adjective relating to the evolutionary development and diversification of a species or group of organisms
Phylogenetic analysis helps in understanding the genetic relationships between different species and populations based on their DNA sequences.
Phylogenetic diversity is used in ecology to study the evolutionary relationships among species in a community and their roles in ecosystem functioning.
In biology, phylogenetic analysis is used to study evolutionary relationships among organisms by comparing their genetic and physical characteristics.
Phylogenetic trees are used to represent the evolutionary history of organisms and the relationships between different species.
Phylogenetic algorithms and software tools are used in bioinformatics to analyze and interpret large-scale genomic data for evolutionary studies.
In biology, phylogenetic analysis is used to study the evolutionary relationships between different species.
Geneticists use phylogenetic methods to investigate the evolutionary history of genes and genomes.
Ecologists use phylogenetic trees to understand the evolutionary relationships between different species in an ecosystem.
Anthropologists use phylogenetic analysis to study the evolution of humans and their ancestors.
Botanists use phylogenetic techniques to classify and understand the evolutionary history of plant species.