noun the formation of new and distinct species in the course of evolution
Genetic factors play a significant role in speciation, as changes in gene flow and genetic drift can lead to the formation of distinct species.
Speciation can impact ecological dynamics by influencing species interactions, community structure, and biodiversity.
Speciation is the process by which new species evolve from existing species through various mechanisms such as allopatric or sympatric speciation.
Speciation plays a crucial role in understanding the patterns and mechanisms of evolution, as it leads to the diversification of life forms over time.
Studying speciation in the fossil record provides insights into the evolutionary history of organisms and the processes that have shaped biodiversity over millions of years.
Speciation can be influenced by geographic barriers and dispersal patterns, affecting the distribution of species across different regions.
Speciation is often discussed in the context of evolutionary biology in articles, books, and research papers written by science writers.
Psychologists may refer to speciation when studying human behavior and evolution, particularly in the field of evolutionary psychology.
Biologists frequently study speciation as part of their research on evolutionary processes and biodiversity.
Ecologists consider speciation when analyzing the impact of new species on ecosystems and biodiversity.
Geneticists study speciation to understand the genetic mechanisms behind the formation of new species.