Heredity:A
person’s physical development is strongly affected by their genes
inherited from their parents. Parent’s genes predetermine the limits of
an individual’s height and other characteristics including the
variability in eye colour, hair colour, body composition, and skin
tone.With physical attributes such as height, parents’ genes dictate the
range of height their offspring can obtain. The variability in height
is a result of many external factors in the environment including
nutrition and events during the child’s growth.

Hormones:Human
growth is affected by biochemical products such as hormones. Hormones
are regarded as growth-promoting substances. Probably all the endocrine
glands influence growth. Most of the hormones are secreted by the
endocrine glands and play a significant role in regulating the pattern
of growth and development as per instructions of the genes. Examples of
these hormones and their actions are as follows:

Somatotrophin:The
most important hormone controlling growth from birth up to adolescence
is growth hormone or somatotrophin. This is a polypeptide secreted by
the pituitary. It helps in growth of bones and thereby increases the
height of persons. It also causes an overall growth rate of most of
tissues including brain.

Thyroid hormone:This
hormone plays a vital role throughout the whole period of growth. The
activity of the thyroid decreases gradually from birth to adolescence.
In low secretion of the hormone, skeletal maturity, dental maturity and
growth of the brain are all affected. During adolescence a new phase of
growth occurs under the control of steroid hormones secreted by the
adrenals and gonads. The gonads of both sexes secrete estrogens in small
quantities from the time of birth onwards. At puberty the oestrogen
level rise sharply in girls and to a much more limited extent in boys;
the sex differences is possibly due to an inhibitory hormone secreted by
the seminiferous tubules of the testicle.

Testosterone:Testosterone,
produced by the testicle, is important in stimulating growth and it is
responsible for the greater growth of muscles.

Gonadotrophins:Gonadotrophins
are responsible for the growth of the ovaries and testis, and later on,
the secretion of estrogens and testosterone responsible for the growth
and development of secondary sex characters.

Nutrients:Growth
is closely related to nutrition. A sufficiency of food is essential for
normal growth. An adequate supply of nutrients is naturally essential
for the normal growth of humans and the need varies with the phase of
development. For example: Zinc plays a part in protein synthesis and is a
constituent of certain enzymes. A deficiency of zinc causes stunting,
interference with sexual development and falling out of hair; Iodine is
needed for the manufacture of the thyroid hormones; Bone will not grow
properly without an adequate supply of calcium, phosphorus and other
inorganic constituents such as magnesium and manganese; Iron is required
for the production of haemoglobin; Vitamins play an important part in
growth. Vitamin A is thought to be control the activities of
osteoblasts. In vitamin C deficiency the intercellular substance of bone
is inadequately formed. Vitamin D deficiency is the cause of rickets.
Malnutrition during childhood delays growth, and malnutrition in the
years proceeding adolescence delays the onset of the adolescence.
Malnutrition may also result to diseases which decrease the appetite or
interfere with digestion and assimilation. A majority of malnourished
children fail to achieve their full genetic potential of body growth and
are thus stunted or wasted or both.

Diseases:Diseases
are alteration of the normal body functions, disorders or morbid
conditions of the mind. Diseases slow down growth in humans and other
animals. A child that suffers from diseases very often is likely to have
his growth stunted or retarded. Such a child may end up having a small
body or deformed body parts.

Cultural factors:The
physical growth of human beings is definitely affected by cultural
factors. Culture differs from ethnic group to ethnic group. The body
growth differences correlate with varied cultural groups. The physical
growth of the body follows some adaptations in different geographical
areas of distribution of the groups.

Socioeconomic factors:Socioeconomic
influence on human growth is also a well known factor. Children from
different socioeconomic levels differ in average body size at all ages.
It is clear that growth of the children and adults in those families
with good financial status is always good compared to the case in poor
families. However, growth differences are more closely related to the
home conditions than to the strictly economic status of the
families.Size of family exerts an indirect influence on the rate of
growth. In a large family with limited income the children do not get
proper nutrition. As a result the growth is affected. The number of
children in the family exerts an effect on the children’s rate of
growth. Children in large families are usually smaller and lighter than
children in small families. Possibly this is because in large families
children tend to get less individual care and attention.

Light:The effect of light on growth can be studied under three headings: light intensity, light quality and duration of light.
Growth is generally favoured by darkness, but light is necessary
because of its role in the manufacture of food. Young plants growing in
the absence of light develop elongated thin stems with narrow leaves and
poorly developed shoot system. Such plants are said to be etiolated.In
weak intensity of light the internodes are short and the leaves are
expanded. In strong intensity of light, the plant assumes a normal
height. Very low light intensity reduces the rate of overall growth of
the plant, by lowering the rate of photosynthesis.Growth in full
spectrum of visible light is found to be better than the growth in any
one of the different colours of light. Red colour seems to be the most
favourable for growth.The duration of light has a pronounced effect on
the growth of vegetative as well as reproductive structures. The
influence of duration of light is most marked in inducing or suppressing
flowering. This phenomenon is termed as photoperiodism.

