Variations in the hybrid progeny of low chill white × yellow fleshed peaches

Published

2022-12-19

Keywords:

Prunus persica (L.) Batsch, fruit quality, inheritance, antioxidants
Dimensions Badge

Authors

  • Anirudh Thakur Department of Fruit Science, Punjab Agricultural University, Ludhiana-141004, Punjab, India.

Abstract

Low chill Flordaglo (White flesh) × Florda Prince (Yellow flesh) hybrid population was studied for variations in flower and fruit traits. Useful variations in flower density, fruit density, fruit weight, fruit colour, fruit size and biochemical compounds was observed in the population. The hybrids showed variability for biochemical characters like total soluble solids (TSS), total sugars, reducing sugars, acidity, ascorbic acid, total phenols, antioxidant capacity, anthocyanin level and carotenoids. The range of biochemical characters in hybrids even exceeded that of the parents showing superiority of some hybrids to the parental varieties. Useful variation in fruit weight, fruit colour, fruit size and biochemical characters have been observed in the populations and the plants have been identified. Transgressive segregation has also been observed for fruit weight, size, TSS, carotenoids, phenols and extent of fruit colour. A significant positive correlation was found between flower density and fruit density (r = 0.9); fruit diameter and fruit length (r = 0.9); fruit weight and fruit diameter (r = 0.9); total sugars and TSS (r = 0.5); anthocyanin and total sugar content (r = 0.5); phenols and antioxidant activity (r = 0.4). The loci governing these traits seem to be combining in additive fashion in the population. The results from the chi-square test (χ2) for the goodness of fit showed that the segregation ratio for flesh colour in the Flordaglo × Florda Prince F1 population, fits in the BC1 F1 population which is 1:1. Hence, the flesh colour seems to be governed by single gene.

How to Cite

Thakur, A. (2022). Variations in the hybrid progeny of low chill white × yellow fleshed peaches . Indian Journal of Horticulture, 79(4). Retrieved from https://journal.iahs.org.in/index.php/ijh/article/view/510

Downloads

Download data is not yet available.

References

Ayub, H., Ahmad, A., Amir, R.M. and Irshad,

G. 2021. Multivariate analysis of peach quality

treatedwith essential oil coatings. J. Food Proc.

Preserv.45: e15083.

Barnes, J. D., Balaguer, L., Elvira, M., Elvira, S.

and Davison, A. W. 1992. A reappraisal of the use

of DMSO for the extraction amd determination of

chlorophylls a and b in lichens and higher plants.

Env. Exp. Bot. 32: 85-100.

Bassi, D. and Monet, R. 2008. Botany and

Taxonomy. In: The Peach: Botany, Production and

Uses(Ed.), C. A. B. I., Oxfordshire, U. K. pp. 1-36.

Boonprakob, U. and Byrne, D.H. 2003.

Temperature influences blind node development

in peach. Acta Hortic. 618: 463-67.

Brooks, S.J., Moore, J.N. and Murphy, J.B. 2019.

Quantitative and qualitative changes in sugar

content of peach genotypes [Prunus persica (L.)

Batsch.]. J. Amer. Soc. Hortic. Sci. 118: 1-7.

Cantin, C.M., Gogorcena, Y. and Moreno, M.A.

Phenotypic diversity and relationships

of fruit quality traits in peach and nectarine

[Prunus persica (L.) Batsch] breeding progenies.

Euphytica.171: 211-26.

Da Silva Linge, C., Bassi, D., Bianco, L.,

Pacheco, I, Pirona, R. and Rossini, L. 2015.

Genetic dissection of fruit weight and size in an

F2

peach (Prunus persica (L.) Batsch) progeny.

Mol. Breed. 35: 71

Dai, Z.W., Meddar, M., Renaud, C., Merlin, I.,

Hilbert, G., Delrot, S. and Gomes, E. 2014.

Long-term in vitro culture of grape berries and its

application to assess the effects of sugar supply

on anthocyanin accumulation. J.Exp. Bot.65:

-77.

Dirlewanger, E., Pronier, V., Parvery, C., Rothan,

C., Guye, A. and Monet, R. 1998. Genetic

linkage map of peach (PrunuspersicaL.) using

morphological and molecular markers. Theor.

Appl. Genet.97: 888-95.

Dubois, M., Gilles, K. A., Hamilton, K., Rebers,

P.A. and Smith, F. 1956. Colorimetric method for

determination of sugars and related substances.

Anal. Chem. 28: 350-56.

Falchi, R., Vendramin, E., Zanon, L., Scalabrin,

S., Cipriani, G., Ignazio, V., Vizzotto, G. and Morgante, M. 2013. Three distinct mutational

mechanisms acting on a single gene underpin the

origin of yellow flesh in peach. Plant J.76: 175-87.

FAOSTAT. 2019. FAO statistic division, Agriculture

data. http://apps.fao.org/page/ HYPERLINK

http://apps.fao.org/page/collections”HYPERLINK

http://apps.fao.org/page/collections”collections.

Hancock, J.F., Scorza, R. and Lobos, G.A. 2008.

Peaches. In: Hancock J F (eds). Temperate Fruit

Crop Breed. Springer, U.S.pp: 256-98.

Liu, H., Jiang, W., Cao, J. and Li, Y. 2019. Changes

in extractable and non-extractable polyphenols

and their antioxidant properties during fruit ontree ripening in five peach cultivars. Hortic. Plant

J.5: 137-44.

Milatovic, D., Nikolic, D. and Durovic, D. 2010.

Variability, heritability and correlations of some

factors affecting productivity in peach. HortSci.37:

-87.

Mokrani, A., Krisa, S., Cluzet, S., Da Costa,

G., Temsamani, H., Renouf, E., Mérillon, J.M.,

Madani, K., Mesnil, M., Monvoisin, and Richard,

T. 2015. Phenolic contents and bioactive

potential of peach fruit extracts. Food Chem.

: 212-20.

Nelson, N. 1944. A photometric adaptation of

the Somogyi method for the determination of

glucose. J. Biol. Chem. 153: 375-80.

Rajput, P., Thakur A., Singh, H., Singh, J., Kaur,

S., Koulagi, R. and Pathak, D (2021) Screening

of peach rootstock hybrids for resistance to rootknot nematode. Indian J. Hortic. 78: 134-41.

Swain, T. and Hill, W. E. 1959. Phenolic

constituents of Prunusdomestica, quantitative

analysis of phenolics constituents. J. Sci. Food.

Agri. 10: 63-68.

Vileila-Morales, E.A., Sherman, W.B., Wilcox,

C.L. and Andrews, C.P. 1981. Inheritance of short

fruit development period in peach. J. Amer. Soc.

Hort. Sci. 106: 399-401.

Similar Articles

<< < 85 86 87 88 89 90 91 92 93 > >> 

You may also start an advanced similarity search for this article.

Most read articles by the same author(s)