Impact of developments in biology on classification systems
Technological advances in biological equipment have allowed the current classification system to be developed. Three key advances have helped this development:
- use of microscopes
- studies of biochemistry
- DNA evidence
Artificial classification
Originally Linnaeus' system relied purely on human judgement in order to compare the characteristics of various organisms. The development of microscopes allowed cells to be examined in far more detail. The name given to a membrane bound compartment with a specific function in animal, plant and fungal cells. within the individual cells could be distinguished and this allowed a more scientific approach of classification based on observations. Classification that is based purely on observations is referred to as The classification of living organisms based on observations..
Natural classification
The study of evolutionary relatedness between groups of organisms. is the study of how related organisms are. It helps us to work out how A type of organism that is the basic unit of classification. Individuals of different species are not able to interbreed successfully. have evolved from one another. Molecular phylogenetics focuses on comparing the molecules inside of organisms to see how similar they are. The more similar the molecules, the more closely related the species. This is referred to as The classification of living organisms based on similarities between their DNA sequences..
Developments in The study of chemical processes that take place within living organisms., the study of the processes that occur inside cells, have allowed us to work out how similar organisms are on a molecular level, rather than just using characteristics that can be seen with our eyes or a microscope. For example, we can compare the structure of the proteins used in aerobic respiration between organisms to see how similar they are.
Comparing the DNA sequences of different organisms has allowed the relationships of organisms to one another to be explored even further. Species that are more closely related are likely to have fewer differences in the sequence of their DNA bases. Therefore, we are more likely to classify species into the same group if they have the same genetic variation in their The complete set of DNA found in an organism..
Carenum and Pasimachus have very similar sequences of DNA so they must be closely related. Pseudomrpha and Pasimachus, however, have more differences in their sequence of DNA and therefore Pasimicahus must be more distantly related to Pseudomrpha than it is to Carenum.
Three-domain system
Classification systems have continued to be developed by other scientists. Carl Woese developed the three-domain system. This system is based on evidence now available from analysing organisms on the molecular level.
The updated system divides organisms into three large groups called domains:
- Archaea (primitive bacteria usually living in extreme environments)
- Bacteria (true bacteria)
- Eukaryota (including protists, fungi, plants and animals)