Your search keyword '"Zoanthus sansibaricus"' showing total 6 results

1. Exploring a marine zoanthid - Zoanthus sansibaricus-A potential candidate for drug discovery

Author

Naik, Antara, Tilvi, Supriya Shet, Mythili, Krishna Jeedigunta, and Mendes, Daisy

Published

2024

2. Zoantharian Endosymbiont Community Dynamics During a Stress Event

Author

Yu Fujiwara, Iori Kawamura, James Davis Reimer, and John Everett Parkinson

Subjects

light intensity, quantitative PCR, reciprocal transplant, Symbiodiniaceae, Zoanthus sansibaricus, Microbiology, QR1-502

Abstract

Coral reefs are complex ecosystems composed of many interacting species. One ecologically important group consists of zoantharians, which are closely related to reef-building corals. Like corals, zoantharians form mutualistic symbioses with dinoflagellate micro-algae (family Symbiodiniaceae), but their associations remain underexplored. To examine the degree to which zoantharians exhibit altered symbiont dynamics under changing environmental conditions, we reciprocally transplanted colonies of Zoanthus sansibaricus between intertidal (2 m) and subtidal (26 m) depths within a reef in Okinawa, Japan. At this location, Z. sansibaricus can associate with three Symbiodiniaceae species from two genera distributed along a light and depth gradient. We developed species-specific molecular assays and sampled colonies pre‐ and post-transplantation to analyze symbiont community diversity. Despite large environmental differences across depths, we detected few symbiont compositional changes resulting from transplantation stress. Colonies sourced from the intertidal zone associated with mixtures of a “shallow” Symbiodinium sp. and a “shallow” Cladocopium sp. independent of whether they were transplanted to shallow or deep waters. Colonies sourced from the subtidal zone were dominated by a “deep” Cladocopium sp. regardless of transplant depth. Subtidal colonies brought to shallow depths did not transition to the presumably high-light adapted shallow symbionts present in the new environment, but rather bleached and died. These patterns mirror observations of highly stable coral-algal associations subjected to depth transplantation. Our results indicate that Zoanthus-Symbiodiniaceae symbioses remain stable despite stress, suggesting these important reef community members have relatively low capacity to shuffle to more stress-tolerant micro-algae in response to ongoing climate change.

Published

2021

3. Zoantharian Endosymbiont Community Dynamics During a Stress Event.

Author

Fujiwara, Yu, Kawamura, Iori, Reimer, James Davis, and Parkinson, John Everett

Subjects

CORAL reef restoration, CORAL bleaching, CORAL reefs & islands, INTERTIDAL zonation, WATER depth, CORALS, COMMUNITIES

Abstract

Coral reefs are complex ecosystems composed of many interacting species. One ecologically important group consists of zoantharians, which are closely related to reef-building corals. Like corals, zoantharians form mutualistic symbioses with dinoflagellate micro-algae (family Symbiodiniaceae), but their associations remain underexplored. To examine the degree to which zoantharians exhibit altered symbiont dynamics under changing environmental conditions, we reciprocally transplanted colonies of Zoanthus sansibaricus between intertidal (2 m) and subtidal (26 m) depths within a reef in Okinawa, Japan. At this location, Z. sansibaricus can associate with three Symbiodiniaceae species from two genera distributed along a light and depth gradient. We developed species-specific molecular assays and sampled colonies pre‐ and post-transplantation to analyze symbiont community diversity. Despite large environmental differences across depths, we detected few symbiont compositional changes resulting from transplantation stress. Colonies sourced from the intertidal zone associated with mixtures of a "shallow" Symbiodinium sp. and a "shallow" Cladocopium sp. independent of whether they were transplanted to shallow or deep waters. Colonies sourced from the subtidal zone were dominated by a "deep" Cladocopium sp. regardless of transplant depth. Subtidal colonies brought to shallow depths did not transition to the presumably high-light adapted shallow symbionts present in the new environment, but rather bleached and died. These patterns mirror observations of highly stable coral-algal associations subjected to depth transplantation. Our results indicate that Zoanthus -Symbiodiniaceae symbioses remain stable despite stress, suggesting these important reef community members have relatively low capacity to shuffle to more stress-tolerant micro-algae in response to ongoing climate change. [ABSTRACT FROM AUTHOR]

Published

2021

4. Phylogeny of Symbiodinium populations in zoantharians of the northern Persian Gulf.

Author

Noori Koupaei, Atoosa, Dehghani, Hamed, Mostafavi, Pargol Ghavam, and Mashini, Amirhossein Gheitanchi

