Tekle Tafese scite author profile

The discharge of hydrocarbons and their derivatives to environments due to human and/or natural activities cause environmental pollution (soil, water, and air) and affect the natural functioning of an ecosystem. To minimize or eradicate environmental pollution by hydrocarbon contaminants, studies showed strategies including physical, chemical, and biological approaches. Among those strategies, the use of biological techniques (especially bacterial biodegradation) is critically important to remove hydrocarbon contaminants. The current review discusses the insights of major factors that enhance or hinder the bacterial bioremediation of hydrocarbon contaminants (aliphatic, aromatic, and polyaromatic hydrocarbons) in the soil. The key factors limiting the overall hydrocarbon biodegradation are generally categorized as biotic factors and abiotic factors. Among various environmental factors, temperature range from 30 to 40°C, pH range from 5 to 8, moisture availability range from 30 to 90%, carbon/nitrogen/phosphorous (C/N/P; 100:20:1) ratio, and 10–40% of oxygen for aerobic degradation are the key factors that show positive correlation for greatest hydrocarbon biodegradation rate by altering the activities of the microbial and degradative enzymes in soil. In addition, the formation of biofilm and production of biosurfactants in hydrocarbon-polluted soil environments increase microbial adaptation to low bioavailability of hydrophobic compounds, and genes that encode for hydrocarbon degradative enzymes are critical for the potential of microbes to bioremediate soils contaminated with hydrocarbon pollutants. Therefore, this review works on the identification of factors for effective hydrocarbon biodegradation, understanding, and optimization of those factors that are essential and critical.

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Eight new microsatellite markers in Atlantic cod (Gadus morhua L.) derived from an enriched genomic library

Wesmajervi¹,

Tafese²,

Stenvik³

et al. 2006

Molecular Ecology Notes

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One hundred and fifty random clones from an enriched genomic library of Atlantic cod were sequenced. Primer pairs were designed for 15 microsatellites containing perfect di‐, tri‐, tetra‐ and hexanucleotide repeats and characterized in 96 unrelated fish. Eight markers were successfully amplified, with the number of alleles ranging from two to nine per locus and observed heterozygosity ranging from 0.341 to 0.977. Loci Gmo‐G13 and Gmo‐G14 had a significant excess of homozygotes. All loci conformed to the Hardy–Weinberg equilibrium. Genetic linkage disequilibrium analysis between all pairs of the loci showed no significant departure from the null hypothesis between any of the loci.

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Development of ten new EST-derived microsatellites in Atlantic cod (Gadus morhua L.)

Westgaard¹,

Tafese

Wesmajervi

et al. 2007

Conserv Genet

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Ten polymorphic microsatellite markers were developed from approximately 1,300 expressed sequence tags (ESTs) of Atlantic cod (Gadus morhua L.). Thirty two primer pairs were designed for EST sequences containing perfect di-tri-tetra-and pentanucleotide motifs and characterised in 96 unrelated fish. Ten markers were successfully amplified with number of alleles from 2 to 13 per locus and observed and expected heterozygosity ranging from 0.03 to 0.69 and 0.03 to 0.74, respectively. Loci Gmo-C131, C132 and C136 deviated from Hardy-Weinberg equilibrium. Genetic linkage disequilibrium analysis between all pairs of the loci showed significant departure from the null hypothesis between loci Gmo-C131 and Gmo-C132 and C128 and Gmo-C133. The gene identity was determined at five of the loci, confirming the associated microsatellites as Type I markers. The new microsatellites reported in this work can be used for conservation and enhancement of wild stocks for commercial harvesting.

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Identification and characterisation of thirteen new microsatellites for Atlantic cod (Gadus morhua L.) from a repeat-enriched library

et al. 2006

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A total of 13 polymorphic microsatellite markers were developed for Atlantic cod (Gadus morhua L.) from a repeat-enriched library. Polymorphism of each locus was assessed in 96 unrelated individuals from a natural population. The number of alleles per locus varied from 8 to 45. The ranges of observed and expected heterozygosity were 0.122-0.907 and 0.673-0.965, respectively. Four of the loci (Gmo-G24, Gmo-G40, Gmo-G46 and Gmo-G49) followed Hardy-Weinberg expectation. No evidence for linkage disequilibrium between pairs of loci was found in any combination of loci pairs, except between Gmo-G40 and Gmo-G43. These microsatellite markers provide useful tools for studies of population genetics, reproductive ecology and for constructing linkage maps of Atlantic cod.

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Twenty‐three novel microsatellite markers developed from Atlantic cod Gadus morhua L. expressed sequence tags

Delghandi

Wesmajervi

Tafese

et al. 2008

Journal of Fish Biology

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Tekle Tafese

Factors Influencing the Bacterial Bioremediation of Hydrocarbon Contaminants in the Soil: Mechanisms and Impacts

Eight new microsatellite markers in Atlantic cod (Gadus morhua L.) derived from an enriched genomic library

Development of ten new EST-derived microsatellites in Atlantic cod (Gadus morhua L.)

Identification and characterisation of thirteen new microsatellites for Atlantic cod (Gadus morhua L.) from a repeat-enriched library

Twenty‐three novel microsatellite markers developed from Atlantic cod Gadus morhua L. expressed sequence tags

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