Diversity of quantitative, qualitative, and vitamin C content characteristics in F5 generation of chili pepper Capsicum baccatum species

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HILDA ADINA RAHMI
MUHAMAD SYUKUR
DEWI SUKMA
SYARIFAH IIS AISYAH

Abstract

Abstract. Rahmi HA, Syukur M, Sukma D, Aisyah SI. 2024. Diversity of quantitative, qualitative, and vitamin C content characteristics in F5 generation of chili pepper Capsicum baccatum species. Biodiversitas 25: 2878-2886. Chili is a popular vegetable worldwide, and Indonesia is one of the largest chili producers. However, the cultivation of Capsicum baccatum species is still uncommon in Indonesia. This study aimed to assess the diversity and heritability of yield and yield quality of F5 populations of C. baccatum. The research occurred from May to November 2023 at the Experimental Garden of Sinar Sari Nature Housing in Bogor. The experiment followed a randomized complete block design (RCBD) using 12 genotypes with three replications and four sample plants. The F5 populations of the following genotypes were used: 4k-6p, 4k-7p, 7m-4q, 2m-2m, 7m-3q, 7m-3m, 7m-2q, 2m-2q, 7m-8m, 7m-1m, Bishop Crown, and Lemon Drop. The observations included quantitative and qualitative character assessments. The results showed that the fruit weight per plant ranged from 37.73 to 94.24 g, while the number of fruits per plant ranged from 11.46 to 30.95. Fruit length ranged from 2.65 to 6.08 cm, and fruit diameter ranged from 15.70 to 41.43 mm. The weight per fruit ranged from 3.43 to 14.89 g. Brightness or L* values ranged from 19.06 to 41.93, a* values ranged from 5.62 to 31.49, and b* values ranged from 22.90 to 57.45. The chroma value ranged from 30.87 to 64.20, and the hue value ranged from 46.54 to 80.23. The analysis of vitamin C content showed a range of 12.20 to 17.74 mg/20 g, and the test results of soluble solids ranged from 8.77% to 13.49%. All quantitative characters showed high heritability, indicating a strong genetic influence. The qualitative observations were analyzed, and the results showed that the 12 C. baccatum chilies had similarity coefficients ranging from 0.0 to 0.5. The similarity analysis resulted in grouping the 12 genotypes of C. baccatum into four main groups.

