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Genome skimming resolves the phylogeny of giant clams (subfamily Tridacninae)
Giant clams (subfamily Tridacninae) are conspicuous and well-known bivalves of the Indo-Pacific reefs, yet a robust understanding of their phylogeny remains limited. This has... -
giant clam gonad transcriptome
Comparative transcriptomics analysis of different gonadal development reveals potential genes involved in gametogenesis of the fluted giant clam (Tridacna squamosa) -
Assessing the vulnerability of symbiont-bearing giant clams to ocean acidific...
Ocean acidification (OA) severely affects marine bivalves, especially their calcification processes. However, very little is known about the fate of symbiont-bearing giant clams... -
Cardiidae transcriptome
We adopted an RNAseq approach and generated transcriptomic data for Tridacninae, Fraginae and other cardiids with the aim to better understand the evolutionary of photosymbiosis... -
Tridacna squamosa genome
raw data of genome and transcriptome -
Immunity analysis of Tridacna squamosa based on transcriptome
Illumina HiSeq of the ctenidia from Tridacna squamosa -
Seawater carbonate chemistry and growth rates and shell composition in the fl...
Ocean warming and acidification are predicted to impact the physiology of marine organisms, especially marine calcifiers that must deposit calcium carbonate and resist... -
Giant clams and rising CO2: light may ameliorate effects of ocean acidificati...
Global climate change and ocean acidification pose a serious threat to marine life. Marine invertebrates are particularly susceptible to ocean acidification, especially highly... -
Abundance survey data on Tridacna spp. in the eastern Red Sea
Abundance survey data on Tridacna spp. (Tridacna maxima and Tridacna squamosa) giant clams in the eastern Saudi Arabian Red Sea. Surveys cover a latitudinal gradient from 29-18...
