Molecular systematics of Pampus (Perciformes: Stromateidae) based on thousands of nuclear loci using target-gene enrichment.

Pomfret fishes of the genus Pampus are commercially important in the Indo-Pacific region, yet the phylogenetic relationships and taxonomy of Pampus remain contentious. Here, we sampled 151 specimens, representing all known species of the genus, as well as two outgroup species (two families). We collected sequences from 17,292 single-copy nuclear coding loci using target-gene enrichment and Illumina sequencing for a subset samples of P. echinogaster, P. argenteus, P. cinereus, P. liuorum, P. chinensis, P. minor, and P. punctatissimus, which were carefully examined according to their species descriptions. Concatenated gene tree and species tree analyses resulted in identical and highly supported phylogenies, in which P. argenteus was sister to P. minor in one clade and P. cinereus sister to P. chinensis and P. punctatissimus in the other clade. Phylogenetic reconstruction using sequences of cytochrome c oxidase subunit I (COI) collected by us and those retrieved from NCBI suggests extensive misidentification of Pampus species in the NCBI database. We also measured morphological characters of each species as well as observed their osteological structure using micro-CT. Both molecular and morphological results suggest that P. echinogaster is a synonym of P. argenteus, and P. liuorum is a synonym of P. cinereus. Pampus cinereus from China, Bangladesh and an uncertain origin were grouped into three clades according to their sampling localities, but we could not find decisive morphological characters to describe the "cryptic species" of P. cinereus. Finally, based on the results of the molecular analyses and morphological reexamination, we created an identification key for the genus of Pampus.

First report of de novo assembly and annotation from brain and blood transcriptome of an anadromous shad, Alosa sapidissima.

OBJECTIVES: American shad (Alosa sapidissima) is an important migratory fish under Alosinae and has long been valued for its economic, nutritional and cultural attributes. Overfishing and barriers across the passage made it vulnerable to sustain. To protect this valuable species, aquaculture action plans have been taken though there are no published genetic resources prevailing yet. Here, we reported the first de novo assembled and annotated transcriptome of A. sapidissima using blood and brain tissues. DATA DESCRIPTION: We generated 160,481 and 129,040 non-redundant transcripts from brain and blood tissues. The entire work strategy involved RNA extraction, library preparation, sequencing, de novo assembly, filtering, annotation and validation. Both coding and non-coding transcripts were annotated against Swissprot and Pfam datasets. Nearly, 83% coding transcripts were functionally assigned. Protein clustering with clupeiform and non-clupeiform taxa revealed ~ 82% coding transcripts retained the orthologue relationship which improved confidence over annotation procedure. This study will serve as a useful resource in future for the research community to elucidate molecular mechanisms for several key traits like migration which is fascinating in clupeiform shads.

Cross-species gene enrichment revealed a single population of Hilsa shad (Tenualosa ilisha) with low genetic variation in Bangladesh waters.

Tenualosa ilisha is a popular anadromous and significant trans-boundary fish. For sustainable management and conservation of this fish, drawing an appropriate picture reflecting population status of this species is very essential based on their all-strategic habitats in Bangladesh. In this study, 139 samples from 18 sites were collected and cross-species gene enrichment method was applied. Like most of the Clupeiforms, nucleotide diversity of this shad was very low (0.001245-0.006612). Population differences between most of the locations were low and not significant (P > 0.05). However, P values of a few locations were significant (P < 0.05) but their pairwise FST values were very poor (0.0042-0.0993), which is inadequate to recognize any local populations. Our study revealed that the presence of a single population in the Bangladesh waters with some admixtured individuals, which may contain partial genes from other populations. Most of the individuals were admixed without showing any precise grouping in the ML IQtree and Network, which might due to their highly migratory nature. Fishes from haors and small coastal rivers were not unique and no genetic differences between migratory cohorts. The hilsa shad fishery should be managed considering it as a single panmictic population in Bangladesh with low genetic diversity.