Nutrients:Availability,
quality and quantity of food substances will automatically affect
growth. For growth to occur in living things, food must be broken down
to release energy. In areas where nutrients and water are adequate,
competition is reduced and population increases. In case of shortage of
nutrients and water, competition sets in and most individuals die.There
are different mineral nutrients required for optimum plant growth. These
nutrients are classified as either macronutrients or micronutrients.
Macronutrients are those nutrients required by plants in high doses
while micronutrients are the nutrients required in small quantities.
Examples of macronutrients include nitrogen, potassium, magnesium,
calcium, phosphorous and sulphur. Micronutrients include iron, zinc,
molybdenum, manganese, boron, copper, cobalt and chlorine.

Temperature:Atmospheric
and soil temperatures are very crucial for plant growth as it affects
many plant processes such as photosynthesis, metabolism, respiration,
transpiration, breaking of seed dormancy, seed germination, protein
synthesis, translocation, and flowering. At high temperatures the
translocation of manufactured food is faster so that plants tend to
mature earlier.Growth can take place between 0°C and 50°C. But the
optimum temperature for the growth is between 20° and 30°C. Low
temperature, however, is necessary for many plants to flower. Different
physiological processes such as photosynthesis and respiration are
controlled by enzymes. The enzymes are affected by temperature and pH.
Enzyme activity and the rate of most chemical reactions generally
increase with rise in temperature. Up to a certain point, there is
doubling of enzymatic reaction with every 10°C temperature increase. But
at excessively high temperatures, denaturation of enzymes and other
proteins occur.It follows, therefore, that drastic changes in
temperature and pH will affect growth.

Relative humidity:Relative
humidity (RH) is the amount of water vapour in the air, expressed as
the proportion (in percent) of the maximum amount of water vapour it can
hold at certain temperature. For example, an air having a relative
humidity of 60% at 27°C temperature means that every kilogram of the air
contains 60% of the maximum amount of water that it can hold at that
temperature.The relative humidity affects the opening and closing of the
stomata which regulates loss of water from the plant through
transpiration as well as photosynthesis. Transpiration is slower in
humid conditions. This is because diffusion of water vapour out of the
leaf slows down if the leaf is already surrounded by moist air.

Water:As
mentioned earlier, water is a primary component of photosynthesis. It
maintains the turgor pressure or firmness of tissue and transports
nutrients throughout the plant. In maintaining turgor pressure, water is
the major constituent of the protoplasm of a cell. By means of turgor
pressure and other changes in the cell, water regulates the opening and
closing of the stomata, thus regulating transpiration. Water also
provides the pressure to move a root through the soil. Among water’s
most critical roles is that of a solvent for minerals moving into the
plant and for carbohydrates moving to their site of use or storage.
Gradual evaporation of water from the surface of the leaf near the
stomata helps stabilize plant temperature.

Carbon dioxide and oxygen:The
oxygen and carbon dioxide in the air are of particular importance to
the physiology of plants. Oxygen is essential in respiration for the
production of energy that is utilized in various growth and development
processes. Carbon dioxide is a raw material in photosynthesis. However, a
high concentration of carbon dioxide reduces growth because of its
effect on the closing of stomata, and maintenance of dormancy. If the
concentration of carbon dioxide in the plant leaf is higher than the
surrounding air, the stomata will open to let in more of the gas from
the surrounding air so as to balance the equilibrium of the gas between
the two media (air and leaf air spaces). The opposite is the case if the
concentration of the gas is higher in the air than in the leaf.

Soil condition:The
characteristics of soil play a big part in the plant’s ability to
extract water and nutrients. If plants are to grow to their potential,
the soil must provide a satisfactory environment for plant growth.Plant
growth is influenced by the soil properties such as texture or
structure, salinity, acidity, waterlogging, or compaction.

Biotic factors:Diseases,
plant pests, weeds and harmful substances released by roots
(allelopathy) affect plant growth drastically. Weeds compete with plants
for moisture, nutrients, and light. Root knot nematodes reduce
absorption, so more fertilizer is necessary. All of these have negative
impacts on plant growth and development.

Pollutants:Pollutants
can hamper plant growth. Many pollutants composed of poisonous gasses
(such as carbon monoxide, sulphur dioxide, hydrogen fluoride, hydrogen
sulphide) are capable of restraining growth, even bringing plants to
death. Pollutants from household or industrial wastes are also able to
restrain plant growth.