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Table 1: Dissimilarity Tests of Microbial Communities of Different Fish Species Eggs Based on Jaccard and Bray–Curtis Distance.
doi 10.7717/peerj.8517/table-1
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Figure S3: Dendrogram Based on a Bray-Curtis Dissimilarity of Dinoflagellate Communities Along the Songhua River
Figure 6: Relationship Between Troglobitic Community Dissimilarity (Bray–Curtis Distance) and Geographic Distance Resistance Distance.
Figure 2: Bray–Curtis Dissimilarity Measure for Visit 1 and Visit 2 by Body Site.
Table 4: List of Species Which Contribute Most to the Bray-Curtis Dissimilarity Matrices for the 2013 Mat Survey and the 2014 Natural Experiment.
Table 4: Bray–Curtis Dissimilarity Between Visit 1 and Visit 2, According to Socioeconomic Status and Antibiotic Exposures for Vaginal, Oral, and Gut Body Sites.
Table 4: Summary of Similarity Percentage Analysis (SIMPER) Listing Species That Cumulatively Contribute 90% to the Dissimilarity (Bray Curtis) of the Two Underwater Visual Sampling Methods Based on Square-Root Transformed Density Data.
Figure 3: Correlations Between Different Components of Environmental Distance (Environmental Dissimilarity, Hydrological Dissimilarity, Nutrient Dissimilarity, and Vegetation Dissimilarity) and Taxonomic Dissimilarities of (A) Bacterial and (B) Fungal Communities and Modules.
Figure 2: Distribution of the Samples Determined Through Non-Metric Multidimensional Scaling Using Bray–Curtis (A) and Jaccard (B) Matrixes.
I-1. DNA Species Identification of Pelagic Fish Eggs
Nippon Suisan Gakkaishi
Aquatic Science
