The distribution of Symbiodinium diversity within individual host foraminifera

Fay, Scott A.; Weber, Michele X.; Lipps, Jere H.

doi:10.1007/s00338-009-0511-y

Cited by 35 publications

(38 citation statements)

References 56 publications

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“…Thus, evaluating the mixotrophic ability of each strain is warranted. In addition to corals, other marine life are known to contain Symbiodinium spp., including sponges, anemones, jellyfish, nudibranchs, clams, and protists such as ciliates and foraminifera (36,37). Our results may stimulate exploration of the heterotrophic feeding ability of Symbiodinium spp.…”

Section: Effects Of Nutrient Conditions On Feeding Of Free-living Symmentioning

confidence: 93%

Heterotrophic feeding as a newly identified survival strategy of the dinoflagellate Symbiodinium

Jeong

Yoo

Kang

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

161

120

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Survival of free-living and symbiotic dinoflagellates (Symbiodinium spp.) in coral reefs is critical to the maintenance of a healthy coral community. Most coral reefs exist in oligotrophic waters, and their survival strategy in such nutrient-depleted waters remains largely unknown. In this study, we found that two strains of Symbiodinium spp. cultured from the environment and acquired from the tissues of the coral Alveopora japonica had the ability to feed heterotrophically. Symbiodinium spp. fed on heterotrophic bacteria, cyanobacteria (Synechococcus spp.), and small microalgae in both nutrient-replete and nutrient-depleted conditions. Cultured free-living Symbiodinium spp. displayed no autotrophic growth under nitrogen-depleted conditions, but grew when provided with prey. Our results indicate that Symbiodinium spp.'s mixotrophic activity greatly increases their chance of survival and their population growth under nitrogen-depleted conditions, which tend to prevail in coral habitats. In particular, free-living Symbiodinium cells acquired considerable nitrogen from algal prey, comparable to or greater than the direct uptake of ammonium, nitrate, nitrite, or urea. In addition, freeliving Symbiodinium spp. can be a sink for planktonic cyanobacteria (Synechococcus spp.) and remove substantial portions of Synechococcus populations from coral reef waters. Our discovery of Symbiodinium's feeding alters our conventional views of the survival strategies of photosynthetic Symbiodinium and corals. mixotrophy | zooxanthella | coral bleaching | food web | Heterosigma

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Section: Effects Of Nutrient Conditions On Feeding Of Free-living Symmentioning

confidence: 93%

Heterotrophic feeding as a newly identified survival strategy of the dinoflagellate Symbiodinium

Jeong

Yoo

Kang

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

161

120

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“…Fine scale (e.g., within clade C) specificity has also been reported with a number of sub-clade types (e.g., C90-C93) associating exclusively with soritids (Pochon et al 2007). However, recent studies have revealed that some soritid genera also associate with sub-clade Symbiodinium types that are common in metazoans, including types C1, C3, C15 and/or C19 (Fay et al 2009;Momigliano and Uthicke 2013). Nevertheless, as a group soritid foraminifera associate with a wider diversity of Symbiodinium clades (C, D, F, G, H, and I) as compared to scleractinians, which are generally found with just four clades, A, B, C and D (Coffroth and Santos 2005).…”

Section: Introductionmentioning

confidence: 93%

“…These authors showed that M. vertebralis forms symbiotic associations with a high diversity of Symbiodinium types encompassing 27 unique ITS-2 genotypes from 4 major clades (C, D, F, and H), including dominant types C3 and C15, which are common in corals (LaJeunesse et al 2003;Cooper et al 2011;Putnam et al 2012;Hsu et al 2012) and on macroalgae (Venera-Ponton et al 2010). Fay et al (2009) also demonstrated that the soritid Amphisorus hemprichii from Papua New Guinea contains mixed populations of Symbiodinium, with the metazoan-generalist type C1 dominating in this species. These examples highlight that soritid forams can harbor host-generalist symbiont types, which could be exchanged between hosts.…”

