Abstract
Determination of chilling and heat requirements is respected in the selection of the suitable cultivars for producers to avoid damages caused by an inadequate winter chilling in a certain area. It also play an important role within a breeding program, when selecting parents to get late or early flowering cultivars. The present study aimed to estimate the chilling and heat requirements of breaking bud dormancy for flowering and vegetative growth in three Iranian almond cultivars in an orchard located in the suburbs of Garmdarreh (32.45°N; 50.91°E; altitude 1960 m). The three almond cultivars had different flowering times, i.e. early: ʻMohebʼ, medium: ʻMamaieʼ and late: ʻRabiʼ. To provide adequate chilling, fourteen-year-old trees were exposed to low temperature treatments (4 ± 1 °C) to simulate 0–1500 h of chilling at 250 h intervals. The cultivars varied in their chilling and heat requirements in terms of chilling hours and growing degree hours, GDH, to achieve bud break for flowering, i.e. ‘Moheb’ (250 h and 2132 GDH), ‘Mamaie’ (500 h and 2460 GDH) and ‘Rabi’ (500 h and 2624 GDH). To achieve bud break for leaf growth, the late-leafing cultivar (‘Rabi’) required 750 chilling hours and a heat requirement of 3608 GDH. The earlier-leafing cultivars (‘Moheb’ and ‘Mamaie’) had lower heat requirements for leaf unfolding. Although ‘Rabi’ and ‘Mamaie’ had similar chilling requirements of 500 h, ‘Rabi’ required almost a week (168 h) of warm weather after chilling to achieve bud break. This implies that spring frost is rarely a problem for ‘Rabi’ in Iran. ‘Moheb’ was not suitable because of its low chilling and heat requirements, hence its inability to escape early spring frosts and late winter cold.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Data availability
The data that support the findings of this study are available from the corresponding author, [S.N], upon reasonable request.
References
Alburquerque N, Garcia-Montiel F, Carrillo A, Burgos L (2008) Chilling and heat requirements of sweet cherry cultivars and the relationship between altitude and the probability of satisfying the chill requirements. Environ Exp Bot 64:162–170
Alonso JM, Ansón JM, Espiau MT, Socias I, Company R (2005) Determination of endodormancy break in almond flower buds by a correlation model using the average temperature of different day intervals and its application to the estimation of chill and heat requirements and blooming date. Am Soc Hortic Sci 130:308–318
Alonso JM, Espiau MT, Anson JM, Company RSI (2003) Development of a method to estimate flower bud dormancy breaking in almond. Paper presented at the Meeting of the Mediterranean Research Group for Almond and Pistachio 171–177
Aslani-Aslamarz A, Vahdati K, Rahemi M (2009) Estimation of chilling and heat requirements of some persian walnut cultivars and genotypes. HortScience 44:697–701
Atagul O, Calle A, Demirel G, Lawton JM, Bridges WC, Gasic K (2022) Estimating heat requirement for flowering in peach germplasm. Agronomy 12(5):1002
Benmoussa H, Ghrab M, Mimoun MB, Luedeling E (2017) Chilling and heat requirements for local and foreign almond (Prunus dulcis Mill.) cultivars in a warm Mediterranean location based on 30 years of phenology records. Agric for Meteorol 239:34–46
Bianchi VJ, Rubio M, Trainotti L, Verde I, Bonghi C, Martínez-Gómez P (2015) Prunus transcription factors: breeding perspectives. Front Plant Sci 6:443
Camargo-Alvarez H, Salazar-Gutiérrez M, Keller M, Hoogenboom G (2020) Modeling the effect of temperature on bud dormancy of grapevines. Agric for Meteorol 280:107782
Campoy JA, Ruiz D, Cook N, Allderman L, Egea J (2011a) Clinal variation of dormancy progression in apricot. S Afr J Bot 77:618–630
Campoy JA, Ruiz D, Egea J (2011b) Dormancy in temperate fruit trees in a global warming context: a review. Sci Hortic 130:357–372