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References
Albrecht E, Zhang D, Saftner RA, Stommel JR. 2012. Genetic diversity and population structure of Capsicum baccatum genetic resources. Genetic Resources and Crop Evolution. 59: 517–538.
Austi, IR, Damanhuri, Kuswanto. 2014. Diversity and genetic relationship in line purification process on local type of bambara groundnut (Vigna subterranea L.Verdcourt). Jurnal Produksi Tanaman, 2(1): 73–79.
Bhagawati M, Saikia A. 2015. Capsaicinoid content variation in processed products of chilli cvs. J.Hortl.Sci., 10(2): 210–2015.
College of Science. 2011. Determination of vitamin C concentration by titration. University of Canterbury. [Internet]. [Downloaded August 29, 2023]. Available at : https://www.canterbury.ac.nz/media/documents/science-outreach/vitaminc_iodate.pdf
Cardoso R, Ruas CF, Giacomin RM, Ruas PM, Ruas EA, Barbieri RL, Rodrigues R, Gonçalves LSA. 2018. Genetic variability in Brazilian Capsicum baccatum germplasm collection assessed by morphological fruit traits and AFLP markers. PLoS ONE, 13(5). https://doi.org/10.1371/journal.pone.0196468
Cömert ED, Mogol BA, Gökmen V. 2020. Relationship between color and antioxidant capacity of fruits and vegetables. Current Research in Food Science, 2: 1–10. DOI: 10.1016/j.crfs.2019.11.001
Dyah JS, Oen LH, Winarno FG. 1997. Capsaicin Content of Various Varieties of Indonesian Chilies. Asia Pasific J.Clin Nutr, 6(2): 99–101.
Food and Agriculture Organization of the United Nations. 2021. FAOSTAT statistics database. [downloaded April 9, 2024]. Available at : https://www.fao.org/faostat/en/#data/QCL
Food and Agriculture Organization of the United Nations. 2022. FAOSTAT statistics database. [downloaded April 20, 2024]. Available at : https://www.fao.org/faostat/en/#data/QCL
Gomez V. 2016. The development of value chains of the Capsicum for the conservation of biodiversity and the improvement of rural livelihoodLima: .Lima : MINAG-SISAP.
Gomes GP, Constantino LV, Erpen-Dalla Corte L, Riger CJ, Chaves DSA, Goncalves LSA. 2019. Characterization of biochemical compounds and antioxidant activity of “dedo-de-moça” chili pepper accessions. Horticultura Brasileira. 37: 429-436. DOI: 10.1590/S0102-053620190411
[IPGRI] International Plant Genetic Resources Institute. 1995. Description for Capsicum (Capsicum spp.). [internet]. [downloaded 2022 December 02]. Available at: http://indoplasma.or.id/deskriptor/IPGRI/deskriptorcabe.pdf
Kirti Patel, Rosa C, Edgard A, Dioliza V, Mavel M Rosario R. 2016. Agro-morphological Characteristics and Sensory Evaluation of Native Peruvian Chili Peppers. Journal of Agricultural Science and Technology B, 6(3). DOI: 10.17265/2161-6264/2016.03.005
Korel F, Ba?datlio?lu N, Balaban MÖ, Hi?il Y. 2002. Ground red peppers: Capsaicinoids content, scoville scores, and discrimination by an electronic nose. Journal of Agricultural and Food Chemistry, 50(11): 3257–3261. DOI: 10.1021/jf010537b
Kraft KH, Brown CH, Nabhan GP, Luedeling E, De Jesús Luna Ruiz J, D’Eeckenbrugge GC, Hijmans RJ, Gepts P. 2014. Multiple lines of evidence for the origin of domesticated chili pepper, Capsicum annuum, in Mexico. Proceedings of the National Academy of Sciences of the United States of America, 111(17): 6165–6170. DOI: 10.1073/pnas.1308933111
Liu F, Zhao J, Sun H, Xiong C, Sun X, Wang X, Wang Z, Jarret R, Wang J, Tang B, Xu H, Hu B, Suo H, Yang B, Ou L, Li X, Zhou S, Yang S, Liu Z, … Zou X. 2023. Genomes of cultivated and wild Capsicum species provide insights into pepper domestication and population differentiation. Nature Communications, 14(1). DOI: 10.1038/s41467-023-41251-4
Mavi K, Hacbekir H, Uzuno?lu F, Türkmen M. 2021. The use of volatile compounds as an alternative method in pepper breeding (Capsicum baccatum var. pendulum). Ciencia Rural, 51(12). DOI: 10.1590/0103-8478CR20201066
Medeiros AM, Rodrigues R, Costa DV, Pimenta S, Oliveira JG. 2018. Non-parametric indexes in selecting hybrids of chili pepper. Horticultura Brasileira, 36(1): 27–32. DOI: 10.1590/s0102-053620180105
Moulin MM, Rodrigues R, Bento CS, Gonçalves L, Santos JO, Sudré CP, Viana AP. 2015. Genetic dissection of agronomic traits in Capsicum baccatum var. Pendulum. Genetics and Molecular Research, 14(1): 2122–2132. DOI: 10.4238/2015.March.20.23
