Category
Biology (17)Ecology (13)Entomology (11)Microbiology (11)Botany (9)Genetics (9)Medicine (8)Zoology (7)Environmental Science (7)Paleontology (6)Ornithology (5)Agriculture (5)Anthropology (3)Science (3)Marine Biology (3)Environment (2)Animals (2)Virology (2)Population Genetics (2)Evolutionary Biology (2)Oncology (1)Debate (1)Conservation Biology (1)Evolution (1)Herpetology (1)Public Health (1)Genomics (1)Museum (1)Geography (1)
Usage Examples
Filter by Meaning The study of microevolution helps researchers analyze how insects become resistant to pesticides over time.
The study of microevolution in plants explores how they diversify and adapt to various ecological niches.
The documentary explored the role of microevolution in the adaptation of fish to different habitats.
The scientists conducted a study on microevolution in bird populations to understand the genetic changes occurring over generations.
The gradual change in beak size in a population of birds is an example of microevolution.
The selective pressure exerted by climate change can drive microevolution in plant populations.
The study of microevolution in agricultural crops has helped develop improved varieties with higher yields and resistance to pests.
The scientist studied the microevolution of bird beaks in response to changes in food availability.
The study of microevolution in fish populations helps researchers understand their ability to adapt to changing environmental conditions.
The museum exhibit showcased various examples of microevolution, demonstrating how species adapt to their changing environments.
The gradual changes in the beak size of a bird species over generations demonstrate microevolution.
The book discussed the effects of microevolution on the color patterns of butterfly wings.
The professor explained how microevolution can lead to the development of antibiotic resistance in bacteria.
The rapid development of pesticide resistance in insects is a classic example of microevolution.
The article discussed the role of microevolution in the development of different dog breeds.
The researchers observed microevolution in action as the population of bacteria developed resistance to the antibiotic over time.
The genetic variations found in a population of wildflowers are considered examples of microevolution.
The study of microevolution in finches on the Galapagos Islands has provided valuable insights into adaptive radiation.
The research project investigated the microevolution of bacteria in hospital settings and its implications for infection control.
The changes in wing size and shape among different populations of migratory birds are attributed to microevolution.
The genetic diversity within a population is essential for microevolution to occur.
The researchers observed microevolution in the population of finches on the Galapagos Islands.
The peppered moth's change in coloration over time is an example of microevolution.
Genetic studies have provided evidence of microevolution in human populations.
The fluctuations in allele frequencies within a small population are characteristic of microevolution.
The emergence of antibiotic-resistant strains of bacteria is a result of microevolution.
Microevolution has led to the development of antibiotic resistance in bacteria.
Microevolution can be observed in the adaptation of fish to different water environments.
The increased tolerance of certain plants to drought is a consequence of microevolution.
The changes in fur coloration among a population of rabbits is an example of microevolution.
The farmer noticed microevolution in the crops as certain varieties adapted better to the local climate.
The study of microevolution in bird populations reveals how certain traits are passed on through generations.
The paleontologist studied the microevolution of dinosaur species by analyzing fossil records.
The adaptation of certain primates to their specific diets is an example of microevolution in action.
The process of microevolution explains the development of different dog breeds from a common ancestor.
Researchers study microevolution in viruses to track their ability to mutate and evade immune responses.
The observation of microevolution in bacteria reveals how they adapt to antibiotic treatments.
The rapid microevolution of fish populations in polluted waters showcases their ability to adapt to changing environments.
Paleontologists use fossil records to trace the microevolution of ancient mammals.
Scientists study microevolution to understand how certain populations of birds develop different beak sizes.
Microevolution can be observed in the adaptation of birds' beaks to different food sources.
The study of microevolution focuses on the changes in allele frequencies within a population over time.
Climate change can have a significant impact on microevolution by altering the selective pressures on organisms.
The peppered moth population in England underwent microevolution as its coloration shifted from light to dark during the industrial revolution.
The emergence of new insecticide-resistant strains of mosquitoes is a result of microevolution.
The study of microevolution helps us understand how certain plants develop resistance to pesticides.
The study of microevolution in insects revealed fascinating adaptations to different environmental conditions.
Microevolution can be observed in the changing coat colors of a population of rabbits over several generations.
The impact of climate change on microevolution in plant species is a subject of great interest to botanists.
Microevolution can be observed in the changing fur color of Arctic foxes over several generations.
Post a Comment