The biodiversity protection and monitorning is one of main goals of natural history musems worldwide. Conservation issues are particularly important for freshwater fish which are one of the most threatened taxa for the consequences of climate change and human activies. In Mozambique freshwater rivers are poorly explored and the impact of aquaculture and human activities on local biodiversity in almost unknown. Here we propose the barcoding analysis of cytochrome c oxidase I (COI) mitochrondrial DNA of 41 frehswater fishes catched in four rivers of southern Mozambique and 53 from a museum collection. As evidence of previous knowledge gaps, barcoding results revealed twenty new haplotypes described for the first time in the taxa Cichlidae and Amphilidae. From a methodological point of view, the barcoding approach demonstrated a critical point connected to the requested 650 bp length of amplified sequences. In fact, high weight genomic DNA is unattainable from museum samples and also in wildlife samples collected in pristine rivers. For this reason we furtherly tested the efficiency of DNA mini-barcoding analysis for 53 fish from a museum collection. The Mini-barcode method retrieved 56.6% of sequences successfully analyzed versus 3% of barcoding. The high performance of this thecniques is discussed in relation to biodiversity monitoring and to fill the taxonomy gaps in museum collections.
DNA barcoding to assess species identification in museum samples of Amphiliidae and natural samples of Cichlidae from Southern Mozambique
Taviani E.;
2022-01-01
Abstract
The biodiversity protection and monitorning is one of main goals of natural history musems worldwide. Conservation issues are particularly important for freshwater fish which are one of the most threatened taxa for the consequences of climate change and human activies. In Mozambique freshwater rivers are poorly explored and the impact of aquaculture and human activities on local biodiversity in almost unknown. Here we propose the barcoding analysis of cytochrome c oxidase I (COI) mitochrondrial DNA of 41 frehswater fishes catched in four rivers of southern Mozambique and 53 from a museum collection. As evidence of previous knowledge gaps, barcoding results revealed twenty new haplotypes described for the first time in the taxa Cichlidae and Amphilidae. From a methodological point of view, the barcoding approach demonstrated a critical point connected to the requested 650 bp length of amplified sequences. In fact, high weight genomic DNA is unattainable from museum samples and also in wildlife samples collected in pristine rivers. For this reason we furtherly tested the efficiency of DNA mini-barcoding analysis for 53 fish from a museum collection. The Mini-barcode method retrieved 56.6% of sequences successfully analyzed versus 3% of barcoding. The high performance of this thecniques is discussed in relation to biodiversity monitoring and to fill the taxonomy gaps in museum collections.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.