A scuticociliate causes mass mortality of in the Caribbean Sea.

Echinoderm mass mortality events shape marine ecosystems by altering the dynamics among major benthic groups. The sea urchin , virtually extirpated in the Caribbean in the early 1980s by an unknown cause, recently experienced another mass mortality beginning in January 2022. We investigated the cause of this mass mortality event through combined molecular biological and veterinary pathologic approaches comparing grossly normal and abnormal animals collected from 23 sites, representing locations that were either affected or unaffected at the time of sampling.

Intraspecific variation in polar and nonpolar metabolite profiles of a threatened Caribbean coral.

Introduction: Research aimed at understanding intraspecific variation among corals could substantially increase understanding of coral biology and improve outcomes of active restoration efforts. Metabolomics is useful for identifying physiological drivers leading to variation among genotypes and has the capacity to improve our selection of candidate corals that express phenotypes beneficial to restoration.

Objectives: Our study aims to compare metabolomic profiles among known, unique genotypes of the threatened coral Acropora cervicornis.

A novel system for intensive Diadema antillarum propagation as a step towards population enhancement.

The long-spined sea urchin Diadema antillarum was once an abundant reef grazing herbivore throughout the Caribbean. During the early 1980s, D. antillarum populations were reduced by > 93% due to an undescribed disease.

Coastal restoration evaluated using dominant habitat characteristics and associated fish communities.

Increasing coastal populations and urban development have led to the loss of estuarine habitats for fish and wildlife. Specifically, a decline in complexity and heterogeneity of tidal marshes and creeks is thought to negatively impact fish communities by altering the function of nursery grounds, including predator refuge and prey resources. To offset these impacts, numerous agencies are restoring degraded habitats while also creating new ones where habitat has been lost.

Metabolomic profiles differ among unique genotypes of a threatened Caribbean coral.

Global threats to reefs require urgent efforts to resolve coral attributes that affect survival in a changing environment. Genetically different individuals of the same coral species are known to exhibit different responses to the same environmental conditions. New information on coral physiology, particularly as it relates to genotype, could aid in unraveling mechanisms that facilitate coral survival in the face of stressors.

Resolving coral photoacclimation dynamics through coupled photophysiological and metabolomic profiling.

Corals continuously adjust to short-term variation in light availability on shallow reefs. Long-term light alterations can also occur as a result of natural and anthropogenic stressors, as well as management interventions such as coral transplantation. Although short-term photophysiological responses are relatively well understood in corals, little information is available regarding photoacclimation dynamics over weeks of altered light availability.

Physiological management of dietary deficiency in n-3 fatty acids by spawning Gulf killifish (Fundulus grandis).

Lipid dynamics of spawning fish are critical to the production of viable embryos and larvae. The present study utilized manipulation of dietary fatty acid (FA) profiles to examine the ability of spawning Gulf killifish (Fundulus grandis) to mobilize critical lipid components from somatic reserves or synthesize long-chain polyunsaturated FAs (LC-PUFAs) de novo from shorter-chain C18 precursors. An egg and multi-tissue evaluation of changes in FA concentrations across time after fish were switched from LC-PUFA-rich to LC-PUFA-deficient experimental diets was employed.

Diet-induced fatty acid variation in critical tissues of a spawning estuarine fish and consequences for larval fitness.

Freshwater and marine fishes exhibit a dichotomy in biosynthesis of long-chain polyunsaturated fatty acids (LC-PUFAs) from shorter-chain precursors. Marine species generally lack this ability due to deficiencies in requisite desaturase or elongase enzymes. Gulf killifish Fundulus grandis is a euryhaline cyprinodont whose fatty acid (FA) dynamics have not been previously examined.