mentioning

confidence: 92%

“…The symbiosis in these hosts has received less attention than in scleractinian corals and is by comparison not as well understood. The associations between Symbiodinium and soritid foraminifera are interesting in this regard, as soritids are abundant on coral reefs (Langer and Hottinger 2000), they can contain a diversity of co-occurring Symbiodinium genotypes (Pochon et al 2007;Fay et al 2009), and may exchange Symbiodinium with scleractinians (Lee et al 1995;Momigliano and Uthicke 2013). Soritids may therefore serve as a reservoir of genetic variants of Symbiodinium and facilitate the Abstract The exchange of Symbiodinium symbionts among scleractinian and soritid hosts could facilitate acclimatization to changing conditions by establishing novel symbiotic unions better tuned to prevailing conditions.…”

Section: Introductionmentioning

confidence: 99%

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Molecular characterization of symbiotic algae (Symbiodinium spp.) in soritid foraminifera (Sorites orbiculus) and a scleractinian coral (Orbicella annularis) from St John, US Virgin Islands

et al. 2014

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“…The genus Symbiodinium, commonly known as zooxanthellae, comprises symbiotic dinoflagellates, most of which are symbiotic with various species such as corals, sponges, sea anemones, jellyfish, nudibranchs, clams, ciliates, and foraminifera (LaJeunesse 2002, RodriguezLanetty et al 2003, Lewis and Coffroth 2004, Fay et al 2009, Pochon and Gates 2010, Hill et al 2011, Pochon et al 2012, although some exist as free-living forms (Gou et al 2003, Hansen and Daugbjerg 2009, Jeong et al 2012, 2014a, 2014b. They are crucial components of coral reef ecosystems (Iglesias-Prieto et al 1992, Stanley 2006, Stat et al 2006; however, despite their ecological importance in marine ecosystems, not izations such as plate tabulations and related diagnoses have not been provided (LaJeunesse et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Morphological characterization of Symbiodinium minutum and S. psygmophilum belonging to clade B

Lee¹,

Jeong²,

Kang³

et al. 2014

ALGAE

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Dinoflagellates in the genus Symbiodinium are known as zooxanthellae and exist as either symbiotic or free-living forms. Among this genus, two species, Symbiodinium minutum and Symbiodinium psygmophilum, were recently established based on genetic characters. However, some critical morphological characters of these species, such as plate formulae and related diagnoses have not been provided yet. In this study, we analyzed the morphology of S. minutum and S. psygmophilum by scanning and transmission electron microscopy. The S. minutum had the Kofoidian plate formula consisting of a small plate (x), elongated amphiesmal vesicle (EAV), 4ʹ, 5a, 8ʹʹ, 7s, two cingulum rows, 18-20c, 6ʹʹʹ, and 2ʹʹʹʹ, while S. psygmophilum had x, EAV, 4ʹ, 5a, 8ʹʹ, 7-10s, two cingulum rows, 20-22c, 5-6ʹʹʹ, and 1ʹʹʹʹ. These plate formulae are different from any other reported Symbiodinium species. In addition, both species had a pentagonal 1a plate and a hexagonal 2a plate, while other known Symbiodinium species had a hexagonal 1a plate and a pentagonal 2a plate. Thus, we confirm the species status of S. minutum and S. psygmophilum based on morphological and genetic characters and report the detailed morphological characteristics of these two species.

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The distribution of Symbiodinium diversity within individual host foraminifera

Cited by 35 publications

References 56 publications

Heterotrophic feeding as a newly identified survival strategy of the dinoflagellate Symbiodinium

Heterotrophic feeding as a newly identified survival strategy of the dinoflagellate Symbiodinium

Molecular characterization of symbiotic algae (Symbiodinium spp.) in soritid foraminifera (Sorites orbiculus) and a scleractinian coral (Orbicella annularis) from St John, US Virgin Islands

Morphological characterization of Symbiodinium minutum and S. psygmophilum belonging to clade B

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