Category
Science (22)Botany (15)Microbiology (14)Virology (11)Entomology (11)Biology (10)Zoology (10)Paleontology (8)Ichthyology (8)Anthropology (7)Mycology (7)Marine Biology (6)Ornithology (5)Evolutionary Biology (4)Physical Anthropology (3)Ecology (3)Conservation Biology (2)Primate Biology (2)Taxonomy (2)Genetics (2)Herpetology (2)Paleoanthropology (1)Academia (1)Immunology (1)Animals (1)Medicine (1)Neuroscience (1)Biochemistry (1)Mammalogy (1)Epidemiology (1)Zoonotic Diseases (1)Museum (1)
Usage Examples
Filter by Meaning The researchers used phylogenetic analysis to understand the evolutionary relationships between different types of bacteria.
Phylogenetic analyses have been used to investigate the evolutionary relationships between different types of viruses, including the origins of major human pathogens.
Phylogenetic studies have helped to understand the evolutionary relationships between different types of fungi and their ecological roles in different environments.
The use of phylogenetic methods has helped to identify the evolutionary relationships between different types of bacteria and how they have adapted to different environments over time.
Phylogenetic analyses can help to identify the genetic basis of certain traits and behaviors in different animal groups.
The phylogenetic classification of fungi is based on their evolutionary relationships and genetic differences.
Phylogenetic studies have helped to clarify the evolutionary relationships between different groups of reptiles.
The phylogenetic classification of plants is based on their evolutionary history and relationships.
Phylogenetic methods have been used to study the evolutionary relationships between different populations of fish.
Phylogenetic analyses have revealed new insights into the evolutionary relationships between different types of flowering plants.
Phylogenetic studies can help to identify the origins of certain diseases and their transmission between different animal species.
Phylogenetic analyses have been used to infer the evolutionary history of different groups of mammals, including marsupials and placental mammals.
The phylogenetic relationships between different species of birds have been studied using a combination of morphological and genetic data.
The phylogenetic analysis of primate species has revealed surprising new insights into human evolution.
The scientists used a phylogenetic approach to identify the closest living relatives of a newly discovered fossil species.
Phylogenetic studies have been used to investigate the evolutionary relationships between different types of insects and their ecological roles in different ecosystems, including their interactions with plants and other animals.
Phylogenetic studies have helped to resolve long-standing debates about the evolutionary relationships between different groups of dinosaurs.
The application of phylogenetic methods has allowed researchers to reconstruct the evolutionary history of different types of marine invertebrates, including mollusks and echinoderms.
The use of phylogenetic analyses has helped to reconstruct the evolutionary relationships between different types of reptiles, including dinosaurs and crocodilians.
The use of phylogenetic methods has helped to uncover the evolutionary relationships between different groups of primates.
The researchers conducted a phylogenetic analysis of different bird species to understand their evolutionary relationships.
The phylogenetic tree of life shows the evolutionary relationships between all living organisms.
Phylogenetic studies have helped to understand the evolutionary relationships between different types of bacteria and how they adapt to different environments.
The phylogenetic relationship between different species of primates has been studied extensively using molecular data.
The phylogenetic diversity of fungi is vast and complex.
The phylogenetic relationships between different species of bacteria can be studied using gene sequencing.
The phylogenetic relationship between different types of bacteria is of great interest to scientists.
The phylogenetic diversity of fungi is vast and poorly understood.
The phylogenetic relationship between birds and reptiles is a subject of much study.
The phylogenetic analysis of primates has revealed new insights into human evolution.
The phylogenetic classification of insects has been revised several times based on new discoveries.
Phylogenetic trees can be used to visualize the relationships between different species.
The phylogenetic origins of the immune system can be traced back to simple organisms like sponges.
The researchers used phylogenetic analysis to determine the evolutionary history of the bird species.
The phylogenetic tree shows the relationships between different types of plants.
The phylogenetic tree of life shows the evolution of all living things on Earth.
The phylogenetic relationship between dogs and wolves has been studied extensively.
The phylogenetic analysis of insects has provided insight into the evolution of flight.
The use of phylogenetic analysis has revolutionized our understanding of the evolutionary relationships between different groups of animals.
The phylogenetic relationships between different types of fungi can be difficult to determine due to their complex life cycles and genetic diversity.
The phylogenetic analysis of mammalian genomes has provided valuable information about the evolutionary history and relationships of different groups of mammals.
The study of the phylogenetic relationships between different types of insects can provide insights into their ecological roles and evolution.
The researchers used a phylogenetic approach to determine the evolutionary relationships between different species of reptiles.
The phylogenetic analysis of primate genomes has shed new light on the evolutionary relationships between humans and other apes.
The phylogenetic analysis of virus genomes can help us track the spread of infectious diseases.
The study of the phylogenetic relationships between different types of plants is essential for understanding their diversity and evolution.
The use of phylogenetic analysis has become increasingly important in the field of conservation biology.
Phylogenetic analysis of genetic sequences can help us understand the evolutionary history of different groups of bacteria.
The researchers used a phylogenetic approach to study the evolutionary relationships between different species of fish.
By studying the phylogenetic relationships between different species of bacteria, scientists can better understand their ecological roles and potential applications.
Post a Comment