With ever -increasing population of the world, enhancement of food production is a major necessity. Biological principles as applied to animal husbandry and plant breeding have a major role in our efforts to increase food production. Several new techniques like embryo transfer technology and tissue culture techniques are going to play a pivotal role in further enhancing food production.
Animal husbandry is the practice of taking care and breeding domestic animals by applying scientific principles. The ever-increasing demand of food from animals and animal products both in terms of quality and quantity has been met by good animal husbandry practices.
These practices include:
  • Management of farm and farm animals, and
  • Animal breeding.
In view of the high nutritive value of honey and its medicinal importance, there has been a remarkable growth in the practice of bee-keeping or apiculture. Fishery is another flourishing industry meeting the ever-increasing demand for fish, fish products and other aquatic foods.
Plant breeding may be used to create varieties, which are resistant to pathogens and to insect pests. This increases the yield of the food. This method has also been used to increase the protein content of the plant foods and thereby enhance the quality of food. In India, several varieties of different crop plants have been produced. All these measures enhance the production of food. Techniques of tissue culture and somatic hybridisation offer vast potential for manipulation of plants in vitro to produce new varieties.

List of Topics​

Animal Husbandry Management of farms and farm animals
Dairy farm management
Poultry farm management
Animal Breeding
a.      Inbreeding
b.      Outbreeding
c.      Outcrossing
d.      Cross breeding
e.      Interspecific Hybridization
Controlled Breeding (AI and MOET)
Bee Keeping
Plant Breeding Main steps in Plant Breeding
Plant Breeding for Disease Resistance
Plant Breeding for Developing Resistance to Insect Pests Plant Breeding for Improved Food Quality Biofortification
Single Cell Protein Single Cell Protein
Tissue Culture Tissue Culture