1-introduction.pptx

Transcript

CROP
PHYSIOLOGY
Prepared and Compiled By:
ROJIE C. ESPELITA
Lecturer I
Introduction
 The spectacular diversity of plant size and form is familiar to
everyone.
 In nature all plants carry out similar physiological processes.
 As primary producers, plants convert solar energy to chemical
energy.
 Being non motile, plants must grow toward light, and they must
have efficient vascular systems for movement of water, mineral
nutrients, and photosynthetic products throughout the plant body.
Green land plants must also have mechanisms for avoiding
desiccation.
 Plant Physiology refers
to “the science of
properties and functions
in normal conditions”.
Aim of Plant Physiology has been describe:

___V.I. Palladin, Russian Plant Physiologyist early 20th
Century___

“Which is to gain a complete and thorough knowledge of all
the Phenomena occurring in plants, to analyse complex life
processes. So as to interpret them in terms of simpler one
and reduce them finally to the principles of physics and
chemistry”.
-
Aim of Plant Physiology : History

___Noggle and fritz (1983)___described the Plant
Physiology as:

“the science concerned with processes and functions, the
response of plants to changes in environment and the
growth and development that results from responses”
W.L. Balls (1915):
Crop physiology, with the aim of understanding
the dynamics of yield development in crops, Along
with Holton he analysed the effects of plant spacing
and sowing date on the development and yield of
Egyptian Cotton plants within crop stands
 1924- In England- a rapid development of the methods of
growth and yield analysis by different investigators (V.H.
Blackman, F.G. Gregory, G.E. Briggs etc.) was started.
With the development of various methods of growth
analysis, they started explaining ‘the physiology of crop
yield’
 1947: The concept of LAI (Leaf area index) was
developed by D.J. Watson. This index has provided a
more meaningful way of analyzing growth in crops, and
stimulated renewed interest in crop physiology.
1950’s: Studies on photosynthetic rate of the leaf and the
loss of photosynthates by respiration was studied by the
development of ‘Infra Red Gas Analysis
(IRGA)’method.
 1953: Monsi and Saeki explained about the manner of
light interception by the crop canopy with their concept of
light interception coefficient.
1963: Hesketh and Moss showed that photosynthesis by
leaves of Maize, Sugarcane and related tropical grasses
could reach much higher rates, with less marked light
saturation, than leaves of other plants.
 Crop physiology is concerned with the processes and
functions of the crops at cellular, sub-cellular and whole
plant levels in response to environmental variables and
growth.

In short, physiology is the study of functional aspects
of crop plants.
Importance of crop physiology in
agriculture:
 Seed Physiology
“Seed is the most important input in agriculture.”

Germination of seed and proper establishment of
seedling depends upon various internal and external
factors.
Knowledge of Seed physiology helps in understanding of
different physiological and morphological changes that
occur during germination. Any deviation in these processes
causes Seed dormancy.
 The dormant condition of the seed bars, immediate use
of harvested seed for next crop which is important in
intensive agriculture.
By understanding the causes and effects of this problem,
Crop physiologists have come up with different methods of
breaking the seed dormancy.
Optimum seedling growth and plant population

By knowing the process of radicle and plumule
emergence and their function we can achieve best plant
health, which is the outcome of best plant physiology. By
knowing the different inputs requirement of plants (water,
nutrients, sunlight) we can easily manage the plant
population to get highest yield. Input interaction of plants
within their body is the matter of plant physiology.
 Growth measurement of crops

The first prerequisite for higher yields in crops is high
total dry matter production per unit area. High dry matter
production is a function of optimum leaf area

(Optimum leaf area Index) and Net Assimilation rate. (CGR
= LAI X NAR).
 Harvest index
The difference between total amount of dry matter
produced and the photosynthates used in respiration is the
net product of photosynthesis.
Economic yield depends on how the dry matter is
distributed among different organs of the plant.
 Mode of action of different weedicides

The use of herbicides to
kill unwanted plants is
widespread in modern
agriculture. Majority of
Herbicides -about half of the
commercially important
compounds—act by
interrupting photosynthetic
electron flow.
 Nutriophysiology
Nutriophysiology is yet another important area to under
stand crop physiology. For the healthy growth of a crop
around 17 essential elements are required.
Knowledge of nutriophysiology has helped in
identification of essential nutrients, ion uptake mechanisms,
their deficiency symptoms and corrective measures.
It also helps to check the toxicity symptoms of
various nutrients.
 Photoperiodism
Response of plant to the
relative length of day and
night is called as
photoperiodism. This
concept was used to choose
photo insensitive varieties.
 Plant growth regulators
Plants can regulate their growth through internal growth
mechanisms involving the action of extremely low
concentrations of chemical substances called Plant growth
substances, phytohormones or Plant growth
regulators.
The regulation of flowering, seed formation and fruit
setting has been controlled through the application of
different hormones at the appropriate time of plant height
and age.
 Chapter-2
Plant cell: an Overview
 Plants are multicellular
organisms composed of
Cell
millions of cells with specialized
functions.
At maturity, such specialized
cells may differ greatly from one
another in their structures.
However, all plant cells have the
same basic eukaryotic
organization:
They contain a nucleus, a
cytoplasm, and sub cellular
organelles, and they are
enclosed in a membrane that
defines their boundaries.
 In plants, cell migrations are
prevented because each walled
cell and its neighbor are cemented
together by a middle lamella.
As a consequence, plant
development unlike animal
development, depends solely on
patterns of cell division and cell
enlargement.
There are two categories of seed plants,

 Gymnosperms are the less advanced type.
 Angiosperms, the more advanced type of seed
plant which dominate the landscape. About 300,000
species are known, but many more remain to be
characterized. The major innovation of the angiosperms is
the flower; hence they are referred to as flowering plants.
 Three major tissue systems are found in
flowering plants; (all plant organs contain)
 dermal tissue,- covers and protects the plants (barks)
 ground tissue,- site for photosynthesis (leaves)
 vascular tissue- transport water, minerals and sugar to
different parts of the plants
 The vegetative body of plants is
composed of three organs
leaf,
stem,
root.
 Leaves are attached to the
stem at nodes, and the region
of the stem between two
nodes is termed the
internode.
The stem together with its
leaves is commonly referred
to as the shoot.
 Plant growth is concentrated
in localized regions of cell
division called meristems.
Nearly all nuclear divisions
(mitosis) and cell divisions
(cytokinesis) occur in these
meristematic regions.
In a young plant, the most
active meristems are called
apical meristems; they are
located at the tips of the stem
and the root
QUESTIONS??
Assignment/ Activity:

In an A4 size coupon bond:
 Draw the plant cell;
 Identify its parts/organ and its functions.
 Submission: on or before next meeting.