Impact assessment of biofouling resistant nano copper oxide-polyaniline coating on aquaculture cage nets

Biofouling is a major issue in aquaculture cages and nano materials based antifouling strategies became more prominent in recent years.Polyethylene aquaculture cage net surface which is modified with polyaniline and nano-copper oxide(CuO),reported to have biofouling resistance.Leaching of nano CuO from the net to the aquatic environment and its bioaccumulation in fish is the major concern against the technology adoption.The present study aimed to understand the accumulation of copper in fishes grown in a nano CuO treated aquaculture cage net.Studied the leaching pattern of nano CuO,biofouling inhibition and changes in strength of the cage net due to the nano CuO treatments.Fishes grown in the treated cages exhibited normal growth characteristics with no signs of abnormalities and also copper in their organs were within the prescribed standard limit.The CuO treated cage net exhibited excellent biofouling resistance and the percentage of occlusion of mesh by foulers were 56.77%more efficient than untreated cage net.Rate of nano CuO leached to the aquatic system was less than 8μg/g⋅d.The fouling organism assemblage on untreated and treated net was 18 and 11 species,respectively.Major calcareous shelled foulers were absent on treated nets.The study highlighted the potential application of nano CuO treatment to control biofouling in aquaculture cages.

Insights into the divergent evolution of the oceanic squid Sthenoteuthis oualaniensis(Cephalopoda:Ommastrephidae)from the Indian Ocean

Sthenoteuthis oualaniensis is known for its complex population structure with three major transoceanic forms(viz.middle-sized,dwarf,and giant forms)whose taxonomic status has been disputed for decades.This integrated taxonomic study examines these prevenient morphotypes gathered on cruises in the Indian Ocean to ascertain their status in the evolutionary history of the species.Molecular analyses employing mitochondrial(COI,ND2)and nuclear(H3)markers revealed four genetically distinct and novel lineages of the species in the Indian Ocean,representing three morphotypes from the Arabian Sea and one from the Southern Indian Ocean.The mitochondrial-based phylograms revealed two distinct clades in the species:“dwarf forms+giant form”and“middle-sized forms,”which further branch into geographically structured evolutionary units.Species delimitation analyses recovered five distinct clades,namely,the Arabian Sea giant and dwarf forms,Equatorial,Eastern Typical,and Other Middle-sized forms,representing the consensus molecular operational taxonomic units.H3 being heterozygous could not resolve the phylogeny.Haplotype network and AMOVA analysis of mtDNA genes indicated explicit phylogeographic structuring of haplotypes,whereas these outputs and PCA results were incongruent with the morphological grouping.Phenetic features distinguishing the morphotypes were sometimes plastic and mismatched with the genotypes.The giant form was genetically close to the dwarf forms,contradicting the earlier notion that it descended from the middle-sized form.It may be assumed that the dwarf form evolved following sympatric speciation and adaptation to warm equatorial waters,while the focal features of the Western Arabian Sea guide toward allopatric speciation of the giant form.