Biodiversity of some fig cultivars in Southern Syria

Sahara Abo Amin,Faisal Hamed,Seba Yassin Sarhan ,Nashaat Abo Tafish

doi:10.25081/jp.2021.v13.7339

Sahara Abo Amin, Faisal Hamed + Show 2 more

Open Access

https://doi.org/10.25081/jp.2021.v13.7339

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Abstract

This research has been conducted in the Biotechnology Laboratory in Damascus University_ Damascus, Syria where the genetic diversity of fourteen cultivars of figs (Ficus carica L.) growing in Swaida governorate which located in the south region of Syria were investigated using (Simple Sequence Repeats) SSRs technique, where 4 cultivars of them were genotypes scattered in the local fields without any scientific taxonomy and farmers did not classify them properly. Eight pairs of SSRs markers were used depend on their ability to separate between fig cultivars as mentioned in previous studies, six pairs of them gave amplified products in the polymerase chain reaction (PCR), while MFC3 and MFC6 primers did not give any amplification products. A total of 17 alleles were detected at six SSRs loci. The alleles number per locus ranged from 2 to 4 with an average of 2.83 alleles/locus. The observed heterozygosity (Ho) was 0.33, while the expected heterozygosity (He) was 0.17. The mean value of genetic similarity was 0.69 where fig cultivars has separated into two clusters in Cluster Analysis, which confirms a significant genetic similarity between most of the cultivars. MFC1 and MFC2 loci gave about 0.67 and 0.61 PIC (Polymorphism Information Content) values respectively, which confirms their ability to study the genetic diversity of fig cultivars more than other loci. F1 and F2 cultivars greatly affect the quality of the fruits as paternity traits as Caprifigs. Tammozi cultivar has low values of its genetic similarity with the rest of the cultivars which reflect great difference between it and other cultivars. Generally, the challenges in this study were in characterizing unrecognized fig cultivars in southern Syria to distinguish between them as they were not certified in agriculture ministry in Syria because the lack in studies related to the same topic as these cultivars were not studied before, thus, we managed to make a significant contribution in certifying fig cultivars in Syria using SSR technique.

Highlights

The Mediterranean basin is a natural habitat for genetic resources of global importance
Tammozi cultivar has low values of its genetic similarity with the rest of the cultivars the Generally, the challenges in this study were in characterizing unrecognized fig cultivars in southern Syria to distinguish between them as they were not certified in the agriculture ministry in Syria of the present study able the SSR markers differentiated the fig cultivars in Syria
The extensive and indiscriminate exploitation of these genetic resources led to a deterioration in natural resources and a severe shortage of biodiversity in the region, which necessitated the preservation, characterization, classification, and multiplication of these resources to use them in future breeding programs for Syrian fig cultivars

Summary

Introduction

The Mediterranean basin is a natural habitat for genetic resources of global importance Fig (Ficus carica L.) is a useful genetic resource for commercial cultivation (Chatti et al, 2010) and the fig tree is one of the oldest fruit trees known to humans in a long time (Aksoy, 1998). Figs (Ficus carica = 26 chromosomes) belong to the Moraceae family, which contains approximately 1,400 species distributed within 40 genera. The extensive and indiscriminate exploitation of these genetic resources led to a deterioration in natural resources and a severe shortage of biodiversity in the region, which necessitated the preservation, characterization, classification, and multiplication of these resources to use them in future breeding programs for Syrian fig cultivars. This work aimed to study the genetic diversity of fourteen cultivars of figs (Ficus carica L.) growing in Swaida governorate in southern Syria using SSRs (Simple Sequence Repeats) technique. It is imperative to pay particular attention to endangered and rare cultivars (Debbabi et al, 2021) for characterization

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