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Dining on corals: stable isotope evidence for close trophic connection between gall crabs (Cryptochiridae) and their stony coral hosts (2024)

Bravo, Henrique ; Dromard, Charlotte R. ; van der Meer, Marcel T. J. ; [et al.]

In: Symbiosis vol. 2024

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Publication Date: 2024-02-14

Description: The exact nature of the relationship between symbiont fauna and their hosts is often unclear, but knowing more about these \nintricate ecological interactions is vital to understand the trophic positions of host-associated fauna, and can aid in accurate \nconstructions of food-webs on coral reefs. Scleractinian corals are hosts to hundreds of symbiont taxa, including fsh and \nmany invertebrate species. Some of these associated fauna are benefcial to their coral host(s), whereas other taxa can have \ndetrimental efects, yet their impact is often difcult to determine. Coral-dwelling gall crabs (Cryptochiridae) are obligate, \noften host-specifc, symbionts of scleractinian corals but the nature of this relationship is still under debate. Three Atlantic \ngall crab species (Kroppcarcinus siderastreicola, Opecarcinus hypostegus and Troglocarcinus corallicola) and their coral \nhosts\xe2\x80\x99 tissue/mucus were collected from reefs in Guadeloupe. Stable carbon and nitrogen isotope values were measured for \n57 crabs inhabiting host coral colonies belonging to seven diferent coral species (although only 27 colonies from fve coral \nspecies were collected), alongside other potential food sources (epilithic algal matrix, plankton and particulate organic matter). The carbon and nitrogen isotope values of gall crabs relative to those of their respective coral host(s) and other possible \nfood sources showed that coral tissue/mucus was the main food source for the crabs. The results of the mixing models further \nsupported this fnding, suggesting that corals are responsible for 40\xe2\x80\x9370% of the crabs\xe2\x80\x99 diet. In T. corallicola, the isotopic \nsignature difered signifcantly between sexes, possibly caused by the high sexual dimorphism observed in this species. \nHere we showed that Atlantic gall crabs mainly dine on coral tissue and/or mucus excreted by their coral hosts, highlighting their nutritional dependence on their host. However, since coral mucus is continuously exuded by scleractinians, hence \nthe energetic or metabolic drain for corals is expected to be minimal. Gall crabs depend on their coral hosts for settlement \ncues as larvae, for habitat as adults and - highlighted by this study - for food, essential for their subsistence. This obligate \ndependence on their hosts for all parts of their life makes them extremely vulnerable to reef degradation, and underlines the \nimportance in understanding the exact nature of a relationship between symbiont and coral host.

Keywords: Caribbean ; Coral-associated fauna ; Scleractinia ; Symbiosis ; Trophic food-web

Repository Name: National Museum of Natural History, Netherlands

Type: info:eu-repo/semantics/article

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Phylomitogenomics elucidates the evolution of symbiosis in Thoracotremata (Decapoda: Cryptochiridae, Pinnotheridae, Varunidae) (2023)

Xu, Tao ; Bravo, Henrique ; Meij, S.E.T. van der

In: PeerJ vol. 11 no. e16217

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Publication Date: 2024-02-08

Description: Background. Thoracotremata belong to the large group of \xe2\x80\x98\xe2\x80\x98true\xe2\x80\x99\xe2\x80\x99 crabs (infraorder \nBrachyura), and they exhibit a wide range of physiological and morphological adaptations to living in terrestrial, freshwater and marine habitats. Moreover, the clade comprises various symbiotic taxa (Aphanodactylidae, Cryptochiridae, Pinnotheridae, some \nVarunidae) that are specialised in living with invertebrate hosts, but the evolutionary \nhistory of these symbiotic crabs is still partially unresolved. \nMethods. Here we assembled and characterised the complete mitochondrial genomes \n(hereafter mitogenomes) of three gall crab species (Cryptochiridae): Kroppcarcinus \nsiderastreicola, Opecarcinus hypostegus and Troglocarcinus corallicola. A phylogenetic \ntree of the Thoracotremata was reconstructed using 13 protein-coding genes and two \nribosomal RNA genes retrieved from three new gall crab mitogenomes and a further 72 \navailable thoracotreme mitogenomes. Furthermore, we applied a comparative analysis \nto characterise mitochondrial gene order arrangement, and performed a selection analysis to test for selective pressure of the protein-coding genes in symbiotic Cryptochiridae, \nPinnotheridae, and Varunidae (Asthenognathus inaequipes and Tritodynamia horvathi). \nResults. The results of the phylogenetic reconstruction confirm the monophyly of \nCryptochiridae, which clustered separately from the Pinnotheridae. The latter clustered \nat the base of the tree with robust branch values. The symbiotic varunids A. inaequipes \nand T. horvathi clustered together in a clade with free-living Varunidae species, \nhighlighting that symbiosis in the Thoracotremata evolved independently on multiple \noccasions. Different gene orders were detected in symbionts and free-living species \nwhen compared with the ancestral brachyuran gene order. Lastly, the selective pressure \nanalysis detected two positively selected sites in the nad6 gene of Cryptochiridae, but \nthe evidence for positive selection in Pinnotheridae and A. inaequipes and T. horvathi \nwas weak. Adaptive evolution of mitochondrial protein-coding genes is perhaps related \nto the presumably higher energetic demands of a symbiotic lifestyle.

