<p>Diversity is described for ten plant/substrate types, based on an OTU definition of 97% genetic similarity. (a) The number of OTUs identified in the sample. (b) The non-parametric Shannon diversity index, <i>H</i><sub>NP</sub>. (c) Chao1 diversity.</p
Published studies of rhizobial populations, communities and other strain collections were analysed t...
Similarity-based diversity (Leinster and Cobbold 2012) encompasses classical measures of diversity, ...
The rhizosphere community represents an “ecological interface” between plant and soil, providing the...
<p><i>N</i>, number of environmental samples;</p><p><i>Q</i>, number of clones sequenced;</p><p><i>S...
<p>OTUs were defined at the 97% genetic similarity cut-off using the furthest-neighbor clustering me...
Diversity is the hard currency of ecologists. Various statistics have been developed for summarizing...
<p><i>N<sub>a</sub></i>: observed number of alleles; <i>N<sub>e</sub></i>: effective number of allel...
<p>(a) OTU richness and (b) Chao1 index. Pairwise comparisons are shown; different letters denote si...
<p>Shannon diversity is computed as H′ = −Σ(p<sub>i</sub> ln p<sub>i</sub>) where <i>p</i> represent...
<p>Alpha diversity was calculated as the average of the Shannon Index (H′) per soil type (sandy×clay...
Background: Microbial ecologists often employ methods from classical community ecology to analyze mi...
Background: Microbial ecologists often employ methods from classical community ecology to analyze mi...
<p>Diversity indices of fungal communities in Shengjiadian (S), Honghe (H), and Qindelie (Q) fens.</...
*<p>Only samples where plant was present are included in the analyses.</p><p>All diversities were ca...
The respective Kruskal-Wallis chi-squared statistics and Bonferroni-corrected p-values are listed at...
Published studies of rhizobial populations, communities and other strain collections were analysed t...
Similarity-based diversity (Leinster and Cobbold 2012) encompasses classical measures of diversity, ...
The rhizosphere community represents an “ecological interface” between plant and soil, providing the...
<p><i>N</i>, number of environmental samples;</p><p><i>Q</i>, number of clones sequenced;</p><p><i>S...
<p>OTUs were defined at the 97% genetic similarity cut-off using the furthest-neighbor clustering me...
Diversity is the hard currency of ecologists. Various statistics have been developed for summarizing...
<p><i>N<sub>a</sub></i>: observed number of alleles; <i>N<sub>e</sub></i>: effective number of allel...
<p>(a) OTU richness and (b) Chao1 index. Pairwise comparisons are shown; different letters denote si...
<p>Shannon diversity is computed as H′ = −Σ(p<sub>i</sub> ln p<sub>i</sub>) where <i>p</i> represent...
<p>Alpha diversity was calculated as the average of the Shannon Index (H′) per soil type (sandy×clay...
Background: Microbial ecologists often employ methods from classical community ecology to analyze mi...
Background: Microbial ecologists often employ methods from classical community ecology to analyze mi...
<p>Diversity indices of fungal communities in Shengjiadian (S), Honghe (H), and Qindelie (Q) fens.</...
*<p>Only samples where plant was present are included in the analyses.</p><p>All diversities were ca...
The respective Kruskal-Wallis chi-squared statistics and Bonferroni-corrected p-values are listed at...
Published studies of rhizobial populations, communities and other strain collections were analysed t...
Similarity-based diversity (Leinster and Cobbold 2012) encompasses classical measures of diversity, ...
The rhizosphere community represents an “ecological interface” between plant and soil, providing the...
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