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The microbial community in this well-performing digester was distinguished by high abundance and high population richness of M. bourgensis, emphasising the importance of this methanogenic group for successful operation in high-ammonia, mesophilic conditions.
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We found very high population coverage.
Higher population density and species richness were detected in Nemea than in Peza vineyards and on grapes than in fermenting musts.
Hence, higher clonal (i.e. genotypic richness) and/or genetic (allelic richness) diversity may also be expected to increase the likelihood that the population will display a broader range of responses to variable conditions, displaying a higher phenotypic diversity for key traits as demonstrated in terrestrial plants [ 60], and therefore higher population stability.
In the three D. longispina populations, very high clonal richness was found (MLG/N ranging from 0.97 to 1.00), whereas in D. galeata it was much lower (0.05 to 0.50).
D. longispina populations showed very high clonal richness as well as diversity in the analysed samples.
Additionally, considering that C. heterophylla recently colonized and is in continuing expansion over the SACP, one would expect to find populations with relatively high allelic richness and, at the same time, low heterozygosity.
In contrast, in the invasive range, the South Australian population (subsp. europaea) displayed higher allelic richness than NSW populations (subsp. cuspidata) but the difference was not significant (Wilcoxon test: P = 0.16; Table 2).
The pattern was congruent with our observations - the majority of D. longispina populations were characterised by very high clonal richness and diversity, but two out of three populations of D. galeata included in the analysis showed reduced variation.
Typically, the Blackwater, Nimpkish, Gold rivers, Moosevale Creek, and Ealue Lake had the highest allelic richness within populations (usually greater than the mean across populations, black bars Fig. 4B).
The only population showing more genotypes, higher allelic richness, and lower linkage disequilibrium than the QY population was the WC population.
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