Changes in an organism’s DNA can influence all aspects of its life.
Mutations serve as raw material for genetic variability and its evolution. These are
caused by high-energy radiation. Chemical substances present in the environment are
other potential causative agents. They may also occur during DNA replication.
Radiation damage has increased many folds after the advent of cellular telephony.
Genes are DNA molecules. These molecules are distributed on the chromosomes of
individuals or populations of a species. Some populations grow faster than others.
Why? The chapter tries to find an answer to it.
Population increase has been observed in some countries and for others, a decrease has
been detected. It has been predicted that the human population will increase to 8.5
billion in 2030 from 7. 8 billion in 2020. The exploitation of natural resources would
increase accordingly. World Economic Forum reports that research conducted at the
Swiss Re Institute has pointed out that an 18 percent reduction in GDP is achievable by
2050 if the Global temperature rise is restricted to 3.20
C. About 16 to 29% reduction
in CO2
emissions would lead to a less dangerous climate change provided population
growth is slowed down. If factors contributing to Global warming are managed in such
a way that the Global temperature rises by 1.50
C, Sustainable Development Goals are
achievable. Net–zero emissions targeted to be achieved by 2050 are not feasible as
international agreements are not honored.
Keywords: Biodiversity, Diversity, Extinction, Genetic variability, Meiosis, Niche differentiation, Niche dimensionality, Nonlinear oscillations, Passenger pigeon, Plant-pollinator systems, Representative concentration pathways.