Moura RL, Feitosa De Figueirêdo RM, José De Meloqueiroz A. 2014. Processamento e caracterização físico-química de néctares goiaba-tomate. Artigo Científico, 9(3): 69–75. http://revista.gvaa.com.br
Oktavianus G, Hanafiah DS, Sartini Bayu E. 2019. Genetic Parameter Observation at M4 Generation of Soybean [Glycine max (L.) Merril] on optimum and drought condition. Jurnal Pertanian Tropik, 6(1): 123–128. https://jurnal.usu.ac.id/index.php/Tropik
Oliveira HS. de, Rodrigues R, Bento C. dos S, Medeiros AM, Sudré CP, Couto MF, Pio Viana A. 2015. Towards a new strategy to breed an autogamous plant: A case of study in Capsicum baccatum var. pendulum. Scientia Horticulturae, 192, 279–286. DOI: 10.1016/j.scienta.2015.06.017
Ou LJ, Wei G, Zhang ZQ, Dai XZ, Zou XX. 2015. Effects of low temperature and low irradiance on the physiological characteristics and related gene expression of different pepper species. Photosynthetica, 53(10): 1–10.
Padilha HKM, Vasconcelos CS, Villela JCB, Valgas RA, Barbieri RL. 2016. Agronomic evaluation and morphological characterization of chili peppers. Capsicum annuum. Solanaceae. from Brazil. Australian Journal of Basic and Applied Sciences 10(13): 63-70.
Perla V, Nimmakayala P, Nadimi M, Alaparthi S, Hankins GR, Ebert AW, Reddy UK. 2016. Vitamin C and reducing sugars in the world collection of Capsicum baccatum L. genotypes. Food Chemistry, 202, 189–198. DOI: 10.1016/j.foodchem.2016.01.135
Popelka P, Jevinova P, Smejkal K, Roba P. 2017. Determination of capsaicin content and pugency level of different fresh and dried chilli peppers. Folia Veterinaria.61(2): 11-16. DOI: 10.1515/fv-2017-0012
Sayekti TWDA, Syukur M, Hidayat SH, Maharijaya A. 2021. Morphological response and genetic variability of four species of chili pepper (Capsicum spp.) under infection of pepper yellow leaf curl virus. Biodiversitas, 22(11): 4758–4765. DOI: 10.13057/biodiv/d221107
Scoville W. L. 1912. NOTE ON CAPSICUMS. In From The Journal of the American Pharmaceutical Association (Vol. 1). www.sizes.com/library/metrhist/scoville.pdf
Silva LPFR da, Gregório MG, Queiroz AJM, Figueirêdo RMF, Brito AN dos SL de, Mascarenhas NMH, Neto MS de M, Silva S do N, Araújo MA, Oliveira AG de, Wanderley R de OS, Matos JDP, Rodrigues LM de S, Moraes MS de, Sousa APM de, Santos FS dos, Nogueira LPS, Rodrigues RCM, Filho GST, Costa MML da. 2020. Optimization of the Production Process of Bishop’s Crown Pepper (Capsicum baccatum var.) Hydroalcoholic Extract. Journal of Agricultural Science, 12(12): 163. DOI: 10.5539/jas.v12n12p163
Silvar C, García-González CA. 2016. Deciphering genetic diversity in the origins of pepper (Capsicum spp.) and comparison with worldwide variability. Crop Science, 56(6): 3100–3111. DOI: 10.2135/cropsci2016.02.0128
Swandari T, Basunanda P, Aziz-Purwantoro. 2017. Application of colour sensors to estimate degree of gene dominance encodes colour of chilli-pepper fruits progeny. Agroista, 1(1): 40–49. DOI: 10.55180/agi.v1i1.6
Swarup S, Cargill EJ, Crosby K, Flagel L, Kniskern J, Glenn KC. 2021. Genetic diversity is indispensable for plant breeding to improve crops. Crop Science, 61(2): 839–852. DOI: 10.1002/csc2.20377
Syukur M, Sujiprihati S, Yunianti R, Nida K. 2012. Estimation of Variance Components, Heritability and Correlation to Determine Chili Selection Criteria (Capsicum annuum L.) for Chili F5 Populations. Jurnal Hortikultura Indonesia, 1(2): 74. DOI: 10.29244/jhi.1.2.74-80
Syukur M, Sujiprihati S, Yunianti R. 2015. Teknik Pemuliaan Tanaman. Penebar Swadaya, Jakarta.
Syukur M., Sujiprihati S, Yunianti R. 2015. Teknik Pemuliaan Tanaman. Penebar Swadaya, Jakarta
Tanaka Y, Hara M, Goto T, Yoshida Y, Yasuba K. 2017. Variations in capsaicinoid contents in the chili pepper (Capsicum baccatum) and its non-pungent accessions. Sci.Fac.Agr.Okayama Univ., 106, 27–32.
Wang L, Zhong Y, Liu J, Ma R, Miao Y, Chen W, Zheng J, Pang X, Wan H. 2023. Pigment Biosynthesis and Molecular Genetics of Fruit Color in Pepper. Plants, 12(11): 1–18. DOI: 10.3390/plants12112156

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