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1. Thermotolerant coral–algal mutualisms maintain high rates of nutrient transfer while exposed to heat stress

   https://doi.org/10.1098/rspb.2023.1403  

   Kemp, Dustin W. ; Hoadley, Kenneth D. ; Lewis, Allison M. ; Wham, Drew C. ; Smith, Robin T. ; Warner, Mark E. ; LaJeunesse, Todd C. ( September 2023 , Proceedings of the Royal Society B: Biological Sciences)

   Symbiotic mutualisms are essential to ecosystems and numerous species across the tree of life. For reef-building corals, the benefits of their association with endosymbiotic dinoflagellates differ within and across taxa, and nutrient exchange between these partners is influenced by environmental conditions. Furthermore, it is widely assumed that corals associated with symbionts in the genusDurusdiniumtolerate high thermal stress at the expense of lower nutrient exchange to support coral growth. We traced both inorganic carbon (H¹³CO₃^–) and nitrate (¹⁵NO₃^–) uptake by divergent symbiont species and quantified nutrient transfer to the host coral under normal temperatures as well as in colonies exposed to high thermal stress. Colonies representative of diverse coral taxa associated withDurusdinium trenchiiorCladocopiumspp. exhibited similar nutrient exchange under ambient conditions. By contrast, heat-exposed colonies withD. trenchiiexperienced less physiological stress than conspecifics withCladocopiumspp. while high carbon assimilation and nutrient transfer to the host was maintained. This discovery differs from the prevailing notion that these mutualisms inevitably suffer trade-offs in physiological performance. These findings emphasize that many host–symbiont combinations adapted to high-temperature equatorial environments are high-functioning mutualisms; and why their increased prevalence is likely to be important to the future productivity and stability of coral reef ecosystems.

    

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2. Formal recognition of host‐generalist species of dinoflagellate ( Cladocopium , Symbiodiniaceae) mutualistic with Indo‐Pacific reef corals

   https://doi.org/10.1111/jpy.13340  

   Butler, Caleb C. ; Turnham, Kira E. ; Lewis, Allison M. ; Nitschke, Matthew R. ; Warner, Mark E. ; Kemp, Dustin W. ; Hoegh‐Guldberg, Ove ; Fitt, William K. ; van Oppen, Madeleine J. H. ; LaJeunesse, Todd C. ( May 2023 , Journal of Phycology)

   The existence of widespread species with the capacity to endure diverse, or variable, environments are of importance to ecological and genetic research, and conservation. Such “ecological generalists” are more likely to have key adaptations that allow them to better tolerate the physiological challenges of rapid climate change. Reef‐building corals are dependent on endosymbiotic dinoflagellates (Family: Symbiodiniaceae) for their survival and growth. While these symbionts are biologically diverse, certain genetic types appear to have broad geographic distributions and are mutualistic with various host species from multiple genera and families in the order Scleractinia that must acquire their symbionts through horizontal transmission. Despite the considerable ecological importance of putative host‐generalist symbionts, they lack formal species descriptions. In this study, we used molecular, ecological, and morphological evidence to verify the existence of five new host‐generalist species in the symbiodiniacean genusCladocopium. Their geographic distribution and prevalence among host communities corresponds to prevailing environmental conditions at both regional and local scales. The influence that each species has on host physiology may partially explain regional differences in thermal sensitivities among coral communities. The potential increased prevalence of a generalist species that endures environmental instability is a consequential ecological response to warming oceans. Large‐scale shifts in symbiont dominance could ensure reef coral persistence and productivity in the near term. Ultimately, these formal designations should advance scientific communication and generate informed research questions on the physiology and ecology of coral‐dinoflagellate mutualisms.

    

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3. Filamentous virus-like particles are present in coral dinoflagellates across genera and ocean basins

   https://doi.org/10.1038/s41396-023-01526-6  

   Howe-Kerr, Lauren I. ; Knochel, Anna M. ; Meyer, Matthew D. ; Sims, Jordan A. ; Karrick, Carly E. ; Grupstra, Carsten G. B. ; Veglia, Alex J. ; Thurber, Andrew R. ; Vega Thurber, Rebecca L. ; Correa, Adrienne M. S. ( November 2023 , The ISME Journal)

