Biologia plantarum 2015, 59:726-734 | DOI: 10.1007/s10535-015-0547-5

The possible role of chilling in floral and vegetative bud dormancy release in Pyrus pyrifolia

S. Hussain1, Q. Niu1, F. Yang1, N. Hussain2, Y. Teng1,*
1 Department of Horticulture, The State Agricultural Ministry's Key Laboratory of Horticultural Plant Growth, Development and Quality Improvement, Zhejiang University, Hangzhou, P.R. China
2 Key Laboratory of Crop Gene Resources of Zhejiang Province, College of Agriculture and Biotechnology, Zhejiang University, Hangzhou, P.R. China

The role of chilling in bud dormancy release and biochemical changes in different organs were evaluated in stem cuttings of pear (Pyrus pyrifolia) cv. Cuiguan selected at the leaf fall. The cuttings were exposed to 5 °C for 0, 100, 200, 300, 400, 500, 600, and 700 chilling hours (named positive chill units; PCU). A 50 % bud break was observed in floral and vegetative bud cuttings at 300 and 600 PCU, respectively. A mean time to bud break was inversely proportional to the chilling treatment. The low-temperature stimulated starch hydrolysis accompanied with sucrose accumulation in all organs. Sucrose and sorbitol content increased substantially peaking at 100, 400, and 100 PCU in floral buds, vegetative buds, and bark, respectively, thereafter decreased when buds approached chilling satisfaction (300 and 600 PCU for the floral and vegetative buds, respectively), and then increased again up to 700 PCU. Hexoses (glucose and fructose) accumulated constantly in the buds from 0 to 700 PCU. In bark, glucose and fructose content increased up to 400 PCU, and then gradually decreased. Total amylolytic and α-amylase activities increased in all organs, especially in the floral and vegetative buds up to 100 PCU and then decreased in the floral and vegetative buds before increasing again after endo-dormancy release. Invertase activity remained high in the buds during chilling satisfaction possibly because of translocation of sucrose to the buds which functioned as a strong sink. The results suggest that a low availability of hexoses may be the cause of limited bud breaks due to lack of chilling. Chilling satisfaction of the buds may increase the content of soluble sugars and acid invertase activity, and decrease the starch content, which may correlate with improved bud breaks.

Keywords: amylase; fructose; glucose; invertase; pear; sorbitol; starch; stem cuttings; sucrose
Subjects: chilling; temperature - low; bud dormancy; amylases; fructose; glucose; invertase; sorbitol; starch; sucrose; pear
Species: Pyrus pyrifolia

Received: January 15, 2015; Revised: March 19, 2015; Accepted: March 31, 2015; Published: December 1, 2015Show citation

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Hussain, S., Niu, Q., Yang, F., Hussain, N., & Teng, Y. (2015). The possible role of chilling in floral and vegetative bud dormancy release in Pyrus pyrifolia. Biologia plantarum59(4), 726-734. doi: 10.1007/s10535-015-0547-5.
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    References

