruits During Ripening Process”, Akdeniz University Journal of the Faculty of Agriculture, vol. 17, no. 1, pp. 1–7, 2004.
ISNAD Treder, W. et al. “Changes in Diameters of Sweet Cherry Fruits During Ripening Process”. Akdeniz University Journal of the Faculty of Agriculture 17/1 (June 2004), 1-7.
JAMA Treder W, Klamkowskı K, Wójcık P. Changes in Diameters of Sweet Cherry Fruits During Ripening Process. Akdeniz University Journal of the Faculty of Agriculture. 2004;17:1–7.
MLA Treder, W. et al. “Changes in Diameters of Sweet Cherry Fruits During Ripening Process”. Akdeniz University Journal of the Faculty of Agriculture, vol. 17, no. 1, 2004, pp. 1-7.
Vancouver Treder W, Klamkowskı K, Wójcık P. Changes in Diameters of Sweet Cherry Fruits During Ripening Process. Akdeniz University Journal of the Faculty of Agriculture. 2004;17(1):1-7.