Date Palm Genetic Identification and Improvement Utilizing Molecular Markers and DNA Barcoding

The article deals with carrying out DNA barcoding of aquatic invertebrates of Kazakhstan to identify their taxonomic status as organic pollution indicators. 33 species of the Balkhash-Alakol basin and the Zhayik river were analyzed. 21 species correlate (95-100%) with previously published sequences of invertebrates with well-known classifications in the GenBank and BOLD databases. The taxonomic discrepancy in morphometric and genetic parameters in certain species has been revealed. The discrepancy may be caused by the morphological identity in chironomids at a larval stage. The phylogenetic trees of the investigated species within the families Chironomidae and Moinidae have been indicated. Chironomids are represented by ten clades of different types of genetic polymorphism of DNA gene. Genetic links of Moinidae are detected in four groups including a cryptic species from Lake Alakol. It has been stated that in distribution of cryptic taxons in Moina family factors of salinity and depth of the lake are important, as well as differences in depth. Molecular DNA-barcoding of invertebrates of Kazakhstan should be continued with covering a greater number of species and several replications, with qualified primary fixation of subjects of research and a sufficient number of samples. Authenticity of composition defining, species abundance, species characteristics of aquatic invertebrates from the water bodies of poorly explored arid regions is necessary for using them as indicators of the ecological status of water bodies.

Download Full-text

DNA barcoding unveils the first record of Andrena allosa for Italy and unexpected genetic diversity in Andrena praecox (Hymenoptera: Andrenidae)

Fragmenta Entomologica ◽

10.4081/fe.2020.414 ◽

2020 ◽

Vol 52 (1) ◽

pp. 71-75

Author(s):

Maurizio Cornalba ◽

Paolo Biella ◽

Andrea Galimberti

Keyword(s):

Genetic Diversity ◽

Global Change ◽

Dna Barcoding ◽

Species Identification ◽

First Record ◽

Global Distribution ◽

Genetic Identification ◽

Genetic Structuring ◽

Eastern Sector ◽

Morphological Species

DNA barcoding is well-known to support morphological species identification and it can be helpful for unveiling unexpected populations divergence patterns, especially in the context of the impacts on species posed by global change. In this note, we provided the first Italian record of the alpine mining bee Andrena allosa Warncke, 1975, confirmed with DNA barcoding. In addition, genetic identification of a specimen of Andrena praecox (Scopoli 1753) from western Italy pointed to an unexpected intraspecific genetic structuring at COI DNA barcoding region, with sequences from the Italian and the western sector of its global distribution differing 2.22% (p-dist) from populations of the eastern sector. Given the relevance of these records and of the genetic identity of bee populations from Italy, we argue that implementing molecular surveys in bee monitoring would surely contribute to the conservation of these important pollinators.

Download Full-text

SNP Markers as a Successful Molecular Tool for Assessing Species Identity and Geographic Origin of Trees in the Economically Important South American Legume Genus Dipteryx

Journal of Heredity ◽

10.1093/jhered/esaa011 ◽

2020 ◽

Author(s):

Eurídice N Honorio Coronado ◽

Céline Blanc-Jolivet ◽

Malte Mader ◽

Carmen R García-Dávila ◽

David Aldana Gomero ◽

...

Keyword(s):

Molecular Markers ◽

Country Of Origin ◽

Geographic Origin ◽

Snp Markers ◽

Genetic Identification ◽

Success Rates ◽

Species Identity ◽

Accurate Identification ◽

Genetic Clusters ◽

Assignment Success

Abstract Dipteryx timber has been heavily exploited in South America since 2000s due to the increasing international demand for hardwood. Developing tools for the genetic identification of Dipteryx species and their geographical origin can help to promote legal trading of timber. A collection of 800 individual trees, belonging to 6 different Dipteryx species, was genotyped based on 171 molecular markers. After the exclusion of markers out of Hardy–Weinberg equilibrium or with no polymorphism or low amplification, 83 nuclear, 29 chloroplast, 13 mitochondrial single nucleotide polymorphisms (SNPs), and 2 chloroplast and 5 mitochondrial INDELS remained. Six genetic groups were identified using Bayesian Structure analyses of the nuclear SNPs, which corresponded to the different Dipteryx species collected in the field. Seventeen highly informative markers were identified as suitable for species identification and obtained self-assignment success rates to species level of 78–96%. An additional set of 15 molecular markers was selected to determine the different genetic clusters found in Dipteryx odorata and Dipteryx ferrea, obtaining self-assignment success rates of 91–100%. The success to assign samples to the correct country of origin using all or only the informative markers improved when using the nearest neighbor approach (69–92%) compared to the Bayesian approach (33–80%). While nuclear and chloroplast SNPs were more suitable for differentiating the different Dipteryx species, mitochondrial SNPs were ideal for determining the genetic clusters of D. odorata and D. ferrea. These 32 selected SNPs will be invaluable genetic tools for the accurate identification of species and country of origin of Dipteryx timber.

Download Full-text