Botany Reviewer PDF

Summary

This document provides a comprehensive overview of the field of botany, including various disciplines such as plant molecular biology, biochemistry, anatomy, and morphology. It explores different aspects of plants and their interaction with their environment. The document also briefly touches upon applied plant biology and the organization of living things.

Full Transcript

BOTANY BIOLOGICAL ORGANIZATIONS
- Also known as Plant Biology, encompasses the
origin, diversity, structure, and internal
processes of plants as well as their relationships
with other organisms and with the nonliving
physical environment.

Disciplines under Botany
1. Plant molecular biology – it is the study of
structures and functions of important biological
molecules.
2. Plant biochemistry – it is the study of the
chemical interactions within plants, including the
variety of chemicals that plants produce.
3. Plant cell biology – it encompasses the
structures, functions, and life processes of plant Biosphere - all of the environments on Earth that
cells. support life
4. Plant anatomy – it is the study of microscopic Ecosystem - all the organisms living ln a particular
plant structures such as cells and tissues. area and the physical components with which the
5. Plant morphology – it refers to the structures of organisms interact
plant parts including their evolution and Community - the entire array of organisms living in a
development. particular ecosystem
6. Plant physiology – it is the study such processes Population - all the individuals of a species living in a
as photosynthesis and mineral nutrition to specific area
understand how plants function. Organism - an individual living thing
7. Plant genetics – it is the study of plant hereditary Organ system - several organs that cooperate in a
and variation. specific function
8. Plant ecology – it is the study of the Organ - a structure that is composed of tissues
interrelationships among plants and between Tissue – a group of similar cells that perform a
plants and their environment. specific function
9. Plant systematics – it encompasses the Cell - the fundamental unit of life
evolutionary relationships among different plant Organelle - a membrane-enclosed structure that
groups. performs a specific function within a cell
10. Plant taxonomy – it is a subdiscipline of Molecule - a cluster of small chemical units called
systematics, deals with the description, naming, atoms held together by chemical bonds.
and classification of plants.
11. Ethnobotany – it is the study of botanical
knowledge of a social group and its use of locally Sensitivity or Response to Stimuli - Organisms
available plants. respond to diverse stimuli.
12. Paleobotany – it is the study of the biology and - A stimulus is anything that can trigger a physical
the evolution of plants in the geologic past. or behavioral change.

Applied Plant Biology Reproduction - formation of new individuals. When
1. Agronomy – field crops and soils reproduction occurs, genes containing DNA are
2. Horticulture – ornamental plants and fruit and passed along to an organism's offspring
vegetable crops. A. Sexual - gametes
3. Forestry – forest conservation and forest
products such as lumber
4. Economic botany – plants with commercial
importance.

Life is recognized by what living things do.

Order - Organisms are highly organized, coordinated
structures that consist of one or more cells.
 THREE DOMAIN SYSTEM
1. Asexual - no gametes/no fertilization taken place

THE SIX KINGDOMS OF LIFE
Growth and Development – Organisms grow and 1. Animalia
develop following specific instructions coded for by 2. Plantae
their genes. These genes provide instructions that 3. Fungi
will direct cellular growth and development, 4. Protista
ensuring that a species’ young will grow up to exhibit 5. Eubacteria
many of the same characteristics as its parents. 6. Archaebacteria

Regulation – an ability to control an organism’s What makes plant different from other living
internal environment within limits that sustain life. organism?
- The word ‘plant’ encompasses a wide range of
Plants regulate their internal ex. the movement and living organisms, all of which belong to the
retention of water kingdom Plantae and share a range of
characteristics.
Energy processing – All organisms use a source of
energy for their metabolic activities. Some Key Characteristics
organisms capture energy from the sun and convert 1. Plants are multicellular organisms, easily
it into chemical energy in food (photosynthesis); distinguished from other living things
others use chemical energy in molecules they take in 2. Plant cell walls are rigid as they’re made of
as food (cellular respiration). cellulose. A plant cell also has a large central
vacuole that holds on to the water and lets the
plant stay turgid.

3. Plants are autotrophs. Plants are photosynthetic
and contain a green pigment called chlorophyll,
which enables plants to convert energy from the
sun into food. Plants store their food as starch.

