Postgraduate Certificate in Evolution and Genetics Conservation
-- ViewingNowThe Postgraduate Certificate in Evolution and Genetics Conservation is a rigorous program that equips learners with advanced knowledge in evolution, genetics, and conservation. This course is essential for professionals seeking to understand the genetic basis of biodiversity and develop effective conservation strategies.
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⢠Evolutionary Biology: This unit will cover the fundamental concepts of evolution, including natural selection, genetic drift, gene flow, and mutation. It will also explore evolutionary trees and the use of molecular data in evolutionary studies.
⢠Molecular Genetics: This unit will delve into the structure and function of genes, as well as the mechanisms of gene expression and regulation. It will also cover the latest advances in molecular genetics, including CRISPR-Cas9 and next-generation sequencing.
⢠Population Genetics: This unit will explore the genetic structure and diversity of populations, including the effects of genetic drift, migration, and selection. It will also cover the principles of population genetics applied to conservation biology and the management of endangered species.
⢠Genomics and Bioinformatics: This unit will introduce students to the latest advances in genomics and bioinformatics, including genome sequencing, assembly, and annotation. It will also cover the use of bioinformatics tools for the analysis and interpretation of genomic data.
⢠Conservation Genetics: This unit will focus on the application of genetics and genomics to conservation biology, including the use of molecular markers for population monitoring and management, genetic diversity and fitness, and the effects of inbreeding and genetic drift on population viability.
⢠Ecological Genetics: This unit will explore the interactions between genes and the environment, including the genetic basis of adaptive traits, local adaptation, and gene-environment interactions. It will also cover the use of genetics and genomics in ecological research and conservation.
⢠Phylogenetics and Systematics: This unit will cover the principles of phylogenetic analysis, including the construction and interpretation of phylogenetic trees. It will also explore the use of phylogenetics in systematics, taxonomy, and evolutionary biology.
⢠Molecular Ecology: This unit will introduce students to the principles of molecular ecology, including the use of molecular markers for population and community ecology, gene flow, and genetic diversity. It will also cover the application of molecular ecology to conservation biology
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