Temporal trend data (2005-2020) in density and biomass of 13 herbivorous fishes in the Gulf of California.

This dataset comes from a multi-institution compilation of monitoring information for 13 marine herbivorous fishes belonging to six genera of five families: Acanthuridae, Girellidae, Kyphosidae, Pomacentridae and Scaridae, gathered from 2005 to 2020 in the Gulf of California. The database presents a total of 884 records of biomass and density got from 15,542 visual censuses performed using scuba diving in 34 localities comprising 268 rocky and coral reef sites. The censuses consisted of belt transects (250 m2, 100 m2, and 60 m2) laid parallel to the coastline, where expert monitors recorded the abundance of all observed adult individuals of the 13 target herbivorous species, and visually estimated the total length (cm) of each fish. In the database, the information for each transect is presented in the form of average fish density (individuals/m2) and biomass (g/m2), the latter was estimated based on the abundance and size per individual and the published weight-length relationship for each species. Also, we present the latitude and longitude of each locality, type of management, localities in the Gulf of California, institutions, the initial and final year of data, total number of years, as well as the mean, standard deviation, sample size, slope (annual rate of change), probability value, standard error and minimum and maximum value calculated for each species within each locality. This dataset represents an historical baseline of the status of the 13 species in the Gulf of California and can be used to conduct analyses of temporal and spatial trends in herbivorous fish assemblages, considering tropicalization of the interest region due to global change. Moreover, this data will provide key information to stakeholders and managers of protected areas along the gulf and the eastern tropical Pacific region.

Depredación masiva por Acanthaster planci en el arrecife El Corralito, golfo de California: amenaza a corto plazo / Massive predation by Acanthaster planci in El Corralito, gulf of California: a short-term threat

Introducción: Una de las amenazas actuales para los arrecifes de coral es la pérdida de cobertura de coral vivo. La depredación masiva asociada con los brotes poblaciones de la estrella corona de espinas, amenaza la permanencia de los arrecifes. Desde 2017, ha habido evidencia de un incremento en la densidad de el asteroideo y de un incremento en la mortalidad coralina en el sur del golfo de California. Objetivo: Describir el primer evento de depredación sobre corales por Acanthaster planci en la isla Espíritu Santo, golfo de California, México. Métodos: visitamos el arrecife El Corralito nueve veces entre 2017 y 2019, realizando censos visuales en transectos errantes y de banda (25 x 3m) para determinar la densidad de la estrella, su comportamiento y daño. Monitoreamos la depredación sobre las colonias de Pavona gigantea durante siete meses. Resultados: La densidad promedio de individuos en El Corralito en 2018-19 fue 607.40 ind/ha. La depredación del asteoroideo fue evidente en más del 60% de los individuos diagnosticados (N=827), con las afectaciones más grandes en las colonias de P. gigantea (80%). El 63% de los 129 de los individuos del asteroideo observados estaban alimentándose principalmente sobre Porites panamensis (68% de los casos). Las lesiones agudas indican que el evento de depredación está activo. En 81 días, se perdieron 25m 2 de una de las colonias monitoreadas. Conclusiones: Existe un evento de brote poblacional activo con consecuencias negativas significativas sobre el arrecife El Corralito, el cual puede ocasionar pérdida de cobertura de coral en pocos meses. El monitoreo y el manejo son necesarios para establecer las razones que llevaron a brote poblacional y para controlarlo.

Introduction: One of the current threats to coral reefs is the loss of live coral cover. Massive predation associated with population outbreaks of the crown of thorns seastar, threatens the permanence of the reefs. Since 2017, there has been evidence of an increase in the density of the asteroid and an increase in coral mortality in the southern gulf of California. Objective: To describe the first event of massive predation on corals by Acanthaster planci in Espiritu Santo Island, gulf of California, Mexico. Methods: We visited El Corralito reef nine times between 2017 and 2019, using errant and band transect (25 x 3 m) visual censuses to determine Star density, behavior and damage. Over seven months, we monitored predation on colonies of Pavona gigantea. Results: The mean density of individuals in El Corralito in 2018-2019 was 607.40 ind/ha. Asteroid predation was evident in more than 60 % of diagnosed individuals (N = 827), with the greatest affectations in the P. gigantea colonies (80 %). 63 % of the 129 observed asteroid individuals were feeding mainly on Porites panamensis (68 % of cases). Acute injuries indicate that the predation event is active. In 81 days, 25 m2 of one of the monitored colonies were lost. Conclusions : There is an active outbreak event with significant negative consequences on the El Corralito reef, which could determine the loss of coral cover in a few months. Monitoring and management are required to establish the reasons that led to the outbreak and to control it.