Subjects

SYMBIODINIUM, ALGAE, PHYLOGENY, ALGAL populations, OCEAN temperature

Abstract

Zoantharians of the Persian Gulf (PG) experience periods of anomalous high temperature, irradiance and desiccation. Their survival largely relies on the symbiotic relationship with single celled dinoflagellates of the genus Symbiodinium. However, the phylogeny of symbionts of zoantharians has not been investigated in the region. In this study, the second internal transcribed spacer region of ribosomal DNA (ITS2) was used to recognize in hospite populations of Symbiodinium in Palythoa aff. mutuki , Palythoa tuberculosa and Zoanthus sansibaricus colonies from Hengam, Kish, Larak, and Qeshm Islands, in the PG. The results showed subclade D1–4 and a variant of A1, were the most prevalent subclades of Symbiodinium . Predominance of stress tolerant subclade D1–4 and putatively radiation tolerant variant of A1 of Symbiodinium in zoantharian species might suggest an adaptation strategy to the extreme physical environment of the PG. [ABSTRACT FROM AUTHOR]

Published

2016

5. Influence of spatial competitor on the growth and regeneration of the marine sponge Cinachyrella cf. cavernosa (Porifera, Demospongiae)

Author

Anshika Singh and Narsinh L. Thakur

Subjects

0106 biological sciences, food.ingredient, Ecology, 010604 marine biology & hydrobiology, media_common.quotation_subject, Coral, Regeneration (biology), Zoology, Intertidal zone, Aquatic Science, Biology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Competition (biology), Sponge, food, Zoanthus sansibaricus, Growth rate, Cinachyrella, media_common

Abstract

Availability of suitable substratum is often a limiting factor for sessile organisms. We studied growth and regeneration of golf ball sponge Cinachyrella cf. cavernosa with and without its aggressive neighbour, soft coral (Zoanthus sansibaricus) in rocky intertidal area of Anjuna (Goa), India to understand impact of spatial competition on these life-history processes. Specific growth rate of C. cf. cavernosa ranged from 3.38 ± 0.47 to 24.57 ± 1.99% year−1. A wound-healing experiment demonstrated 50–100 times faster regeneration, compared to their average growth rate. Both growth and regeneration decreased as sponge size increased. The sponges exhibited 36–69% higher growth and 30–76% faster regeneration rate in the absence of the competitor species, Z. sansibaricus. The protein synthesis ability (RNA to DNA ratio), which is an index for physiological activity was adversely affected by sponge size and competitor abundance. Results suggest that in a space-limited region, the presence of an aggressive neighbour acts as one of the crucial factors affecting the primary functions (such as growth and regeneration) of the sponge. This study also highlights the remarkable regenerative ability of the slow growing sponge C. cf. cavernosa which aids in maintaining its abundance under stressful conditions of rocky intertidal region.

Published

2015

6. Reproduction of Zoanthus sansibaricus in the infra-littoral zone at Taisho Lava Field, Sakurajima, Kagoshima, Japan

Author

Shusuke Ono, James Davis Reimer, and Junzo Tsukahara

Subjects

Hexacorallia, Male, Periodicity, media_common.quotation_subject, Zoology, Gametogenesis, Sexual Behavior, Animal, Lava field, Japan, Spermatocytes, Littoral zone, Zoanthus sansibaricus, Seasonal breeder, Animals, Seawater, Moon, reproductive and urinary physiology, media_common, geography, geography.geographical_feature_category, biology, Ecology, Reproduction, Histological Techniques, biology.organism_classification, Anthozoa, Zoanthus, Oocytes, Animal Science and Zoology, Female, Zoantharia

Abstract

In order to obtain data on the reproductive pattern of the clonal cnidarian Zoanthus sansibaricus, polyps were sampled by scuba gear at Taisho Lava Field, Sakurajima, for 24 months between April 2000 and March 2002 (polyps collected weekly for breeding season). According to cross-sections, Zoanthus polyps were divided into three sexual types; male, female and asexual, and were found in the same colony. At Sakurajima, Zoanthus sansibaricus spawned in the middle of July, releasing oocytes and sperm. These spawning events occur synchronously with moon phase. In gametogenesis of Zoanthus sansibaricus, oocytes became recognizable in February and grew rapidly from the end of June onward. Spermatocytes became recognizable in June and matured rapidly in the middle of July. After spawning events, oocytes still remaining in the endoderm were absorbed into Zoanthus tissue quickly.

Published

2005