Biological process
Biology is the science that deals with living things. In general:
- Living organisms respond to the stimuli
- Living organisms interact with their environment, which includes members of the same and other species.
- Living organisms have a metabolism: they take in food which they then convert as energy to perform their daily or day to day activities.
- Living organisms reproduce: they give birth to others of the same species, in order to continue their ancestral living. This is not true of all individual organisms. In eusocial organisms, some castes cannot reproduce. But, since the sterile workers are all the products of a single queen, they are one collective.
Many things that appear to be one organism are in fact several living together. An example is lichen. Lichen is a symbiosis between a blue-green algae and fungi. Organisms that live together may not reproduce together, but their life processes are bound up together. They help each other to live.
Examples of biological processes
change- Physiological process, those processes specifically pertinent to the functioning of integrated living units: cells, tissues, organs, limbs, and organisms.
- Reproduction
- Digestion
- Response to stimulus: (in terms of movement impulses, secretion, enzyme production, gene expression, etc). In animals, this is mainly the function of the nervous system.
- Other processes: cell growth, cellular differentiation, fermentation, fertilisation, germination, tropism, hybridisation, metamorphosis, morphogenesis, photosynthesis, transpiration.
Modern ideas
changeModern ideas from molecular biology, cell biology and cybernetics give us more ways of describing biological processes.
Cells and macro-molecules
changeAll life processes on Earth use the chemistry of carbon compounds. In particular, all life uses long-chain molecules such as proteins and nucleic acid. With water, which is essential, the long molecules are wrapped inside membranes to form cells. This is true of all known life.
Systems theory
changeLiving organisms are open systems. The main idea is that the processes serve to keep them alive by homeostasis. They are always changing, but always staying within certain limits as long as they live. [1][2]
They do this by exchanging materials and information with their environment. They undergo metabolism, maintain homeostasis, possess a capacity to grow, respond to stimuli and reproduce. All of this preserves the individual and its race or species.