   Filamentous viruses are hypothesized to play a role in stony coral tissue loss disease (SCTLD) through infection of the endosymbiotic dinoflagellates (Family Symbiodiniaceae) of corals. To evaluate this hypothesis, it is critical to understand the global distribution of filamentous virus infections across the genetic diversity of Symbiodiniaceae hosts. Using transmission electron microscopy, we demonstrate that filamentous virus-like particles (VLPs) are present in over 60% of Symbiodiniaceae cells (genusCladocopium) within Pacific corals (Acropora hyacinthus,Porites c.f. lobata); these VLPs are more prevalent in Symbiodiniaceae of in situ colonies experiencing heat stress. Symbiodiniaceae expelled fromA. hyacinthusalso contain filamentous VLPs, and these cells are more degraded than theirin hospitecounterparts. Similar to VLPs reported from SCTLD-affected Caribbean reefs, VLPs range from ~150 to 1500 nm in length and 16–37 nm in diameter and appear to constitute various stages in a replication cycle. Finally, we demonstrate that SCTLD-affected corals containing filamentous VLPs are dominated by diverse Symbiodiniaceae lineages from the generaBreviolum, Cladocopium, andDurusdinium. Although this study cannot definitively confirm or refute the role of filamentous VLPs in SCTLD, it demonstrates that filamentous VLPs are not solely observed in SCTLD-affected corals or reef regions, nor are they solely associated with corals dominated by members of a particular Symbiodiniaceae genus. We hypothesize that filamentous viruses are a widespread, common group that infects Symbiodiniaceae. Genomic characterization of these viruses and empirical tests of the impacts of filamentous virus infection on Symbiodiniaceae and coral colonies should be prioritized.

    

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4. Direct evidence of sex and a hypothesis about meiosis in Symbiodiniaceae

   https://doi.org/10.1038/s41598-021-98148-9  

   Figueroa, R. I. ; Howe-Kerr, L. I. ; Correa, A. M. ( December 2021 , Scientific Reports)

   null (Ed.)

   Abstract Dinoflagellates in the family Symbiodiniaceae are obligate endosymbionts of diverse marine invertebrates, including corals, and impact the capacity of their hosts to respond to climate change-driven ocean warming. Understanding the conditions under which increased genetic variation in Symbiodiniaceae arises via sexual recombination can support efforts to evolve thermal tolerance in these symbionts and ultimately mitigate coral bleaching, the breakdown of the coral-Symbiodiniaceae partnership under stress. However, direct observations of meiosis in Symbiodiniaceae have not been reported, despite various lines of indirect evidence that it occurs. We present the first cytological evidence of sex in Symbiodiniaceae based on nuclear DNA content and morphology using Image Flow Cytometry, Cell Sorting and Confocal Microscopy. We show the Symbiodiniaceae species, Cladocopium latusorum , undergoes gamete conjugation, zygote formation, and meiosis within a dominant reef-building coral in situ. On average, sex was detected in 1.5% of the cells analyzed (N = 10,000–40,000 cells observed per sample in a total of 20 samples obtained from 3 Pocillopora colonies). We hypothesize that meiosis follows a two-step process described in other dinoflagellates, in which diploid zygotes form dyads during meiosis I, and triads and tetrads as final products of meiosis II. This study sets the stage for investigating environmental triggers of Symbiodiniaceae sexuality and can accelerate the assisted evolution of a key coral symbiont in order to combat reef degradation. 

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5. Cladocopium community divergence in two Acropora coral hosts across multiple spatial scales

   https://doi.org/10.1111/mec.15668  

   Davies, Sarah W. ; Moreland, Kelsey N. ; Wham, Drew C. ; Kanke, Matt R. ; Matz, Mikhail V. ( October 2020 , Molecular Ecology)

   Many broadly‐dispersing corals acquire their algal symbionts (Symbiodiniaceae) “horizontally” from their environment upon recruitment. Horizontal transmission could promote coral fitness across diverse environments provided that corals can associate with divergent algae across their range and that these symbionts exhibit reduced dispersal potential. Here we quantified community divergence ofCladocopiumalgal symbionts in two coral host species (Acropora hyacinthus, Acropora digitifera) across two spatial scales (reefs on the same island, and between islands) across the Micronesian archipelago using microsatellites. We find that both hosts associated with a variety of multilocus genotypes (MLG) within two genetically distinctCladocopiumlineages (C40, C21), confirming thatAcroporacoral hosts associate with a range ofCladocopiumsymbionts across this region. Both C40 and C21 included multiple asexual lineages bearing identical MLGs, many of which spanned host species, reef sites within islands, and even different islands. Both C40 and C21 exhibited moderate host specialization and divergence across islands. In addition, within every island, algal symbiont communities were significantly clustered by both host species and reef site, highlighting that coral‐associatedCladocopiumcommunities are structured across small spatial scales and within hosts on the same reef. This is in stark contrast to their coral hosts, which never exhibited significant genetic divergence between reefs on the same island. These results support the view that horizontal transmission could improve local fitness for broadly dispersingAcroporacoral species.

    

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