Keywords: Adaptive evolution ; Gall crab ; Gene rearrangement ; Mitogenome ; Symbiosis ; Pea crab ; Varunidae

Repository Name: National Museum of Natural History, Netherlands

Type: info:eu-repo/semantics/article

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Environmental flexibility in Oulastrea crispata in a highly urbanised environment: a microbial perspective (2020)

Röthig, Till ; Bravo, Henrique ; Corley, Alison ; [et al.]

Springer

In: Coral Reefs. 2020; 39(3): 649-662. Published 2020 May 02. doi: 10.1007/s00338-020-01938-2.

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Publication Date: 2020-05-02

Print ISSN: 0722-4028

Electronic ISSN: 1432-0975

Topics: Biology , Geosciences

Published by Springer

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Diversification and distribution of gall crabs (Brachyura: Cryptochiridae: Opecarcinus) associated with Agariciidae corals (2021)

Xu, Tao ; Bravo, Henrique ; Paulay, Gustav ; [et al.]

Springer

In: Coral Reefs. 2021; Published 2021 Aug 12. doi: 10.1007/s00338-021-02163-1. [early online release]

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Publication Date: 2021-08-12

Description: Coral reefs are home to the greatest diversity of marine life, and many species on reefs live in symbiotic associations. Studying the historical biogeography of symbiotic species is key to unravelling (potential) coevolutionary processes and explaining species richness patterns. Coral-dwelling gall crabs (Cryptochiridae) live in obligate symbiosis with a scleractinian host, and are ideally suited to study the evolutionary history between heterogeneous taxa involved in a symbiotic relationship. The genus Opecarcinus Kropp and Manning, 1987, like its host coral family Agariciidae, occurs in both Indo-Pacific and Caribbean seas, and is the only cryptochirid genus with a circumtropical distribution. Here, we use mitochondrial and nuclear DNA gene fragments of Opecarcinus specimens sampled from 21 Indo-Pacific localities and one Atlantic (Caribbean) locality. We applied several species delimitation tests to characterise species diversity, inferred a Bayesian molecular-clock time-calibrated phylogeny to estimate divergence times and performed an ancestral area reconstruction. Time to the most recent common ancestor (tMRCA) of Opecarcinus is estimated at 15−6 Mya (middle Miocene—late Miocene). The genus harbours ~ 15 undescribed species as well as several potential species complexes. There are indications of strict host-specificity patterns in certain Opecarcinus species in the Indo-Pacific and Atlantic, however, a robust phylogeny reconstruction of Agariciidae corals—needed to test this further—is currently lacking. The Indo-West Pacific was inferred to be the most probable ancestral area, from where the Opecarcinus lineage colonised the Western Atlantic and subsequently speciated into O. hypostegus. Opecarcinus likely invaded from the Indo-West Pacific across the East Pacific Barrier to the Atlantic, before the full closure of the Isthmus of Panama. The subsequent speciation of O. hypostegus, is possibly associated with newly available niches in the Caribbean, in combination with genetic isolation following the closure of the Panama Isthmus.

Print ISSN: 0722-4028

Electronic ISSN: 1432-0975

Topics: Biology , Geosciences

Published by Springer

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A functional analysis reveals extremely low redundancy in global mangrove invertebrate fauna (2021)

Cannicci, Stefano ; Lee, Shing Yip ; Bravo, Henrique ; [et al.]

National Academy of Sciences

In: PNAS - Proceedings of the National Academy of Sciences of the United States of America. 2021; 118(32): e2016913118. Published 2021 Jul 26. doi: 10.1073/pnas.2016913118.

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Publication Date: 2021-07-26

Description: Deforestation results in habitat fragmentation, decreasing diversity, and functional degradation. For mangroves, no data are available on the impact of deforestation on the diversity and functionality of the specialized invertebrate fauna, critical for their functioning. We compiled a global dataset of mangrove invertebrate fauna comprising 364 species from 16 locations, classified into 64 functional entities (FEs). For each location, we calculated taxonomic distinctness (Δ+), functional richness (FRi), functional redundancy (FRe), and functional vulnerability (FVu) to assess functional integrity. Δ+ and FRi were significantly related to air temperature but not to geomorphic characteristics, mirroring the global biodiversity anomaly of mangrove trees. Neither of those two indices was linked to forest area, but both sharply decreased in human-impacted mangroves. About 60% of the locations showed an average FRe 〈 2, indicating that most of the FEs comprised one species only. Notable exceptions were the Eastern Indian Ocean and west Pacific Ocean locations, but also in this region, 57% of the FEs had no redundancy, placing mangroves among the most vulnerable ecosystems on the planet. Our study shows that despite low redundancy, even small mangrove patches host truly multifunctional faunal assemblages, ultimately underpinning their services. However, our analyses also suggest that even a modest local loss of invertebrate diversity could have significant negative consequences for many mangroves and cascading effects for adjacent ecosystems. This pattern of faunal-mediated ecosystem functionality is crucial for assessing the vulnerability of mangrove forests to anthropogenic impact and provides an approach to planning their effective conservation and restoration.

Print ISSN: 0027-8424

Electronic ISSN: 1091-6490

Topics: Biology , Medicine , Natural Sciences in General

Published by National Academy of Sciences

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