Campoy JA, Ruiz D, Allderman L, Cook N, Egea J (2012) The fulfilment of chilling requirements and the adaptation of apricot (Prunus armeniaca L.) in warm winter climates: an approach in Murcia (Spain) and the Western Cape (South Africa). Eur J Agron 37:43–55
Cesaraccio C, Spano D, Snyder RL, Duce P (2004) Chilling and forcing model to predict bud-burst of crop and forest species. Agric for Meteorol 126:1–13
Citadin I, Raseira MDC, Herter FG, Da Silva JB (2001) Heat requirement for blooming and leafing in peach. HortScience 36:305–307
Colak AM, Okatan V, Polat M, Guclu SF (2019) Different harvest times affect market quality of Lycium barbarum L. berries. Turk J Agric for 43:326–333
Couvillon GA, Erez A (1985) Influence of prolonged exposure to chilling temperatures on bud break and heat requirement for bloom of several fruit species. Am Soc Hortic Sci 110:47–50
Covert MM (2011) The influence of chilling and heat accumulation on bloom timing, bloom length and crop yield in almonds (Prunus dulcis (Mill.). A Thesis presented to the Faculty of California Polytechnic State University, San Luis Obispo
Delgado A, Dapena E, Fernandez E, Luedeling E (2021) Climatic requirements during dormancy in apple trees from northwestern Spain-Global warming may threaten the cultivation of high-chill cultivars. Eur J Agron 130:126374
Egea J, Ortega E, Martinez-Gomez P, Dicenta F (2003) Chilling and heat requirements of almond cultivars for flowering. Environ Exp Bot 50:79–85
Fernandez E, Krefting P, Kunz A, Do H, Fadón E, Luedeling E (2021) Boosting statistical delineation of chill and heat periods in temperate fruit trees through multi-environment observations. Agric for Meteorol 310:108652
Fishman S, Erez A, Couvillon GA (1987) The temperature dependence of dormancy breaking in plants: mathematical analysis of a two-step model involving a cooperative transition. J Theor Biol 124:473–483
Gannouni TA, Campoy JA, Quero-Garcia J, Barreneche T, Arif A, Albouchi A, Ammari Y (2017) Dormancy related traits and adaptation of sweet cherry in Northern Africa: a case of study in two Tunisian areas. Sci Hortic 219:272–279
Gao Z, Zhuang W, Wang L, Shao J, Luo X, Cai B, Zhang Z (2012) Evaluation of chilling and heat requirements in Japanese apricot with three models. HortScience 47:1826–1831
Gonzalez-Rossia D, Reig C, Dovis V, Gariglio N, Agust M (2008) Changes on carbohydrates and nitrogen content in the bark tissues induced by artificial chilling and its relationship with dormancy bud break in Prunus sp. Sci Hortic 118:275–281
Guerriero R, Viti R, Monteleone P, Gentili M (2002) La valutazione della dormienza nellˇıalbicocco: tre metodi a confronto. Frutticoltura 3:73–77
Guo L, Dai J, Ranjitkar S, Yu H, Xu J, Luedeling E (2014) Chilling and heat requirements for flowering in temperate fruit trees. Int J Biometeorol 58:1195–1206
Guo L, Dai J, Wang M, Xu J, Luedeling E (2015) Responses of spring phenology in temperate zone trees to climate warming: a case study of apricot flowering in China. Agric for Meteorol 201:1–7
Henderson IR, Dean C (2004) Control of Arabidopsis flowering: the chill before the bloom. Development 131:3829–3838
Henderson IR, Shindo C, Dean C (2003) The need for winter in the switch to flowering. Annu Rev Genet 37:371–392
Kaya O, Kose C (2019) Cell death point in flower organs of some apricot (Prunus armeniaca L.) cultivars at subzero temperatures. Sci Hortic 249:299–305
Kaya O, Kose C (2020) How Pretest Temperatures Change the Cold Hardiness of Grapevine (Vitis Vinifera L. Cv. Karaerik) Dormant Buds? Int J Fruit Sci 20(3):S1470–S1482
Kaya O, Kose C (2022a) Sensitivity of some sweet cherry (Prunus avium L.) cultivars to late spring frosts during different phenological stages following bud burst. Theor Appl Climatol 148(3–4):1713–1725
Kaya O, Kose C (2022b) How sensitive are the flower parts of the sweet cherry in sub-zero temperatures? Use of differential thermal analysis and critical temperatures assessment. N Z J Crop Hortic Sci 50(1):17–31
Kaya O, Kose C, Gecim T (2018) An exothermic process involved in the late spring frost injury to flower buds of some apricot cultivars (Prunus armenica L.). Sci Hortic 241:322–328
