The document summarizes the recent APG system of plant classification which is based on phylogenetic analysis of DNA sequences and morphological data. It outlines the main clades recognized in the system including basal angiosperms containing Amborellaceae, Nymphaeales and monocots. Magnolids contain four orders while eudicots are divided into basal and core eudicots. Core eudicots include rosids and asterids, with rosids further divided into eurosids I and II. Each clade contains representative orders and families. The APG system strictly follows the principle of monophyly and is based on evidence from multiple sources, though some limitations remain regarding placement of some families.
3. A BRIEF INTRODUCTION
Earlier plant classification ----- Artificial system.
From 1990’s started using --- Phylogentic analysis to classify the
plants.
Phylogenetic character used for Classification are:
Rapidly accumulating DNA sequences from the plastid gene rbc L
(this gene codes for large subunit of RUBISCO ENZYME).
cp DNA mat K gene ( maturase enzyme encoding gene located with
in the intron of chloroplast trn K gene).
Mitochondrial gene atp A (atp genes providing information for
making transporter proteins called ATPases) and 18 Sr DNA (satellite
related DNA) gave informative data useful in plant classification
Further development of polymerase chain reaction techniques
which help in bio-chemical as well as anatomical analysis has paved a
way for a new system of plant classification.
5. Preface of the APG System of classification
According to traditional system of classification Angiosperms are divided
into Monocots and Dicots based on presence of one or two cotyledons.
But recent study based on Phylogentic analysis ie., nuclear, plastid and
mitrochondrial DNA sequences and morphology do not support this
dicotomy.
Dicots earlier were considered Monophyletic in origin but present study
indicates in the Polyphyletic origin.
Monocots are considered as a Holophyletic group.
A majority of dicots showing similar characters are grouped in to one
branch called the Eudicots or Tricolpates (flowers with 4 or 5 sepals/
petals, tricolpate pollen etc).
The remaining dicots are grouped informally into Paleodicots
6. The APG system of classification proposed in 1998(APG 1,1998)by
The systematists
B. Bremer,
] K. Bremer,
M.W. Chase
J.L. Reveal
D.E. Soltis,
P.S. Soltis and P.F. Stevens
.
It compromised 462 Families arranged in to 40 Monophyletic orders
under a small number of informal higher groups:
Monocots,
Commelinoids
Eudicots,
Core eudicots,
Rosids,
Eurosids I
Eurosids II,
Asterids,
Euasterids I and Euasterids II.
Austrobaileyales order which is unassigned in kept at the beginning.
7. 11 unclassified families and four orders with no supra ordinal
groups were kept at the beginning of the classification.
25 families of uncertain position were kept at the end of the
classification.
Judd et al. (1999) made few modifications in APG-1 classification
by recognising a total of 51 orders by shifting a few families from
informal groups.
This classification includes only major families hence nearly 200
families were left out.
APG II (2003), a recent revision includes 470 families under 45
orders of which 44 are monophyletic and Austrobaileyales order
which is unassigend in kept at the beginning
8. HEIRARCHY OF APG CLASSIFICATION
Recognition of plants based Monophyletic groups called CLADES at all
levels.
The hierarchy of the classification is as follows-
Informal groups
Orders
Families
The informal groups include-
Basal Angiosperms,
Magnolids,
Eudicots,
Rosids
Asterids.
According to APG II ‘Monocots’ is considered Monophyletic group
placed under Basal Angiosperms.
9.
10. CLADE 1: BASAL ANGIOSPERMS
They represent a clade that includes following groups-
Amborellaceae,
Nymphaceae,
Austrobaileyales,
Ceratophyllales,
Monocots.
Amborellaceae: the monotypic Amborella trichopoda --the most basal
linkage to all basal angiosperms with spirally arranged floral organs, ethereal
oil cells.
Nympheaceae: 8 Genera, cosmopoliton in distribution and is consistent with
the fossil records.generally aquatic in habitat, also found in tropical and
temperate regions.
