Pathology and genetic connectedness of the mangrove crab (Aratus pisonii) – a foundation for understanding mangrove disease ecology

Nudiviruses in free-living and parasitic arthropods: evolutionary taxonomy

The nudiviruses (family: Nudiviridae) are large double-stranded DNA (dsDNA) viruses that infect insects and crustaceans, and have most recently been identified from ectoparasitic members (fleas and lice). This virus family was created in 2014 and has since been expanded via the discovery of multiple novel viral candidates or accepted members, sparking the need for a new taxonomic and evolutionary overview. Using current information (including data from public databases), we construct a new comprehensive phylogeny, encompassing 49 different nudiviruses. We use this novel phylogeny to propose a new taxonomic structure of the Nudiviridae by suggesting two new viral genera (Zetanudivirus and Etanudivirus), from ectoparasitic lice. We detail novel emerging relationships between nudiviruses and their hosts, considering their evolutionary history and ecological role.

Exploring microbiome and plankton responses and interactions in the mangrove ecosystem through eDNA and network analysis

The comprehensive analysis of multiple biological communities is essential for assessing diversities within mangrove ecosystems, yet such studies are infrequent. Environmental DNA (eDNA) facilitates the simultaneous exploration of organisms across various levels within a single ecosystem. In this investigation, 16S rRNA, cytochrome C oxidase I (COI), and Mito-fish primers were employed to characterize the microbiome, eukaryotic plankton, and fish communities, along with their intricate interactions, across 24 samples from three Chinese mangrove reservoirs. The resulting dataset encompasses 3779 taxonomic groups (genus level), spanning from the microbiome to vertebrates. Diversity analysis unveiled a higher level of stability in the microbiome community compared to plankton, underscoring the superior site-specificity of plankton. The association analysis revealed that biodiversity was primarily affected by temperature, turbidity, and fluorescent dissolved organic matter (fDOM). Notably, the physicochemical factors, turbidity, and fDOM had a more pronounced impact on the microbiome than on plankton, explaining their distinct sensitivities to site-specific conditions. Network analysis constructed 15 biological interaction subnetworks representing various community connections. The most connected genera in each subnetwork, highly responsive to different environmental factors, could serve as potential indicators of distinct ecosystem states. In summary, our findings represent the first comparison of the response sensitivities of different communities and the construction of their interaction networks in mangrove environments. These results contribute valuable insights into marine ecosystem dynamics and the role of environmental factors in shaping biodiversity.

A new member of the Nudiviridae from the Florida stone crab (Menippe mercenaria)

Menippe mercenaria, the Florida stone crab, supports an unconventional fishery across the southern USA and Caribbean that involves claw-removal and the return of de-clawed animals to the sea. We provide pathological, ultrastructural, and genomic detail for a novel hepatopancreatic, nucleus-specific virus - Menippe mercenaria nudivirus (MmNV) - isolated from M. mercenaria, captured during fisheries-independent monitoring. The virus has a genome of 99,336 bp and encodes 84 predicted protein coding genes and shows greatest similarity to Aratus pisonii nudivirus (ApNV) (<60% protein similarity and 31 shared genes of greatest similarity), collected from the Florida Keys, USA. MmNV is a member of the Gammanudivirus genus (Naldaviricetes: Lefavirales: Nudiviridae). Comparisons of virus genome size, preferred host environment, and gene number revealed no clear associations between the viral traits and phylogenetic position. Evolution of the virus alongside the diversification of host taxa, with the potential for host-switching, remain more likely evolutionary pathways.

Rediscovering "Baculovirus-A" (Johnson, 1976): The complete genome of 'Callinectes sapidus nudivirus'

Callinectes sapidus, or the 'blue crab', supports an extensive east-coast USA fishery and was one of the first crustacean species in which viruses were observed. Pioneering research by Dr Phyllis Johnson led to these initial discoveries, one of which included the discovery of a virus termed "Baculovirus-A". This virus was considered a potential member of the Baculoviridae, Nimaviridae, or Nudiviridae, in which all viral members are rod-shaped dsDNA viruses found in the nucleus of their host cell. With the availability of genomic and bioinformatic tools, such as Illumina HiSeq and assembly programs, it is now possible to assemble the genomes of viruses and gain additional genomic insight, which can shed light on viral taxonomy. Using these tools, alongside electron micrographs and histology slides, we reveal that the hepatopancreas-infecting 'Baculovirus-A' from Callinectes sapidus is a member of the Nudiviridae, resembling genetic and protein similarity to other crab and lobster infecting nudiviruses from the Gammanudivirus genus. Histologically, the virus causes nuclear hypertrophy as observed for other gammanuriviruses. The genome of the virus is circular, 122,436 bp in length, and encodes a predicted 98 protein coding genes, including all of the nudivirus core genes. The prevalence of virus from across Florida, USA, is provided alongside a genomic comparison of the new viral genome against other Gammanudivirus species, revealing the average prevalence to be 2.2% and that Callinectes sapidus nudivirus is distantly similar to the recently described Carcinus maenas nudivirus from Canada.