Answering three questions can help reveal how the “inheritance of acquired characteristic” fits into modern evolutionary theory
Pradeep Mutalik, Quanta Magazine
If you took a high school biology class, you’re probably familiar with Jean-Baptiste Lamarck’s theory of evolution and its emphasis on the “inheritance of acquired characteristics” — think giraffes stretching their necks longer to reach the leaves high in trees. In textbooks Lamarck’s theory is often presented as a rival to Charles Darwin’s theory of evolution by natural selection. The simplistic storyline is that the two theories battled it out in the 19th century and that Darwinism won, leading to Lamarckism’s demise and the rise of what biologists call the Modern Synthesis.
But recent discoveries have exhibited a remarkably Lamarckian flavor. One example is the CRISPR-Cas system, which enables bacteria to pass information about viruses they have encountered to their offspring. There are also clear-cut examples of transgenerational epigenetic inheritance, in which higher animals affected by environmental factors transmit favorable genetic changes to their offspring across generations. Such mechanisms make sense to us as designers: An animal should pass on, in its genes, information that it has gained about the environment. Such discoveries have sparked debate about the possibility of an update to the Modern Synthesis. Is there a role for Lamarckian mechanisms in modern evolutionary theory?
Read the original article HERE…