Abstract
Knowledge of combining ability and mode of inheritance is important in devising strategies to breed compatible and high yielding plant varieties. This study determined combining ability and understood the mode of inheritance of sexual compatibility in Cola nitida, a crop in which incompatibility was reported. 10 × 10 complete diallel mating design was used to cross ten (10) elite clones of kola. Data collected included percentage pod set and nut traits of the various crosses. Percentage pod set differed significantly among crosses (p < 0.001). The percentage compatibility of the self-pollinated crosses ranged from 7.16 to 39.6% as compared to 20.0% to 87.35% for the cross-pollinated crosses. Crosses between white colour nut genotypes expressed more successful pod set (> 80% pod set) as compared to crosses between red and pink colour nut genotypes. Both additive and non-additive gene effects were significant (p < 0.001) for sexual compatibility in kola. However, the non-additive genetic variance was larger than the additive genetic variance for this trait. GCA estimates for genotypes A1 and JB1 were significant and positive for sexual compatibility. These genotypes are considered excellent combiners for sexual compatibility or pod set and could be used as pollinizers or pollen donors in kola orchards. Top crosses exhibiting highly significant and positive SCA for sexual compatibility included JB27×JB32, JB19×JB32, JB35×JB19, A1×JB34, JB35×A12 (direct crosses) and JB1×JB27, A1×JB35, A12×JB19, A1×A8, A1×JB35 (reciprocal crosses). The narrow and broad sense heritability estimated for pod set were 0.17 and 0.57, respectively. The correlation coefficients between pod set and the number of nuts per pod, pod weight and nut weight were significant (p < 0.05) and positive. Although, the red nut colour is dominant over white and pink nut colours, it was fewer for some crosses compared to the number of white and pink nuts. This indicated the potential involvement of epigenetic factors in the inheritance of nut colour in kola.
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References
Abdul-Karimu A, Amoah FM, Anim-Kwapong GJ, Opoku IY, Sarfo JE (2005) Development of improved planting material. Cocoa Research Institute of Ghana
Akpertey A, Dadzie AM, Adu-Gyamfi PKK, Ofori A, Padi FK (2017) Effectiveness of juvenile traits as selection criteria for yield efficiency in kola. Sci Hortic 216:264–271
Amon-Armah F, Nyadanu D, Doe E, Sefa SO, Asani M (2020) The kola nut industry in Ghana: production, processing and marketing. Cocoa Research Institute of Ghana
Amponsah JD (1993) Kola fertility and nut quality studies. Cocoa Research Institute of Ghana
Babatunde B (2005) Effects of feeding graded levels of kolanut husk meal on the performance of cockerels Nig J. Anim Prod 32:61–66
Babatunde B, Hamzat R, Adejinmi O (2001) Replacement value of kolanut husk meal for maize in rabbit diets Trop. J Anim Sci 4:127–133
Baker RJ (1978) Issues in diallel analysis. Crop Sci 18:533–536
Barrett DM, Beaulieu JC, Shewfelt R (2010) Color, flavor, texture, and nutritional quality of fresh-cut fruits and vegetables: desirable levels, instrumental and sensory measurement, and the effects of processing. Crit Rev Food Sci Nutr 50:369–389
Beattie GB (1970) Soft drink flavours: their history and characteristics Cola or Kola flavours. Flavour Ind 1:390–394
Bianchi MB, Gibbs P, Pratta G (2019) Biplot approach with self-incompatibility analysis of sib diallel cross data for Lysimachia monelli (Primulaceae). Plant Biosyst 154:222–230. https://doi.org/10.1080/11263504.2019.1587540
