Nuestro objetivo es desarrollar diversas publicaciones científicas que destaquen nuestro compromiso con la conservación de nuestros recursos marinos.
La mayoría de las publicaciones están disponibles gratuitamente en nuestro sitio web.
2022
Arias-Gonzalez, J. E.; Baums, I. B.; Banaszak, A. T.; C. Prada, S. Rossi; E.A. Hernandez-Delgado,; Rinkevich., B.
Editorial: Coral Reef Restoration in a Changing World: Science-Based Solutions Journal Article
In: Frontiers in marine Science, vol. 9, 2022.
Abstract | Links | BibTeX | Tags: adaptive evolution, Climate change, Coastal Resilience, husbandry, Management, modeling, monitoring, propagation, restauration
@article{Arias-González2022,
title = {Editorial: Coral Reef Restoration in a Changing World: Science-Based Solutions},
author = {Arias-Gonzalez, J.E. and I.B. Baums and A.T. Banaszak and C. Prada, S. Rossi and E.A. Hernandez-Delgado, and B. Rinkevich.},
editor = {Raquel Peixoto},
url = {https://www.frontiersin.org/journals/marine-science/articles/10.3389/fmars.2022.919603/full},
doi = {https://doi.org/10.3389/fmars.2022.919603},
year = {2022},
date = {2022-05-23},
urldate = {2022-05-23},
journal = {Frontiers in marine Science},
volume = {9},
abstract = {The collection explores diverse themes, including propagation and husbandry, improved outplanting success, microfragmentation techniques, assisted evolution, larval recruitment, species ecology, and advanced monitoring and modeling tools. Key findings highlight innovative approaches such as universal and goal-based performance metrics for assessing restoration success, the role of sea urchins and fish assemblages in reef recovery, and selective breeding for heat-tolerant corals. Studies also emphasize the importance of genetic diversity, substrate selection, and regional environmental gradients to enhance restoration outcomes. Advanced technologies, like 3D scanning and imaging spectroscopy, alongside data management tools such as the Coral Sample Registry, are showcased as critical for improving restoration scalability and effectiveness. This comprehensive effort underscores the rapid evolution of coral reef restoration as a vital field to preserve ecosystem functionality amidst climate change challenges, offering both general and region-specific solutions to foster resilient reefs worldwide.},
keywords = {adaptive evolution, Climate change, Coastal Resilience, husbandry, Management, modeling, monitoring, propagation, restauration},
pubstate = {published},
tppubtype = {article}
}
The collection explores diverse themes, including propagation and husbandry, improved outplanting success, microfragmentation techniques, assisted evolution, larval recruitment, species ecology, and advanced monitoring and modeling tools. Key findings highlight innovative approaches such as universal and goal-based performance metrics for assessing restoration success, the role of sea urchins and fish assemblages in reef recovery, and selective breeding for heat-tolerant corals. Studies also emphasize the importance of genetic diversity, substrate selection, and regional environmental gradients to enhance restoration outcomes. Advanced technologies, like 3D scanning and imaging spectroscopy, alongside data management tools such as the Coral Sample Registry, are showcased as critical for improving restoration scalability and effectiveness. This comprehensive effort underscores the rapid evolution of coral reef restoration as a vital field to preserve ecosystem functionality amidst climate change challenges, offering both general and region-specific solutions to foster resilient reefs worldwide.
Ruiz-Diaz, Claudia Patricia; Toledo-Hernández, Carlos; Sánchez-González, Juan Luis; Betancourt, Brenda
The Effects of Depth-Related Environmental Factors on Traits in Acropora cervicornis Raised in Nurseries. Journal Article
In: Water, vol. 14, iss. 2, pp. 212, 2022.
Abstract | Links | BibTeX | Tags: Acropora cervicornis, coral farm, light levels, restauration, sea temperature
@article{Ruiz-Diaz2022b,
title = {The Effects of Depth-Related Environmental Factors on Traits in Acropora cervicornis Raised in Nurseries.},
author = {Claudia Patricia Ruiz-Diaz and Carlos Toledo-Hernández and Juan Luis Sánchez-González and Brenda Betancourt},
editor = {Kevin B. Strychar},
url = {https://www.mdpi.com/2073-4441/14/2/212
https://www.researchgate.net/publication/357778397_The_Effects_of_Depth-Related_Environmental_Factors_on_Traits_in_Acropora_cervicornis_Raised_in_Nurseries
https://sampr.org/wp-content/uploads/2024/01/The-Effects-of-Depth-Related-Environmental-Factors-on-Traits-in-Acropora-cervicornis-Raised-in-Nurseries-water-14-00212.pdf},
doi = {https://doi.org/10.3390/w14020212},
year = {2022},
date = {2022-01-12},
urldate = {2022-01-12},
journal = {Water},
volume = { 14},
issue = {2},
pages = {212},
abstract = {Populations of Acropora cervicornis, one of the most important reef-building corals in the Caribbean, have been declining due to human activities and global climate change. This has prompted the development of strategies such as coral farms, aimed at improving the long-term viability of this coral across its geographical range. This study focuses on comprehending how seawater temperature (ST), and light levels (LL) affect the survival and growth of A. cervicornis fragments collected from three reefs in Culebra, Puerto Rico. These individuals were fragmented into three pieces of the similar sizes and placed in farms at 5, 8, and 12 m depth. The fragments, ST and LL were monitored for 11 months. Results show that fragments from shallow farms exhibit significantly higher mortalities when compared to the other two depths. Yet, growth at shallow farms was nearly 24% higher than at the other two depths. Corals grew fastest during winter, when temperature and LL were lowest, regardless of the water depth. Fragment mortality and growth origin were also influenced by reef origin. We conclude that under the current conditions, shallow farms may offer a slight advantage over deep ones provided the higher growth rate at shallow farms and the high fragment survival at all depths.},
keywords = {Acropora cervicornis, coral farm, light levels, restauration, sea temperature},
pubstate = {published},
tppubtype = {article}
}
Populations of Acropora cervicornis, one of the most important reef-building corals in the Caribbean, have been declining due to human activities and global climate change. This has prompted the development of strategies such as coral farms, aimed at improving the long-term viability of this coral across its geographical range. This study focuses on comprehending how seawater temperature (ST), and light levels (LL) affect the survival and growth of A. cervicornis fragments collected from three reefs in Culebra, Puerto Rico. These individuals were fragmented into three pieces of the similar sizes and placed in farms at 5, 8, and 12 m depth. The fragments, ST and LL were monitored for 11 months. Results show that fragments from shallow farms exhibit significantly higher mortalities when compared to the other two depths. Yet, growth at shallow farms was nearly 24% higher than at the other two depths. Corals grew fastest during winter, when temperature and LL were lowest, regardless of the water depth. Fragment mortality and growth origin were also influenced by reef origin. We conclude that under the current conditions, shallow farms may offer a slight advantage over deep ones provided the higher growth rate at shallow farms and the high fragment survival at all depths.