Biology 11.3 PDF

Summary

This document provides an overview of different aspects of biology, including the concepts of evolution, evidence for evolution, speciation, and different types of evolutionary models. It covers genetic drift, allele frequency, and species development. This document is suited for secondary school level.

Full Transcript

BIOLOGY 11.3
11.3.1
Evolution - is the cumulative change in heritable characteristics of a population
over time.
Species - a group of organisms able to interbreed producing fertile offspring that
shares common characteristics
Variation is both environmental and genetic! Ties with selection pressures -
variation allows some organisms to be better suited to their environment, more
likely to survive and produce fertile offspring
Natural selection is a key driver of evolution. Individuals with traits better suited to
their environment survive longer and produce more offspring, passing on their
traits
All species must have evolved by divergence from pre-existing ones.

11.3.2
Evidence for evolution:

Fossil record - remains of organisms which are preserved in rocks. This
shows that changes have occurred over millions of years, on a vast variety
of organisms

radiometric dating - studying when an organisms mightve lived by studying the
natural radioactivity fossils

Selective breeding - humans alter the characteristics and intentionally choose
desirable specific traits to breed in species, this is called artificial selection
otherwise. This is done with plants and animals

Work of John Endler (wild guppies) - showed that there was correlation
between the colour of the guppies, with the males being less colourful where
there were more predators and the more colorful guppies were located away
from the predators. Endler moved predators around, essentially wiping out the
colourful males as the predators ate them, removing those genes from the
population

BIOLOGY 11.3 1
 Comparison of DNA base sequences - comparing DNA sequences from
different species can highlight the similarities between them but also the
differences

DNA found in mitochondria - since mtDNA doesn't mix with the father's DNA
and it mutates faster than nuclear DNA, it’s easier to track changes over time.
This makes it useful for studying recent evolutionary relationships between
species or groups within a species

11.3.3
How new species arise
Speciation - is the formation of new species from an already existing population.
It happens when populations of the same species become isolated and evolve
differently.
a population is a group of organisms of the same species that live in the same
area at the same time
speciation only occurs if there's some sort of barrier between the population:

geographical separation such as mountains, river or a road

temporal differences (mating at different times so the two populations don't
breed)

behavioural differences such as differentiating rituals etc so they become
incompatible over time

Speciation is either:

sympatric - occurs in the same geographical area

allopatric - occurs in different geographical areas

An example of geographical separation are the bonobos and Chimpanzees

Infertile hybrids - if two species do try and breed, they form a hybrid. hybrids are
sterile, meaning they are not able to produce fertile offspring, this shows how
speciation occurs, with the hybrid not being able to move genes from one species
to another. Hybrid offspring are sterile due to the number of their parents different
chromosomes, producing an odd number. Example is a mule, which has 63
chromosomes due to the parents having 64 and 62 chromosomes

BIOLOGY 11.3 2
 11.3.4
Gene pool - All the genetic information in a reproducing population. Changes in
allele frequencies within the gene pool show that evolution is happening.

Genetic Drift: Random changes in allele frequencies, often affecting small
populations. This can make two isolated populations genetically different over
time.

Allele frequency gives us an indication of the proportion of a specific gene variant
in a population

Gradual Evolution:

Species evolve slowly and continuously over long periods of time.

Small, incremental changes accumulate in a population.

Fossil records would show a smooth transition with many intermediate
forms between species.

Punctuated Evolution (Punctuated Equilibrium):

Evolution occurs in short bursts of rapid change, followed by long periods
of little or no change (equilibrium).

Species remain stable for long periods, and significant changes happen
quickly, often due to sudden environmental shifts.

Fossil records would show abrupt appearances of new species with few or
no intermediate forms.

BIOLOGY 11.3 3