da Cruz Baldissera JN, Valentini G, Coan MMD, de Almeida CB, Guidolin AF, Coimbra JLM (2012) Combining ability and reciprocal effect on agronomical traits of bean. Semina Ciências Agrárias 33:471–480
Dah-Nouvlessounon D et al (2015) Nutritional and anti-nutrient composition of three kola nuts (Cola nitida, Cola acuminata and Garcinia kola) produced in Benin. Food Nutr Sci 6:1395
de los Campos G, Naya H, Gianola D, Crossa J, Legarra A, Manfredi E, Weigel K, Cotes JM (2009) Predicting quantitative traits with regression models for dense molecular markers and pedigree. Genetics 182(1):375–385
de Nettancourt D (1997) Incompatibility in angiosperms. Sex Plant Reprod 10:185–199. https://doi.org/10.1007/s004970050087
de Nettancourt D (2001) Incompatibility and incongruity in wild and cultivated plants. Springer, Berlin
Duke JA (2000) Handbook of nuts: herbal reference library. CRC Press
Egbe NE, Oladokun MO (1987) Factors limiting high yields in kola (Cola nitida) production in Nigeria. Café cacao thé (Paris) 31:303–310
Falconer DS (1989) Introduction to quantitative genetics. Longman, London
Falconer DS, Mackay TFC (1996) Introduction to quantitative genetics, 44th edn. Addison Wesley Longman Limited, Essex
Fang K, Zhang W, Xing Y, Zhang Q, Yang L, Cao Q, Qin L (2016) Boron toxicity causes multiple effects on Malus domestica pollen tube growth. Front Plant Sci. https://doi.org/10.3389/fpls.2016.00208
Farinelli D, Pierantozzi P, Palese AM (2012) Pollinizer and cultivar influence seed number and fruit characteristics in Olea europaea L. HortScience 47:1430–1437
Griffing B (1956) Concept of general and specific combining ability in relation to diallel crossing systems Aust. J Biol Sci 9:463–493
Hamzat RA, Olubamiwa O, Taiwo AA, Tiamiyu AK, Longe OG, Adeleye IOA (2000) Potentials of kola testa and pod husks in animal feeds. In: annual NSAP, Umudike, Nigeria. p 112
Haydar A, Alam MK, Khokan EH, Ara T, Khalequzzaman KM (2009) Combining ability and genetic variability studies in potato. J Soil Nat 3:1–3
Hayman BI (1954) The theory and analysis of diallel crosses. Genetics 39:789–809
Jacob VJ (1971) Self-incompatibility in Cola nitida. Cocoa Research Institute of Nigeria, Nigeria
Jacob VJ, Okoloko GE (1974) Compatibility studies in Cola nitida (Vent.) Schott and Endl. Ghana J Sci 14:143–146
Jacob VJ, Opeke LK (1969) Interspecific hybridization in Theobroma and Cola. In: 5th Conf. Agri. Soc., Nigeria, Benin, 6,46
Jinks JL (1955) A survey of the genetical basis of heterosis in a variety of diallel crosses. Heredity 9:223–238
Kao TH, Tsukamoto T (2004) The molecular and genetic bases of S-RNase-based self-incompatibility. Plant Cell 16:S72–S83
Kearsey MJ, Pooni HS (1998) The genetical analysis of quantitative traits. Stanley Thornes (Publishers) Ltd, Cheltenham
Kowyama Y, Tsuchiya T, Kakeda K (1999) Sporophytic self-incompatibility in Ipomoea trifida, a close relative of sweet potato. Ann Bot 85:191–196. https://doi.org/10.1006/anbo.1999.1036
Lee SH, Goddard ME, Visscher PM, van der Werf JHJ (2010) Using the realized relationship matrix to disentangle confounding factors for the estimation of genetic variance components of complex traits. Genet Select Evol 42(1)
Legesse BW, Pixley K, Botha AM (2009) Combining ability and heterotic grouping of highland transition maize inbred lines. Maydica 54:1–9
Lowor S, Aculey P, Assuah M (2010) Analysis of some quality indicators in cured Cola nitida (Vent). Agric Biol J North Am 1:1206–1214