Kaya O, Kose C, Donderalp V, Gecim T, Taskın S (2020) Last updates on cell death point, bud death time and exothermic characteristics of flower buds for deciduous fruit species by using differential thermal analysis. Sci Hortic 270:109403
Kaya O, Kose C, Esitken A, Gecim T, Donderalp V, Taskin S, Turan M (2021a) Frost tolerance in apricot (Prunus armeniaca L.) receptacle and pistil organs: how is the relationship among amino acids, minerals, and cell death points? Int J Biometeorol 65(12):2157–2170
Kaya O, Kose C, Sahin M (2021b) The use of differential thermal analysis in determining the critical temperatures of sweet cherry (Prunus avium L.) flower buds at different stages of bud burst. Int J Biometeorol 65(7):1125–1135
Kaya O, Kose C, Esıtken A, Turan M, Utku O (2021c) Can organic acid and sugar compositions be used to predict cell death point limits? Receptacle and pistil organs of apricot (Prunus armeniaca L.). Rend Lincei Sci Fis Nat 32(3):493–509
Kaya O, Kose C, Sahin M (2021d) The use of differential thermal analysis in determining the critical temperatures of sweet cherry (Prunus avium L.) flower buds at different stages of bud burst. Int J Biometeorol 65(7):1125–1135
Kose C, Kaya O (2022) Differential thermal analysis reveals the sensitivity of sweet cherry flower organs to low temperatures. Int J Biometeorol 66(5):987–994
Luedeling E (2012) Climate change impacts on winter chill for temperate fruit and nut production: a review. Sci Hortic 144:218–229
Luedeling E, Brown PH (2011) A global analysis of the comparability of winter chill models for fruit and nut trees. Int J Biometeorol 55:411–421
Luedeling E, Gebauer J, Buerkert A (2009) Climate change effects on winter chill for tree crops with chilling requirements on the Arabian Peninsula. Clim Change 96:219–237
Luedeling E, Girvetz EH, Semenov MA, Brown PH (2011) Climate change affects winter chill for temperate fruit and nut trees. PLoS ONE 6:e20155
Melke A (2015) The physiology of chilling temperature requirements for dormancy release and bud-break in temperate fruit trees grown at mild winter tropical climate. J Plant Stud 4:110–156
Monteiro LNH, Leonel S, Souza JMA, Ferreira RB, Silva MDS, Garcia EL (2022) Chilling and forcing requirement of five international fig cultivars grown in Southeastern Brazil. Rev Ceres 69:379–389
Moral FJ, Rebollo FJ, Paniagua LL, García A, de Salazar EM (2016) Application of climatic indices to analyse viticultural suitability in Extremadura, south-western Spain. Theor Appl Climatol 123:277–289
Park JH, Han YS, Lee EP, Lee SY, Jeong HM, You YH (2019) Studies on the changes in phenological, growth and physiological responses of Silene capitata Kom, an endangered plant in Korea, under climate change treatment. J Ecol Environ 43:1–9
Piao S, Liu Q, Chen A, Janssens IA, Fu Y, Dai J, Liu L, Lian X, Shen M, Zhu X (2019) Plant phenology and global climate change: Current progresses and challenges. Global Change Biol 25:1922–1940
Prudencio AS, Díaz-Vivancos P, Dicenta F, Hernández JA, Martínez-Gómez P (2019) Monitoring the transition from endodormancy to ecodormancy in almond through the analysis and expression of a specific class III peroxidase gene. Tree Genet Genomes 15:1–11
Ramírez L, Sagredo KX, Reginato GH (2010) Prediction models for chilling and heat requirements to estimate full bloom of almond cultivars in the Central Valley of Chile. Acta Hortic 872:107–112
Rea R, Eccel E (2006) Phenological models for blooming of apple in a mountainous region. Int J Biometeorol 51:1–16
Richardson EA, Seeley SD, Walker DR (1974) A model for estimating the completion of rest of ‘Redhaven’ and ‘Elberta’ peach trees. HortScience 9:331–332
Ríos G, Leida C, Conejero A, Badenes ML (2014) Epigenetic regulation of bud dormancy events in perennial plants. Front Plant Sci 5:1–6