Wound repair in Pocillopora.

Corals routinely lose tissue due to causes ranging from predation to disease. Tissue healing and regeneration are fundamental to the normal functioning of corals, yet we know little about this process. We described the microscopic morphology of wound repair in Pocillopora damicornis. Tissue was removed by airbrushing fragments from three healthy colonies, and these were monitored daily at the gross and microscopic level for 40days. Grossly, corals healed by Day 30, but repigmentation was not evident at the end of the study (40d). On histology, from Day 8 onwards, tissues at the lesion site were microscopically indistinguishable from adjacent normal tissues with evidence of zooxanthellae in gastrodermis. Inflammation was not evident. P. damicornis manifested a unique mode of regeneration involving projections of cell-covered mesoglea from the surface body wall that anastomosed to form gastrovascular canals.

Explained and unexplained tissue loss in corals from the Tropical Eastern Pacific.

Coral reefs rival rainforest in biodiversity, but are declining in part because of disease. Tissue loss lesions, a manifestation of disease, are present in dominant Pocillopora along the Pacific coast of Mexico. We characterized tissue loss in 7 species of Pocillopora from 9 locations (44 sites) spanning southern to northern Mexico. Corals were identified to species, and tissue loss lesions were photographed and classified as those explainable by predation and those that were unexplained. A focal predation study was done concurrently at 3 locations to confirm origin of explained lesions. Of 1054 cases of tissue loss in 7 species of corals, 84% were associated with predation (fish, snails, or seastar) and the remainder were unexplained. Types of tissue loss were not related to coral density; however there was significant geographic heterogeneity in type of lesion; one site in particular (Cabo Pulmo) had the highest prevalence of predator-induced tissue loss (mainly pufferfish predation). Crown-of-thorns starfish, pufferfish, and snails were the most common predators and preferred P. verrucosa, P. meandrina, and P. capitata, respectively. Of the 9 locations, 4 had unexplained tissue loss with prevalence ranging from 1 to 3% with no species predilection. Unexplained tissue loss was similar to white syndrome (WS) in morphology, indicating additional study is necessary to clarify the cause(s) of the lesions and the potential impacts to dominant corals along the Pacific coast of Mexico.

Gross and microscopic pathology of lesions in Pocillopora spp. from the subtropical eastern Pacific.

Coral reefs are threatened by a variety of factors including diseases that have caused significant damage in some regions such as in the Caribbean. At present, no data are available on coral diseases in the Mexican Pacific where Pocillopora spp. is a dominant component of coral communities. Here, we describe gross and microscopic morphology of lesions found in pocilloporids at four sites in the Mexican Pacific. Corals were identified and their lesions photographed and quantified in the field. Tissue samples were collected from healthy and affected colonies for histopathology. We recorded seven species of pocilloporids at the study sites with Isla Isabel being the location with the highest coral diversity (H'=1.27). Lesions were present in 42% of the colonies and included discoloration (32%), predation-induced tissue loss (30%), unexplained tissue loss (3%) and overgrowth by sponges or algae (35%). The most affected species, P. damicornis (50%), was also one of the most common in the region. No species was more prone to a particular lesion, but there was a significant association between location and the presence of lesions. Northern Islas Marietas (61%) and Isla Isabel (41%) had the highest prevalence of lesions, followed by Manzanillo (37%) and Bahías de Huatulco (23%). Histological changes included atrophy of the surface body wall with depletion of zooxanthellae (91%) in corals with discoloration (bleaching). Ablation of tissue from mesoglea (18%) was also observed. Colonies with unexplained tissue loss showed atrophy and thinning of the epidermis (89%), characterized by cuboidal instead of pseudocolumnar cells normally found in healthy pseudocolumnar ciliated epithelium. Bacterial aggregates between the mesoglea and gastrodermis (11%) were very conspicuous in healthy and diseased corals. Lesions produced by fish bites and gastropods were associated with tissue atrophy (40%) and, in some cases, algal overgrowth near the lesion (20%). No infectious agents associated with cell pathology were detected microscopically. Bleaching and overgrowth by algae and sponges, as well as unexplained tissue loss, are common in Pocillopora. These lesions and anatomical changes warrant further study since their incidence is potentially indicative of reef degradation.