Scientists came to accept Mendel's ideas through the work of researchers like Hugo de Vries, Carl Correns, and Erich von Tschermak, who independently rediscovered Mendel's work and validated his principles through their own experiments. The consistency and repeatability of Mendel's results across different species also contributed to the widespread acceptance of his ideas in the scientific community.
Ideas of Mendel about inheritance of different traits could be explained on the basis of meiotic studies where it was found that the contrasting characters governed by specific genes are free to assort randomly.
Scientists accepted Mendel's ideas on genetics primarily due to the publication of his paper "Experiments on Plant Hybridization" in 1866, which laid the foundation for the principles of inheritance. Additionally, the rediscovery of Mendel's work in the early 20th century by scientists such as Hugo de Vries, Carl Correns, and Erich von Tschermak helped validate his findings and solidify his place as the father of modern genetics. The experimental evidence presented by Mendel, coupled with its reproducibility and explanatory power, convinced scientists of the validity and significance of his work.
The discovery of DNA in the 1950s provided strong support for Mendel's ideas on inheritance. Understanding that genes are made up of DNA and that they are passed down from parents to offspring helped to confirm Mendel's principles of heredity.
Scientists before Darwin, such as Lamarck and Lyell, influenced Darwin's ideas by presenting concepts like geology and the idea of species change over time. Lamarck's theory of acquired characteristics and Lyell's principles of uniformitarianism provided a basis for Darwin to develop his theory of evolution through natural selection. Darwin built upon these ideas by incorporating them into his own theory, which became the foundation of modern evolutionary biology.
The process of natural selection was important in developing both Mendel's and Darwin's ideas. Darwin's theory of evolution by natural selection explained how species change over time through the process of natural selection, while Mendel's laws of inheritance provided a mechanism for the transmission of traits from one generation to the next. Together, these ideas formed the foundation of modern evolutionary biology.
true
artificial selection
It was not recognized for more than thirty years.
they beleived thatkowledge science and reason could improve societyScientists Reqired Proof Before Accepting Theories As Facts
they beleived thatkowledge science and reason could improve societyScientists Reqired Proof Before Accepting Theories As Facts
Ideas of Mendel about inheritance of different traits could be explained on the basis of meiotic studies where it was found that the contrasting characters governed by specific genes are free to assort randomly.
pay attention in class
curiosity, skepticism, open-mindness, creativity
Scientists usually publish their new ideas in a scientific journal. They can also hold a symposium to discuss the ideas, if they wish.
Scientists required proof before accepting theories as facts. They used more experiments. They relied more on observation. They relied more on clear evidence.
Scientists accepted Mendel's ideas on genetics primarily due to the publication of his paper "Experiments on Plant Hybridization" in 1866, which laid the foundation for the principles of inheritance. Additionally, the rediscovery of Mendel's work in the early 20th century by scientists such as Hugo de Vries, Carl Correns, and Erich von Tschermak helped validate his findings and solidify his place as the father of modern genetics. The experimental evidence presented by Mendel, coupled with its reproducibility and explanatory power, convinced scientists of the validity and significance of his work.
They didn't then and they do not now.