    1. Ameglio, T., Alves, G., Decourteix, M., Poirier, M., Bonhomme, M., Guilliot, A., Sakr, S., Brunel, N., Petel, G., Rageau, R., Cochard, H., Julien, J.L., Lacointe, A.: Winter biology in walnut tree: freezing tolerance by cold acclimation and embolism repair. - Acta Hort. 705: 241-249, 2005. Go to original source...
    2. Arroyo, A., Bossi, F., Finkelstein, R.R., Leon, P.: Three genes that affect sugar sensing (abscisic acid insensitive 4, abscisic acid insensitive 5 and constitute triple response 1) are differentially regulated by glucan in Arabidopsis. - Plant Physiol. 133: 231-242, 2003. Go to original source...
    3. Azymi, S., Sofalian, O., Jahanbakhsh, G.S., Khomari, S.: Effect of chilling stress on soluble protein, sugar and prolin accumulation in cotton (Gossypium hirsutum L.) genotypes. - Int. J. Agr. Crop Sci. 4: 825-830, 2012.
    4. Balandier, P., Bonhomme, M., Rageau, R., Capitan, F., Parisot, E.: Leaf bud endo dormancy release in peach trees: evaluation of temperature models in temperate and tropical climate. - Agr. Forest. Meteorol. 67: 95-113, 1993. Go to original source...
    5. Ben Mohamed, H., Vadel, A.M., Geuns, J.M.C., Khemira, H.: Biochemical changes in dormant grape vines shoot tissues in response to chilling: possible role in dormancy release. - Scientia Hort. 124: 440-447, 2010. Go to original source...
    6. Bonhomme, M., Regeau, R., Lacointe, A., Gendraud, M.: Influences of cold deprivation during dormancy on carbohydrate contents of vegetative and floral primordial and nearby structures of peach buds (Prunus persica L. Batch). - Scientia Hort. 105: 223-240, 2005. Go to original source...
    7. Cook, N.C., Bellstedt, D.U.: Chilling response of 'Granny Smith' apple lateral buds inhibited by distal shoot tissues. - Scientia Hort. 89: 299-308, 2001. Go to original source...
    8. Dennis, F.G.: Problems in standardizing methods for evaluating the chilling requirements for the breaking of dormancy in buds of woody plants. - Hort. Sci. 38: 347-350, 2003. Go to original source...
    9. Egea, J., Ortega, E., Martínez-Gómez, P., Dicenta, F.: Chilling and heat requirements of almond cultivars for flowering. - Environ. exp. Bot. 50: 79-85, 2003. Go to original source...
    10. Elle, D., Sauter, J.J.: Seasonal changes of activity of a starch granule bound endoamylase and of a starch phosphorylase in poplar wood (Populus × canadensis Moench ) and their possible regulation by temperature and phytohormones. - J. Plant Physiol. 156: 731-740, 2000. Go to original source...
    11. Galet, P.: Précis de Viticulture. 6th Ed. - Dhean Press, Montpelier 1993. [In French]
    12. Gibson, S.I.: Plant sugar-response pathways: part of a complex regulatory web. - Plant Physiol. 124: 1532-1539, 2000. Go to original source...
    13. González-Rossia, D., Reig, C., Dovis, V., Gariglio, N., Agustí, M.: Changes on carbohydrates and nitrogen content in the bark tissues induced by artificial chilling and its relationship with dormancy bud break in Prunus sp. - Scientia Hort. 118: 275-281, 2008. Go to original source...
    14. Halaly, T., Pang, X., Batikoff, T., Crane, O., Keren, A., Venkateswari, J., Ogrodovitch, A., Sadka, A., Lavee, S., Or, E.: Similar mechanisms might be triggered by alternative external stimuli that induce dormancy release in grape buds. - Planta 228: 79-88, 2008. Go to original source...
    15. Huang, C., Yu, B., Teng, Y., Su, J., Shu, Q., Cheng, Z., Zeng, L.: Effects of fruit bagging on coloring and related physiology, and qualities of red Chinese sand pears during fruit maturation. - Scientia Hort. 121: 149-158, 2009. Go to original source...
    16. Hussain, S., Liu, G., Liu, D., Ahmed, M., Hussain, N., Teng, Y.: Study on the expression of dehydrin genes and activities of antioxidative enzymes in floral buds of two sand pear (Pyrus pyrifolia Nakai) cultivars requiring different chilling for budbreak. - Turkish J. Agr. Forest. doi:10.3906/tar-1407-164, 2015. Go to original source...
    17. Klinac, D.C., Geddes, B.: Incidence and severity of the floral 'budjump' on nashi grown in the Waikato region of New Zealand. - New Zeal. J. Crop hort. Sci. 23: 185-190, 1995. Go to original source...
    18. Koch, K.: Sucrose metabolism: regulatory mechanisms and pivotal roles in sugar sensing and plant development. - Curr. Opin. Plant Biol. 7: 235-246, 2004. Go to original source...
    19. Komatsu, A., Takanokura, Y., Moriguchi, T., Omura, M., Akihama, T.: Differential expression of three sucrosephosphate synthase isoforms during sucrose accumulation in citrus fruits. - Plant Sci. 140: 169-178, 1999. Go to original source...
    20. Koussa, T., Rifai, L.A., Cherrad, M.: Annual variations pf alpha-amylase and invertases activities in buds and internodes of grape vines and their relation with carbohydrates and abscisic acid content. - J. Int. Sci. Vigne. Vin. 39: 129-136, 2005.
    21. Lang, G.A., Early, J.D., Martin, G.C., Darnell, R.L.: Endo-para and eco-dormancy: physiological terminology and classification for dormancy research. - Hort. Sci. 22: 371-377, 1987.