Lowor ST (2008) Studies on the chemical composition and storage parameters of sun-dried Kola nuts Afr. J Agric Res 3:130–133
Manivel P, Pandey S, Singh S (2009) Repeatabilty of general and specific combining ability effects of seedling and clonal generations in potato Electronic J. Plant Breed 1:43–46
Miller AJ, Gross BL (2011) From forest to field: perennial fruit crop domestication. Am J Bot 8:1389–1414. https://doi.org/10.3732/ajb.1000522
MoFA (2017) Agriculture in Ghana: facts and figures. Statistics, Research and Information Directorate, MoFA
Morakinyo J, Egbe N, Olaniran Y (1981) Compatibility studies and yield components of recent Cola nitida selections Cafe, cacao, the
Muhlemann JK, Younts TL, Muday GK (2018) Flavonols control pollen tube growth and integrity by regulating ROS homeostasis during high-temperature stress. Proc Nat Acad Sci 115:E11188–E11197
Munoz PR, Resende MFR, Gezan SA, Resende MDV, de los Campos G, Kirst M, Huber D, Gary FP (2014) Unravelling additive from nonadditive effects using genomic relationship matrices. Genetics 198(4):1759–1768
Ndagi I et al (2012) Potentials and challenges of kolanut production in Niger State, Nigeria. ISRN Agron 2012:1–9
Nyadanu D et al (2020) Genetic variability of bioactive compounds and selection for nutraceutical quality in kola (Cola nitida (Vent) Schott. And Endl.). PloS One 15:e0242972
Nyadanu D, Lowor ST, Brako-Marfo M, Pobee P, Asirifi DI (2019) Breeding for improved nutritional nutritional and nutraceutical quality of kola (Cola nitida (Vent) Schott and Endl.): interests and prospects. Paper presented at the African Plant Breeding Association Launch and Conference, Accra, Ghana, 23–25 October 2019
Odebode AC (1996) Phenolic compounds in the kola nut (Cola nitida and Cola acuminata) (Sterculiaceae) in Africa. Rev Biol Trop 44:513–515
Odutayo OI, Adeyemi FA, Adebola PO, Sotimehim OI (2018) Compatibility studies in Cola nitida genotypes. J Plant Breed Crop Sci 10:80–85. https://doi.org/10.5897/JPBCS2017.0637
Osei J (1978) Fruit setting, inheritance of nut colour, germination and early seedling growth of Kola (Cola Nitida (Vent.) Schott and Endl). University of Ghana
Pluta S, Zurawicz E, Studnicki M, Madry W (2014) Combining ability analysis for selected plant traits in gooseberry. J Am Soc Hortic Sci 139:1–11
R Core Team (2018) R Core Team. R: A Language and Environment for Statistical Computing, 3.5.0 edn., Vienna, Austria
Rodríguez F, Alvarado G, Pacheco A, Burgueño J, Crossa J (2015) Analysis of genetic designs in R. Version 5.0
Romanus KG, Hussein S, Mashela WP (2007) Combining ability analysis and association of yield and yield components among selected cowpea lines. Euphytica 162:205–210
Russel TA (1955) The kola of Nigeria and the Cameroons. Trop Agric 32:210–240
Sanial E, Ruf F (2018) Is kola tree the eneny of Cocoa? A critical analysis of agroforestry recommendation made to Ivorian cocoa farmers. Hum Ecol 46:159–170
Sedgeley GJ (2007) Cross-pollination in olive cultivars. RIRDC Publication No.07/169
Seifi E, Guerin J, Kaiser B, Sedgeley M (2011) Sexual compatibility and floral biology of some olive cultivars New Zealand. J Crop Hort Sci 39:141–151. https://doi.org/10.1080/01140671.2011.560165
Sharma JR (2006) Statistical and biometrical techniques in plant breeding. New Age International, New Delhi
Shen Y, Sun S, Hua S, Shen E, Ye CY, Cai D, Timko MP, Zhu QH, Fan L (2017) Analysis of transcriptional and epigenetic changes in hybrid vigor of allopolyploid Brassica napus uncovers key roles for small RNAs. Plant J 91:874–893
