A holistic and comprehensive data approach validates the distribution of the critically endangered flapper skate (Dipturus intermedius).

Morphological similarities between skates of the genus Dipturus in the north-eastern Atlantic and Mediterranean have resulted in longstanding confusion, misidentification and misreporting. Current evidence indicates that the common skate is best explained as two species, the flapper skate (Dipturus intermedius) and the common blue skate (D. batis). However, some management and conservation initiatives developed prior to the separation continue to refer to common skate (as 'D. batis'). This taxonomic uncertainty can lead to errors in estimating population viability, distribution range, and impact on fisheries management and conservation status. Here, we demonstrate how a concerted taxonomic approach, using molecular data and a combination of survey, angler and fisheries data, in addition to expert witness statements, can be used to build a higher resolution picture of the current distribution of D. intermedius. Collated data indicate that flapper skate has a more constrained distribution compared to the perceived distribution of the 'common skate', with most observations recorded from Norway and the western and northern seaboards of Ireland and Scotland, with occasional specimens from Portugal and the Azores. Overall, the revised spatial distribution of D. intermedius has significantly reduced the extant range of the species, indicating a possibly fragmented distribution range.

Evidence of egg-laying grounds for critically endangered flapper skate (Dipturus intermedius) off Orkney, UK.

Essential fish habitats (EFHs) are critical for fish life-history events, including spawning, breeding, feeding or growth. This study provides evidence of EFHs for the critically endangered flapper skate (Dipturus intermedius) in the waters around the Orkney Isles, Scotland, based on citizen-science observation data. The habitats of potential egg-laying sites were parametrised as >20 m depth, with boulders or exposed bedrock, in moderate current flow (0.3-2.8 knots) with low sedimentation. This information provides a significant contribution to the understanding of EFHs for flapper skate.

Biodiversity Assessment, DNA Barcoding, and the Minority Majority.

The majority of species on Earth are in "under-studied" groups, and indeed probably the majority of species remain undiscovered and undescribed. Species are natural units of evolution, and they are formed from branching phylogenetic processes that have a mathematical structure. So it follows that we should be able to develop a set of general principles that describe global patterns of species groups, like genera. Understanding such patterns would lend considerable power to the approach of "taxonomic surrogacy." In environmental assessments, ecology, and paleontology, it is common to substitute genus-level or family-level identification where definitive species identification is impractical. Clarity and confidence in fundamental patterns, based on a robust null model for species and genus level diversity, can accelerate species discovery: there are more species in the tropics, species-poor genera are very common, large genera are rare. Much hope has been placed in DNA barcoding as an effective tool to increase the pace of species discovery, but it is abundantly clear that certain mitochondrial DNA (mtDNA) markers are more or less variable in different clades and universal threshold values are impractical to delimit species. This study further examines the patterns of divergence in one common mtDNA barcode fragment, cytochrome c oxidase subunit 1at the genus level. We compared pairwise divergence in this fragment between two animal clades that have similar species richness but different evolutionary histories: birds and bivalves. We analyzed quality controlled alignments of over 39,000 published sequences in 1223 genera. Median pairwise differences at the genus level are positively correlated with the species richness of a genus, and this is not dependent of the number of sequences sampled. Unsurprisingly, sequence divergence in vertebrates was far more constrained than in evolutionarily more ancient non-vertebrate clades. Differences among the groups examined highlight the need for DNA barcode approaches to be considered in the context of specific biological groups. Vertebrates are better studied, but not necessarily representative of the majority of biodiversity. A technique that provides powerful insights for vertebrate species may be ineffective for the majority of organisms.

Aging in personal and social immunity: do immune traits senesce at the same rate?

How much should an individual invest in immunity as it grows older? Immunity is costly and its value is likely to change across an organism's lifespan. A limited number of studies have focused on how personal immune investment changes with age in insects, but we do not know how social immunity, immune responses that protect kin, changes across lifespan, or how resources are divided between these two arms of the immune response. In this study, both personal and social immune functions are considered in the burying beetle, Nicrophorus vespilloides. We show that personal immune function declines (phenoloxidase levels) or is maintained (defensin expression) across lifespan in nonbreeding beetles but is maintained (phenoloxidase levels) or even upregulated (defensin expression) in breeding individuals. In contrast, social immunity increases in breeding burying beetles up to middle age, before decreasing in old age. Social immunity is not affected by a wounding challenge across lifespan, whereas personal immunity, through PO, is upregulated following wounding to a similar extent across lifespan. Personal immune function may be prioritized in younger individuals in order to ensure survival until reproductive maturity. If not breeding, this may then drop off in later life as state declines. As burying beetles are ephemeral breeders, breeding opportunities in later life may be rare. When allowed to breed, beetles may therefore invest heavily in "staying alive" in order to complete what could potentially be their final reproductive opportunity. As parental care is important for the survival and growth of offspring in this genus, staying alive to provide care behaviors will clearly have fitness payoffs. This study shows that all immune traits do not senesce at the same rate. In fact, the patterns observed depend upon the immune traits measured and the breeding status of the individual.