The floral diversity ranges from small, simple, trimerous
flowers(Cabomba) to large, showy, elaborate flowers(Nympheae, Victoria).
Austrobaileyales : represented by Austrobaileyaceae and Trimeniaceae
from Australia and recently added Schizandraceae and Illicaceae.
Ceratophyllales: based on phytogentic analysis based on rbcL.
Ceratophyllum is considered as ‘sister’ of all other Dicots.
11. MONOCOTS---considered as the major clade among extant
angiosperms and also the oldest among the angiosperm fossils
comprises of 52,000 species (22% of the total angiosperms.)
Orchidaceae and Poaceae are the largest families accounting to 34% and
17%.
Ray identified Monocots based on single character ie,. Presence of single
cotyledon but phylogenetic studies of non molecular data include 13 similar
identifying characters
----single cotyledon, parallel veined leaves, sieve cell
plastid with several cuneate protein crystals, secondary vascular bundles in
the stem, adventitious root system and sympodial growth.
Earlier trimerous condition was considered as unique feature in Monocots,
but it is also observed in Nympheaceae and magnolids.
APG II considers Monocots as a monophyletic group with 10 orders and 2
unassigned families(Petrosaviaceae and Dasypogonaceae).
The orders include – Acorales, Alismatales, Asparagales, Dioscorales,
Liliales, Pandanales, Arecales, Poales, Commelianales, and
Zingeberales.
Molecular analysis shows that Acorus as sister to all other Monocots
12. CLADE 2:-MAGNOLIDS
‘Primitive Angiosperms’ with 4 orders according to APG II viz. Piperales,
Canellales, Magnoliales and Laurales.
characterized by the presence of primitive characters like long, broad, net-
veined leaves, large flowers, numerous petals , sepals, stamens and carpels,
Magnoliales: based on molecular analysis includes 6 families such as
Magnoliaceae, Annonaceae, Myristicaceae etc.
----common character i.e. deletion of Apetela 3 gene.&
characterized by presence of reduced fibre pits, palisade parenchyma, continuous
tectum in the pollen etc.
Laurales: includes 7 families characterized by the presence of perigynous
flowers, gynoecium embedded in fleshy receptacle, inner staminodes, ascendant
ovules etc.
Piperales: includes 4 families with characters such as distichous leaves,single
prophyll & oil cells.
Canellales: includes 2 families viz. Canellaceae and Winteraceae. The family
Winteraceae is considered as most primitive extant Angiosperm.
13. CLADE 3: -EUDICOTS
Eudicotyledons (Doyle and Hotton) also termed as Tricolpates or Non-
magnolids (represent 75% of the total Angiosperm population)
Includes 2 groups‘Basal Eudicots’ and ‘Core Eudicots’.
Basal Eudicots: includes five lineages viz
Ranunculales,
Proteales,
Sabiaceae,
Trochodendraceae
Buxaceae.
Core Eudicots: includes seven major clades viz.
Gunnerales,
Berberidopsidales,
Saxifragales,
Santanales,
Caryophyllales,
Rosids
Asterids.
The molecular data supports the fact that Gunnerales is the sister to the
other core eudicots.
14. CLADE 4: -ROSIDS
This clade includes 140 families having common characters like
nucellar endosperm , reticulate exine, tricolpate pollen, simple
perforations of vessel end walls, mucilaginous leaf epidermis, two or
more whorls of stamens, ellagic acid.
Molecular analysis reveals two large sub clades i.e. Eurosids
I(fabids) and Eurosids II(malvids).
A few orders that do not fit into both the
sub clades include : Crossosomatales, Geraniales and Myrtales.
The Eurosids I include Celestrales, Zygophyllales, Malpighiales,
Oxalidales.
Other orders like Fabales, Cucurbitales, Rosales, Fagales form the
‘nitrogen fixing clade’.