Silva NF, Goring DR (2001) Mechanisms of self-incompatibility in flowering plants. Cell Mol Life Sci 58:1988–2007
Singh PK, Thakur R, Chaudhary VK, Singh NB (1996) Combining ability for grain yield and its components in relation to rice breeding. Crop Res Hisar 11:62–66
Singh RK, Chaudhary BD (1996) Biometrical methods in quantitative genetic analysis. Kalyani Publishers, New Delhi
Snider JL, Oosterhuis DM, Loka DA, Kawakami EM (2011) High temperature limits in vivo pollen tube growth rates by altering diurnal carbohydrate balance in field grown Gossypoum hirsutum pistils. J Plant Physiol 168:1168–1175
Solipuram R, Koppula S, Hurst A, Harris K, Naragoni S, Fontenot K, Gray W (2009) Molecular and biochemical effects of a kola nut extract on androgen receptor-mediated pathways. J Toxicol ID 530279:1–16. https://doi.org/10.1155/2009/530279
Stommel JR, Pushko M, Haynes KG, Whitaker BD (2014) Differential inheritance of pepper (Capsicum annum) fruit pigments results in black to violet fruit colour. Plant Breed 133:788–793. https://doi.org/10.1111/pbr.12209
Takayama S, Isogai A (2005) Self-Incompatibility in Plants. Annu Rev Plant Biol 56:467–489
Temitope BF, Agamuthu P, Anyanwu C, Ibeto C, Eze I, Ezeoha SL (2009) Cola nitida and Cola acuminate. A state of knowledge report undertaken for the central African regional program for the environment. J Environ Sci Te 11:1–25
Terres LR, Lenz EA, Rocha D, Cerioli M, Pereira ADS (2017) Combining ability of potato parents for tuber appearance and tuber yield component traits. Crop Breed Appl Biotechnol 17:99–106
Town PA (1967) Studies on fruitfulness in Cola nitida. University of Reading
Van Eijnatten CLM (1967) Kola pollinations. CRIN memo., No. 11
Van Eijnatten CLM (1969) Kola nut. In: Ferwerda EP, Witt F (eds) Outlines of perennial crop breeding in the tropics. Landbouwhogeschool, Wagenighen, Netherlands
Xiao J, Li J, Yuan L, Tanksley SD (1995) Dominance is the major genetic basis of heterosis in rice as revealed by QTL analysis using molecular markers. Genetics 140(2):745–754
Yahaya LE, Hamzat RA, Aroyeum SO (2001) Utilization of kola pod husk in liquid soap production Moor. J Agric Res 3:252–256
Acknowledgement
Contributions of the technical team of the kola breeding programme at CRIG in assisting the pollination and collection of data on pod set and yield traits in this study is highly acknowledged. This paper is published with the permission of the Executive Director of the Cocoa Research Institute of Ghana as manuscript number CRIG/02/2020/048/006
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Funds for this research was provided by the Cocoa Research Institute of Ghana under the project coded CRIG/KL/12/12.
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Conceptualization: DN. Data curation: DN. Formal analysis: DN, DAT, FOA. Investigation: DN, STL, MBM. Methodology: DN, MBM. Project administration: DN. Resources: DN. Software: DAT. Supervision: DN, MBM, AO. Validation: DN, STL, FOA. Visualization: DN, PP. Writing – original draft: DN. Writing – review & editing: DN, STL, DAT, PP, DO, MBM, WN, FOA, AO.
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Nyadanu, D., Lowor, S.T., Tchokponhoué, D.A. et al. Combining ability and gene action for sexual compatibility and pattern of nut colour segregation among ten elite clones of kola (Cola nitida (Vent) Schott and Endl.). Euphytica 217, 62 (2021). https://doi.org/10.1007/s10681-021-02801-3
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DOI: https://doi.org/10.1007/s10681-021-02801-3