SDOC-B26DE5B0C990A8B70A0F5C8ADFABA791-10-05-SI.pptx

Full Transcript

PLANT SYSTEMATICS,
ANATOMY AND
DEVELOPMENT/
EMBRYOLOGY
Course code: BOT302
Credit Hours 4(3+1)
 Lecture 1: Introduction to plant systematics: aims,
objectives and importance
What is Plant Systematics?
Systematics is the study of
phenotypic, genetic and
phylogenetic relationship
among taxa
Plant systematics is the
science of botanical diversity.
 From fundamental point of view: study of nature,
causes, patterns and trends in variation among taxa
From structural point of view: Study of basic
taxonomic components and evolution
Functional point of view: Study of characters from
many fields of evidence for establishing relationship
among taxa
From developmental point of view: study of
variation among taxa for the determination of
character correlations and relationship
Systematist
The systematist is a student, researcher or scholar
who studies classifies identifies describe observe or
analyze variation within population, species or higher
taxa
Aims

The Primary Aim of Systematics
Discover all the branches of the tree of life, document evolutionary changes
occurring along those branches, and describe all the species on Earth.

Secondary Aims of Systematics
To analyze and synthesize information into a classification that reflects
evolutionary relationships
To organize this information into a useful, retrievable form
To gain insight into evolutionary processes that lead to diversity

Aims, and objects of natural classification are to name, describe, and arrange plants.
This arrangement should show degree of relationship among plants. This degree of
relationship is called affinities. Thus, the aim of systematic is to develop affinities
among plants.
Objectives

1. To prepare a scheme of classification that provide
phenetic, natural or phylogenetic relationship among
plants
2. To establish a suitable method for identification,
nomenclature and description of plants taxa
3. To provide an inventory of plant taxa that suits local or
regional needs
4. To create understanding of evolutionary processes
5. To study diversity of organisms and their relationship
with other biological branches.
 Definitions of Taxonomy:
The word finds its roots in the Greek taxis
(meaning ‘order’, ‘arrangement’) and nomos
(‘law’ or ‘science’).
Taxonomy is the science dealing with
classification.
Taxonomy aims at grouping organisms on the
basis of mutual similarities into units called taxa
(singular taxon).
For example, organisms having the highest
similarity are placed in one taxonomic unit, called
a species. A group of several species is then
assembled into the next higher unit, called a
genus (pl. genera). A group of genera is then
collected to form the next higher taxon, called a
family. Similarly, a group of families form an
order, several orders form a class and several
classes, a kingdom.

Phytography: The branch of botany concerned with the
description of plants.
 Classification
Arrangement of organisms into groups on
the basis of similarities
The groups are assembled into more
inclusive groups until all organisms
assembled into single inclusive group
In sequence of increasing inclusiveness, the
groups are assigned to fixed hierarchy of
species, genus, family, order, class and
division
Process of classification include
Assigning appropriate position and rank
to new taxon
Dividing a taxon into smaller units
Uniting two or mora taxa into one
Transferring its position from one group
to another and altering rank
 1. Artificial classification
(Theophrastus, Linnaeus)
1. Only a few characters are considered
2. Members of different groups are usually not similar in
hereditary pattern
3. Stable classification
4. Provides only limited information
5. Cannot add new work
6. Difficult for identifying a particular species or genera
7. Not related phylogenetically
Example: Linnaeus classified plants based on the
number, arrangement and fusion of sexual parts, e.g'., in
one of his classes he classified plants into Monandria
(single stamen), Diandria (two stamens), Triandria (three
stamens) and polyandria (more stamens).
2. Natural classification

(Example: Bentham and Hooker’s classification)
1. Almost all the characters are considered
2. Members of different groups are mostly similar in
hereditary pattern
3. May change with advancement in knowledge
4. Provides plenty of useful information
5. Recent advancement in the field can be added
6. Plant identification easy
7. Closely related to phylogenetically