One of the challenges for the culture of any species is to control the loss of genetic variability, which may result in a decrease in the quality of commercially important traits. The goal of this study is to assess the genetic diversity of a hatchery population of the Paci¢c abalone (Haliotis discus hannai) from the Center for Abalone Production of the Universidad Cato¤ lica del Norte (CAP-UCN) that is maintained under a breeding programme. We used six polymorphic microsatellite markers within the cultivated population. The loci Awb033 and Awb079 had the highest number of alleles (11 and 10 respectively) and the loci Awb022 and Awb026 the lowest (two and four respectively). The mean number of alleles per locus was 6.83. The average observed and expected heterozygosities were 0.71 and 0.70, respectively, and the average F IS (f) index was À 0.023. We compared the population genetic parameters of the CAP-UCN population with previously published data of wild and hatchery populations of the same species. Results indicate lower genetic diversity estimated as allelic richness in the introduced population with a loss of 11^58% alleles per locus. Despite the high allelic loss, the estimated inbreeding coe⁄cient suggests that the breeding programme carried out in the CAP-UCN has controlled and maintained heterozygosity levels successfully. A temporal study is necessary to determine whether the genetic diversity loss detected was caused during the initial introduction of breeders or to the breeding programme actually implemented.
Forced aeration is one of the major energy consumption factors of the bioleaching process of run-of-mine ore. The effect of aeration in the microbial community has scarcely been studied at industrial level.
Leptospirillum ferriphilum
is one of the most representative species of the Fe
3+
producing population in this kind of systems. We analyzed the effect of oxygen availability on
L. ferriphilum
by growth activity and transcriptional dynamics of its two terminal oxidases (cbb3 and bd complexes) under different experimental test: culture reactor, bioleaching column, and industrial heap tests. Relatively low O
2
availability triggered important changes in the microbial community composition, cell growth, microbial activity and
cydAB
genes transcription in all cases of study. We assessed the potential role of the terminal oxidases on the adaptation to variable aeration conditions in different lifestyles of
L. ferriphilum
and identified transcriptional markers associated to oxygen metabolism in an industrial system. An interesting hypothesis about the possible role of the cbb3 complex in the response to oxidative stress as well as their role as a high oxygen-affinity oxidase in
L. ferriphilum
is proposed and discussed. This study successfully proves the function of the
cydAB
genes as valid genetic markers for low-grade copper industrial bioleaching systems.
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