Additional file 1 of Lineage-specific symbionts mediate differential coral responses to thermal stress

Abstract

Additional file 1: Fig. S1. Sampling information and dominant symbionts in P. damicornis. Fig. S2. Morphology of P. damicornis. Fig. S3. Neighbor-joining phylogenetic tree reconstructed based on the full-length ITS (ITS1-5.8S-ITS2) sequences amplified in coral nrDNA of P. damicornis colonies collected at the LHT and HH fringing reefs. Fig. S4. Maximum-parsimony (MP) phylogenetic tree and haplotype network reconstructions of ITS2 sequences amplified from Symbiodiniaceae nrDNA in the selected coral samples collected in HH. Fig. S5. Maximum-parsimony (MP) phylogenetic tree and haplotype network reconstructions of ITS2 sequences amplified from Symbiodiniaceae nrDNA in the selected coral samples collected in LHT. Fig. S6. Proportion of photosynthetically fixed carbon translocated to host at control and elevated temperatures. Fig. S7. Principal component analysis (PCA) of physiological traits mediating overall coral response to heat stress in P. damicornis. Table S1. The mean, maximum, and minimum sea surface temperatures (SST) in the two sampling sites. Table S2. Water quality parameters in the two sampling sites. Table S3. Effect of temperature on bleaching rate, Symbiodiniaceae density, photochemical efficiency, and calcification rate in P. damicornis. Table S4. Generalized linear mixed-effects model comparing the effects of fixed and random factors on physiological traits. Table S5. One-way ANOVA assessing the impact of heat stress on physiological traits. Table S6. Three-way ANOVA comparing the impacts of temperature, time and symbiont genotype on Symbiodiniaceae density