Rodríguez A, Pérez-López D, Centeno A, Ruiz-Ramos M (2021) Viability of temperate fruit tree varieties in Spain under climate change according to chilling accumulation. Agric Syst 186:102961
Rojo J, Orlandi F, Ben Dhiab A, Lara B, Picornell A, Oteros J, Msallem M, Fornaciari M, Pérez-Badia R (2020) Estimation of chilling and heat accumulation periods based on the timing of olive pollination. Forests 11(8):835
Ruiz D, Campoy AJ, Egea J (2007) Chilling and heat requirements of apricot cultivars for flowering. Environ Exp Bot 61:254–263
Salama AM, Ezzat A, El-Ramady H, Alam-Eldein SM, Okba SK, Elmenofy HM, Hassan IF, Illés A, Holb IJ (2021) Temperate fruit trees under climate change: challenges for dormancy and chilling requirements in warm winter regions. Horticulturae 7(4):86
Sanchez-Perez R, Dicenta F, Martinez-Gomez P (2012) Inheritance of chilling and heat requirements for flowering in almond and QTL analysis. Tree Genet Genomes 8:379–389
Simpson GG, Dean C (2002) The flowering clock. Science 296:285–289
Sparks D (1993) Chilling and heating model for pecan budbreak. Am Soc Hortic Sci 118:29–35
Spiegel-Roy P, Alston FH (1979) Chilling and post-dormant heat requirement as selection criteria for late-flowering pears. Sci Hortic 54:115–120
Swartz HJ, Powell LE (1981) The effect of long chilling requirement on time of budbreak in apple. Acta Hortic 120:173–178
Tabuenca MC (1972) Chilling requirements in almond (in Spanish). Anales De La Estación Experimental De Aula Dei 11:325–329
Takemura Y, Kuroki K, Matsumoto K, Tamura F (2013) Cultivar and areal differences in the breaking period of bud endodormancy in pear plants. Sci Hortic 154:20–24
Weinberger JH (1950) Chilling requirements of peach varieties. Am Soc Hortic Sci 56:122–128
Xu Y, Dai J, Ge Q, Wang H, Tao Z (2020) Comparison of chilling and heat requirements for leaf unfolding in deciduous woody species in temperate and subtropical China. Int J Biometeorol 65(3):393–403
Yong LI, Fang WC, Zhu GR, Ke CAO, Chen CW, Wang XW, Wang LR (2016) Accumulated chilling hours during endodormancy impact blooming and fruit shape development in peach (Prunus persica L.). J Integr Agric 15:1267–1274
Zivotic A, Micic N, Zabic M, Bosancic B, Cvetkovic M (2019) Precision cane meristem management can influence productivity and fruit quality of floricane red raspberry cultivars. Turk J Agric for 43:405–413
Acknowledgements
The authors are grateful to Sanaad Company for their valuable help with this experiment.
Funding
This work was supported by the Isfahan University of Technology.
Author information
Authors and Affiliations
Contributions
Collection, analysis, interpretation of data, study design, writing of the manuscript and decision to submit the paper for publication were performed by Dr. Somayeh Naseri. Measurements were done according to guidance of Dr. Mahdiyeh Gholami and Dr. Bahram Baninasab.
Corresponding author
Ethics declarations
Ethics approval
Not applicable.
Consent to participate
Not applicable.
Consent for publication
Not applicable.
Competing interests
The authors declare no competing interests.
Additional information
Publisher's note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Supplementary Information
Additional file 1:
Table S1. Daily minimum and maximum temperatures in one month before the start of the study. Fig. S1. The phenological stages in flower buds.
Rights and permissions
Springer Nature or its licensor (e.g. a society or other partner) holds exclusive rights to this article under a publishing agreement with the author(s) or other rightsholder(s); author self-archiving of the accepted manuscript version of this article is solely governed by the terms of such publishing agreement and applicable law.
About this article
Cite this article
Naseri, S., Gholami, M. & Baninasab, B. Chilling and heat requirements in the flower and vegetative buds of some local almond cultivars. Theor Appl Climatol 154, 337–347 (2023). https://doi.org/10.1007/s00704-023-04561-7
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00704-023-04561-7