Your search keyword '"Jacqueline L Padilla-Gamiño"' showing total 2 results

1. Are all eggs created equal? A case study from the Hawaiian reef-building coral Montipora capitata

Author

Fenina R. Buttler, Laetitia Hédouin, Ruth D. Gates, Melissa S. Roth, Lisa J. Rodrigues, Claudia Portocarrero, Jacqueline L. Padilla-Gamiño, Sherril Leon Soon, Daniel J. Barshis, Andréa G. Grottoli, Robert R. Bidigare, Frederique Kandel, Stephanie A. Wagenhauser, Xavier Hernández-Pech, and Ada Alamaru

Subjects

Montipora capitata, Symbiodinium, Phenotypic plasticity, biology, Ecology, Coral, fungi, Maternal effect, Context (language use), Aquatic Science, biology.organism_classification, Parental investment, Accessory pigment

Abstract

Parental effects have been largely unexplored in marine organisms and may play a significant role in dictating the phenotypic range of traits in coral offspring, influencing their ability to survive environmental challenges. This study explored parental effects and life-stage differences in the Hawaiian reef-building coral Montipora capitata from different environments by examining the biochemical composition of mature coral colonies and their eggs. Our results indicate that there are large biochemical differences between adults and eggs, with the latter containing higher concentration of lipids (mostly wax esters), ubiquitinated proteins (which may indicate high turnover rate of proteins) and antioxidants (e.g., manganese superoxide dismutase). Adults displayed high phenotypic plasticity, with corals from a high-light environment having more wax esters, lighter tissue δ13C signatures and higher Symbiodinium densities than adults from the low-light environment who had higher content of accessory pigments. A green-algal pigment (α-carotene) and powerful antioxidant was present in eggs; it is unclear whether this pigment is acquired from heterotrophic food sources or from endolithic green algae living in the adult coral skeletons. Despite the broad phenotypic plasticity displayed by adults, parental investment in the context of provisioning of energy reserves and antioxidant defense was the same in eggs from the different sites. Such equality in investment maximizes the capacity of all embryos and larvae to cope with challenging conditions associated with floating at the surface and to disperse successfully until an appropriate habitat for settlement is found.

Published

2012

2. Formation and structural organization of the egg–sperm bundle of the scleractinian coral Montipora capitata

Author

Ruth D. Gates, T. M. Weatherby, Rhian G. Waller, and Jacqueline L. Padilla-Gamiño

Subjects

Cnidaria, Montipora capitata, biology, urogenital system, Ecology, fungi, Scleractinia, Aquatic Science, biology.organism_classification, Spawn (biology), Sperm, medicine.anatomical_structure, Bundle, medicine, Gamete, Mesenteries, reproductive and urinary physiology

Abstract

The majority of scleractinian corals are hermaphrodites that broadcast spawn their gametes separately or packaged as egg–sperm bundles during spawning events that are timed to the lunar cycle. The egg–sperm bundle is an efficient way of transporting gametes to the ocean surface where fertilization takes place, while minimizing sperm dilution and maximizing the opportunity for gamete encounters during a spawning event. To date, there are few studies that focus on the formation and structure of egg–sperm bundle. This study explores formation, ultrastructure, and longevity of the egg–sperm bundle in Montipora capitata, a major reef building coral in Hawai‘i. Our results show that the egg–sperm bundle is formed by a mucus layer secreted by the oocytes. The sperm package is located at the center of each bundle, possibly reflecting the development of male and female gametes in different mesenteries. Once the egg–sperm bundle has reached the ocean surface, it breaks open within 10–35 min, depending on the environmental conditions (i.e., wind, water turbulence). Although the bundle has an ephemeral life span, the formation of an egg–sperm bundle is a fundamental part of the reproductive process that could be strongly influenced by climate change and deterioration of water quality (due to anthropogenic effects) and thus requires further investigation.

Published

2010