The Eurosid II compromises of Brassicales ,Malvales, Sapindales
and Tapiasciaceae.
15. CLADE 5: - ASTERIDS
This is also a large clade with 114 families, 10 orders and 80,000
species.
This group is recongnized based on morphological as well as chemical
data which include iridoid chemical compounds, sympetalous corolla,
unitegmic and tenuinucellate ovules and cellular endosperm.
Previously considered as a polyphyletic group, Asterids are now
considered as monophyletic group based on analysis of three genes rbc
L, atp B and mat K.
Asterids now include four major groups viz. Cornales, Ericales,
Euasterids I(lamids) and Euasterids II(campanulids).
16. Merits of the APG classification
The APG classification system strictly adopts the phylogenetic
principle of monophyly
The APG classification system strictly adopts the phylogenetic
principle of monophyly
The APG classification system strictly adopts the phylogenetic
principle of monophyly
The APG classification system strictly adopts the phylogenetic
principle of monophylyThe APG classification system strictly adopts the phylogenetic
principle of monophyly – reconstructing the phylogeny on the
basis of established monophyletic
The APG classification system strictly adopts the phylogenetic principle ofThe APG classification system strictly adopts the phylogenetic principle of
monophyly .monophyly .
It is based on the synthesis of information derived from multiple sources –It is based on the synthesis of information derived from multiple sources –
morphology, anatomy, embryology, palynology, phytochemistry, molecular biology,morphology, anatomy, embryology, palynology, phytochemistry, molecular biology,
etc.etc.
Formal names have been given only to those groups (i. e. orders) where monophylyFormal names have been given only to those groups (i. e. orders) where monophyly
has been firmly established.has been firmly established.
In order to overcome the problem of paraphyly,In order to overcome the problem of paraphyly, the traditional separation ofthe traditional separation of
angiosperms into monocots and dicots has been discarded. Various monocotangiosperms into monocots and dicots has been discarded. Various monocot
groups have been placed in between primitive dicots and advanced dicots, e. g.groups have been placed in between primitive dicots and advanced dicots, e. g.
Poales are placed in between Magnoliales and Ranunculales.Poales are placed in between Magnoliales and Ranunculales.
17. Cladograms – evolutionary diagrams - based on morphological and molecularCladograms – evolutionary diagrams - based on morphological and molecular
data are presented for showing the phylogenetic relationships, both within anddata are presented for showing the phylogenetic relationships, both within and
among the monophyletic groups.among the monophyletic groups.
The orders, such as Amborellales, Nymphaeales, Austrobaileyales,The orders, such as Amborellales, Nymphaeales, Austrobaileyales,
Chloranthales, which show several primitive features, are placed at the start of theChloranthales, which show several primitive features, are placed at the start of the
APG classification.APG classification.
The number of unplaced and uncertain families has been gradually reduced fromThe number of unplaced and uncertain families has been gradually reduced from
APG-I (40) to APG-III (10).APG-I (40) to APG-III (10).
Based on the recent advances in research. The APG classification is increasinglyBased on the recent advances in research. The APG classification is increasingly
becoming an authoritative point of reference and a significantbecoming an authoritative point of reference and a significant
number of major herbaria, including Kew, Harvard, etc. are arranging their plantnumber of major herbaria, including Kew, Harvard, etc. are arranging their plant
specimen collections in accordance withspecimen collections in accordance with APG.
18. Demerits of APG Classification
APG classification is restricted at the taxonomic levels of only
order and family.
The classification may seem to be sound in theory, but it has
still found few followers in practice.
Although majority of families or genera have been recognised
as monophyletic orders, yet there are several unplaced
families or genera in APG – III.
The orders have been recognised under informal groups
(e.g. Magnoliids, Eudicots, etc), the names of which do not
conform to the ICBN.
Angiosperms have been given the rank of a division, followed
by the rank of order. In contrast to the previous classification
systems, there are no formal taxa between the rank of
division and order.