4. The life cycle of plants includes both a
sporophyte and a gametophyte generation.

5. Most plants are rooted to one place. Some
plants can orientate leaves towards the sun and
some respond to touch.
Evolutionary adaptation – adaptations evolve over 6. Develop from embryos supported by maternal
many generations, as individuals with traits best tissue
suited to their environments have greater
reproductive success and pass their traits to Plants are multicellular organisms, easily
offspring. distinguished from other living things
The stem of a cactus (a species of Echinocactus is
shown) functions for both photosynthesis and water
storage. The leaves of cacti are modified into spines
for protection.
 GREEN ALGAE: PRECURSORS OF LAND PLANTS

THE LIFE CYCLE OF PLANTS INCLUDES BOTH A Chlorophytes
SPOROPHYTE AND A GAMETOPHYTE GENERATION. - Chlorella
- Chlamydomonas, the
- The two generations alternate, each giving rise “sea lettuce”
to the other. This is called ‘alternation of - Ulva,
generations’. - Volvox
Charophytes
The haploid gametophyte (gamete producing plant) - Desmids
produced haploid gametes-eggs and sperm-that fuse - Spirogyra
during fertilization, forming diploid zygotes. - Coleochaete
- Chara
Mitotic division of the zygote produces a Charophytes, particularly Chara
multicellular diploid sporophyte (spore-producing and Coleochaete - are the closest
plant). Meiosis in a mature sporophyte produces living relatives of land plants
haploid spores, reproductive cells that can develop
into a new haploid organism. The earliest plant fossils suggest that plants moved
onto the land between 490 and 443 million years
ago (during the Ordovician Period)

Bryophytes are small sporebearing plants that
typically grow in moist areas.

- The structure of the plant body is simple and
typically lacking vascular tissue like xylem and
phloem.
- Bryophytes need water in order to reproduce.
Embryophytes (Land Plants)
- Embryophytes are multicellular, autotrophic,
typically terrestrial organisms that retain and
nourish their embryos (hence the name).

EVOLUTION OF LAND PLANTS
PHYLUM PHYLUM PHYLUM
BRYOPHYTA HEPATOPHYTA ANTHOCEROPHYTA
Seedless vascular plants are plants that contain
vascular tissue, but do not produce flowers or seeds.
- Club Mosses
- Horsetails
- Whisk Ferns
- Ferns

Phylum Lycopodiophyta: Club Mosses
- The club mosses, or phylum Lycopodiophyta, are
the earliest group of seedless vascular plants.
- Also known as the “Fern Allies”
Sori are clusters of sporangia found only in ferns

Seed Plants
- Gymnosperms - plants
that have "naked" seeds
that are not enclosed in
ovaries. Their seeds are
Phylum Monilophyta: Class Equisetopsida
exposed on modified
(Horsetails)
- Horsetail, (genus Equisetum), also called scouring leaves (sporophylls) that
rush. usually form cones
- The single extant genus Equisetum is the survivor (strobili).
of a large group of plants.
- Angiosperms- are seed
plants that produce the
reproductive structures
called flowers and fruits.
The name angiosperm
(from the Greek anglon,
container) refers to
seeds contained in
SPORES
- Usually single-celled
- Most spores have much shorter lifetimes
Phylum Monilophyta: Class Psilotopsida (Whisk - No protection from harsh conditions
Ferns) - Must grow where it lands
- Whisk fern, either of the two species of the SEEDS
primitive fern genus Psilotum - have a multicellular layer of tissue, the seed coat,
- A whisk fern has water- and food-conducting that provides extra protection to the embryo
tissues but lacks true leaves and roots. - have a supply of stored food which enables a
seed to remain dormant for days, months, or
even years
- Can Dispersed in different ways

GYMNOSPERMS: First Plant to have seeds
- Vascular plant that reproduces by means of an
exposed seed. The seeds of many gymnosperms
(literally “naked seeds”) are borne in cones and
Phylum Monilophyta: Class Polypodiopsida (Ferns) are not visible until maturity
- Fern, (class Polypodiopsida), class of
nonflowering vascular plants that possess true
roots, stems, and complex leaves and that
reproduce by spores.
Division Cycadophyta (the Cycads) DIFFERENCES BETWEEN MONOCOT AND DICOT
- Frequently confused with ferns or Palms
- Cycads have very thick leaves, that look like very
tough versions of fern fronds.

Division Coniferophyta (The Conifers)
- The conifers are the largest and most successful
group of living gymnosperms.
- They are all trees of moderate to gigantic size

Biggest + oldest
Height: coast redwoods (Sequoia sempervirens) >100
m tall
Mass: giant redwoods (Sequoiadendron gigantea) >
26 m. circumference
Age: bristlecone pine (Pinus aristata) 4900 years old

Division Ginkgophyta (the Maidenhair tree)
- Contains a single living species,
Ginkgo biloba (Maidenhair tree)
- It looks very much like a large
dicot tree with a stout trunk
and many branches

It has deciduous broad fanlike leaves, that turn gold in
autumn

Division Gnetophyta (The Gnetophytes)
- Division Gnetophyta contains
three groups of enigmatic plants,
each of which is often placed in
its own order:
Gnetum, Ephedra
and Welwitschia mirabilis,
- Mainly xerophytes, plants that
are adapted to dry conditions.
- Usually found on deserts
- They share a close common ancestor with
flowering plants.

Angiosperms: The flowering plants
- Flowering plants, the most recently evolved and
most diverse of all plant groups
- Classified together in a single division, division
Magnoliophyta, also known as division
Anthophyta.
- The key adaptations in the evolution of
angiosperms are flowers and fruits