    22. Leite, G.B., Bonhomme, M., Lacointe, A., Rageau, R., Sakr, S., Guilliot, A., Maurel, K., Pétel, G., Couto-Rodrigues, A.: Influence of lack of chilling on bud-break patterns and evolution of sugar contents in buds and stem tissues along the one-year old shoot of the peach trees. - Acta hort. 662: 61-71, 2004. Go to original source...
    23. Linsley-Noakes, G.C., Louw, M., Allan, P.: Estimating daily positive Utah chill units using daily maximum and minimum temperatures. - J. S. Afr. Soc. hort. Sci. 5: 19-22, 1995.
    24. Liu, G.: Studies on Molecular Mechanism of Pear Dormancy. PhD Thesis, College of Agriculture and Biotechnology, Zhejiang University, Hangzhou 2013.
    25. Liu, G., Li, W., Zheng, P., Xu, T., Chen, L., Liu, D., Hussain, S., Teng, Y.: Transcriptomic analysis of 'suli' pear (Pyrus pyrifolia white pear group) buds during the dormancy by RNA-Seq. - BMC Genomics 13: 700, 2012. Go to original source...
    26. Marafon, A.C., Citadin, I., Amarante, L., Herter, F.G., Hawerroth, F.J.: Chilling privation during dormancy period and carbohydrate mobilization in Japanese pear trees. - Sci. Agr. 68: 462-468, 2011. Go to original source...
    27. Marquat, C., Vandamme, M., Gendraud, M., Petal, G.: Dormancy in vegetative bud of peach: relation between carbohydrate absorption potentials and carbohydrate concentration in the bud during dormancy and its release. - Scientia Hort. 79: 151-162, 1999. Go to original source...
    28. Mauget, J.C., Rageau, R.: Bud dormancy and adaptation of apple tree in mild winter climates. - Acta hort. 232: 101-108, 1988. Go to original source...
    29. Maurel, K., Leite, G.B., Bonhomme, M., Guilliot, A., Rageau, R., Pétel, G., Sakr, S.: Trophic control of budbreak in peach (Prunus persica) trees: a possible role of hexoses. - Tree Physiol. 24: 579-588, 2004. Go to original source...
    30. Oh, S., Klinac, D.: Relationship between incidence of floral bud death and temperature fluctuation during winter in Japanese pear (Pyrus pyrifolia) cv. Housui under New Zealand climate conditions. - J. korean Soc. hort. Sci. 44: 162-166, 2003.
    31. Petri, J.L., Herter, F.G.: Nashi pear (Pyrus pyrifolia) dormancy under mild temperate climate conditions. - Acta hort. 587: 353-361, 2002. Go to original source...
    32. Petri, J.L., Leite, G.B., Yasunobu, Y.: Studies on causes of floral abortion in Japanese pear (Pyris pyrifolia Nakai) in southern Brazil. - Acta hort. 587: 375-380, 2002. Go to original source...
    33. Powell, L.E.: Hormonal aspects of bud and seed dormancy in temperate zone woody plants. - Hort. Sci. 22: 845-850, 1987.
    34. Roitsch, T., González, M.C.: Function and regulation of plant invertases: sweet sensations. - Trend Plant Sci. 19: 606-613, 2004. Go to original source...
    35. Rose, R., Rose, C.L., Omi, S.K., Forry, K.R., Dural, D.M., Bigg, W.L.: Starch determination by perchloric acid vs. enzymes: evaluating the accuracy and precision of six colorimetric methods. - J. Agr. Food Chem. 39: 2-11, 1991. Go to original source...
    36. Sauter, J.J.: Temperature-induced changes in starch and sugars in the stem of Populus × canadensis 'Robusta'. - J. Plant Physiol. 132: 608-612, 1988. Go to original source...
    37. Sheen, J., Zhou, L., Jang, J.C.: Sugars as signaling molecules. - Curr. Opin. Plant Biol. 2: 410-418, 1999. Go to original source...
    38. Sherson, S.M., Alford, H.L., Forbes, S.M., Wallace, G., Smith, S.M.: Roles of cell wall invertases and monosaccharide transporters in the growth and development of Arabidopsis. - J. exp. Bot. 54: 525-531, 2003. Go to original source...
    39. Smeekens, S.: Sugar-induced signal transduction in plants. - Annu. Rev. Plant Physiol. Plant mol. Biol. 51: 49-81, 2000. Go to original source...
    40. Strum, A.: Molecular characterization and functional analysis of sucrose cleaving enzymes in carrot (Daucus carota L.). - J. exp. Bot. 47: 1187-1192, 1996. Go to original source...
    41. Swanson, C.A., El-Shishiny, E.D.H.: Translocation of sugars in the Concord grape. - Plant Physiol. 33: 33-37, 1958. Go to original source...
    42. Teng, Y., Chen, L., Cai, D., Wang, T., Huang, X.: Effect of reflective film on sugar accumulation and sucrosemetabolizing enzyme activities of 'Cuiguan' pear under plastic tunnel culture. - Acta hort. 1015: 59-66, 2014. Go to original source...
    43. Trejo-Martínez, M.A., Orozco, A., Almaguer-Vargas, G., Carvajal-Millán, E., Gardea, A.A.: Metabolic activity of low chilling grape vine buds forced to budbreak. - Thermochim. Acta 481: 28-31, 2009. Go to original source...
    44. Wang, S.Y., Ji, Z.L., Faust, M.: Metabolic changes associated with bud break induced by thidiazuron. - J. Plant Growth Regul. 6: 85-95, 1987. Go to original source...
    45. Yoshioka, H., Nagal, K., Aoba, K., Fukumoto, M.: Seasonal changes of carbohydrates metabolism in apple trees. - Scientia Hort. 36: 219-227, 1988. Go to original source...
    46. Young, E., Motomura, Y., Unrath, C.R.: Influence of root temperature during dormancy on respiration, carbohydrates, and growth resumption in apple and peach. - J. amer. Soc. hort. Sci. 112: 514-519, 1987.

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