Plant life cycle
-
Alternation of generations - plants (and some protists and fungi) spend part
of their life cycle in the haploid stage and part in the diploid stage
/-----> adult plant ->----\
/ \
(mitosis) \
/ \
embryo (in sex organs only)
/ | \
(mitosis) female male
/ sporocyte sporocyte
zygote (megasporangium) (microsporangium)
(microsporangium) Sporophyte generation (2n) | |
| | |
(fertilization)------------------------------ | (meiosis) |
| \ | |
| \ Gametophyte megaspores microspores
| \ generation (n) | |
\ \ / (mitosis)
sperm cell \ egg <- (mitosis) <- female / nucleus gametophyte / \ / \ <---------------- male <--------------/ gametophyte (pollen grain)
- Some algae have alternation of generations, but the
gametophyte (haploid) generation is dominant
- This makes sense because gametophyte organisms
reproduce by gametes (which can swim in an
aquatic medium)
- Actually, both gametes and spores are dispersed
by water in algae
- The sporophyte generation becomes progressively more
dominant in plants
- Spores (produced by a sporophyte) can be carried
by air current OR remain within the protected
reproductive tissue of the plant
- In contrast, swimming gametes are a real
disadvantage on land
- Eventually, plants evolved gametes (pollen grain sperm
cells) that are transported by wind or other organisms
IV. Bryophytes:
Mosses,
liverworts,
hornworts
(non-vascular plants; 16,000 species)
-
Bryophytes
include the mosses and liverworts. They do not have a well developed vascular
system. In the
bryophyte
life cycle, the smaller dependent sporophyte lives on the gametophyte.
-
Evolution - Not in direct path to higher plants; a sideline developed from
green algae or maybe even from higher plants; Advancements over algae- cuticle;
multicellular gametangia; stomata
-
Habitat - Require moist environment; some are tolerant of dry areas (need
moisture for active growth and sexual reproduction)
-
Life cycle
-
Gametophytes
-
In bryophytes, the gametophyte generation is dominant.
-
Gametophytes of mosses have green "leafy stems" and structures that resemble
roots (rhizoids). The rhizoids only hold the plant to the ground.
-
They possess stomata and cuticle (adaptations to live on land).
-
The lack of vascular (conducting) tissues prevents the mosses from having
true roots, stems, or leaves. Gametophytes may grow either erect or flat
on the ground. Their size is restricted by lack of vascular tissue.
-
Gametophyte plants produce multicellular sex organs: archegonia, which produce
eggs, and antheridia, which produce motile sperm.
-
The sterile layer that comprises the outer part of archegonia and antheridia
helps protect the delicate gametes by preventing them from drying out.
-
The unprotected motile sperm must swim or splash from the antheridia to the
archegonia.
-
Sporophyte
-
After an egg is fertilized by a sperm, a zygote forms in the archegonium
which grows into a multicellular embryo.
-
A sporophyte develops from an embryo which is still enclosed in the archegonium
of the gametophyte plant; therefore, the sporophyte is permanently attached
to the gametophyte. Because the sporophyte not photosynthesize, it is dependent
upon the gametophyte for food.
-
The mature sporophyte consists of a foot (the attachment point of the sporophyte
to the gametophyte), a seta (stalk), and a capsule (spore case).
-
Sporocytes within the sporophyte undergo meiosis to produce a single kind
(homosporous) of haploid spore. If a spore lands in a suitable place, it
can germinate into a protonema, the initial filamentous stage of a gametophyte
plant.
-
Significance of mosses; Inconspicuous but important part of biosphere
-
Food for mammals, birds
-
Important in soil formation and reduction of soil erosion, particularly along
stream banks
-
Commercial moss- peat moss
(Sphagnum)
-
Fuel (dried).
-
Soil conditioner- helps retain moisture.
-
Also used by florists to hold moisture.
V.
Ferns [REQUIRED READING] - Polypodiophyta (Other scientific names
for the ferns are "Filicophyta" - an incorrect name - and Pterophyta)
-
Ferns are a graceful and attractive group of plants with more than 10,000
living species. Unlike the bryophytes with their small dependent sporophyte
generation, seedless vascular plants like ferns have an independent sporophyte
generation that is larger and more conspicuous than the independent gametophyte
generation. The gametophyte plant is small and short-lived.
-
Evolution
-
Ancient group; one of oldest group of vascular plants (possess conducting
tissues- xylem and phloem).
-
Fossils 390 million years old.
-
Dominant plants 300 million years ago.
-
Advancements over the mosses (remember that they did not evolve from the
mosses)- vascular tissue and dominant sporophyte.
-
Habitat - terrestrial (mostly) from tropics to Arctic Circle.
-
Most species in moist tropics.
-
Found in woodlands and along stream banks here.
-
Life
cycle
-
Spore
germination
-
Gametophyte
development
-
Sperm
migration
-
Sporophyte
development
-
Sporophyte:
-
Life cycle of ferns- sporophyte generation is dominant.
-
Most are relatively small plants.
-
Tree ferns in tropics- 20-60 feet tall, 6-12 foot leaves.
-
The sporophyte generation in ferns is a perennial plant with large complex
leaves called fronds.
-
Structure of the sporophyte and vascular tissue:
-
There are several reasons why vascular plants are better adapted for terrestrial
life than the non-vascular liverworts and mosses.
-
Vascular plants often have a well-developed cuticle, a waxy layer that covers
the epidermis of those plant parts exposed to the air. A cuticle helps reduce
water loss, which is a significant environmental challenge for land plants.
(Mosses have a rudimentary cuticle on their sporophytes.)
-
Vascular plants possess tissues that are specialized for internal transport
of water (xylem) and food (phloem). The water conducting cells in the xylem
are dead at maturity; only their cell walls remain. The water conducting
cells in ferns and gymnosperms (including pine trees) are called tracheids.
The tracheid cells look like hollow toothpicks with many small holes at each
end. An important chemical, lignin, occurs in the xylem cell walls. Lignin
is a very rigid substance that provides the strength and support that allows
plants to grow larger.
-
Sugars are transported either up or down the plant through the living phloem
cells called sieve cells in ferns and gymnosperms. A sugar molecule passes
through the plasma membrane of a phloem cell, travels to the opposite side
of the cell by cytoplasmic streaming, and leaves the cell through the plasma
membrane. Here it enters the next cell and is passed along.
-
Two other important cell types are the fiber cells and the parenchyma cells.
The fiber cells are dead at maturity and have very thick walls. They help
support the plant. The parenchyma cells are living thin-walled cells that
generally function as storage cells.
-
Sporophyte sexual reproduction:
-
Besides photosynthesizing, fronds play a role in reproduction. It is on the
fronds that spores are produced in sporangia that often occur in clusters
called sori (singular, sorus).
-
Within the sporangia, meiosis occurs producing the haploid spores.
-
Gametophyte:
-
Each independent heart-shaped gametophyte plant, called a prothallus (plural,
prothalli), grows from a single spore and is quite small and inconspicuous.
-
Archegonia and antheridia are produced on the prothalli. Generally, when
spores germinate they produce female gametophytes. These produce chemicals
that influence the newly germinating spores to produce male gametophytes.
Occasionally, when only a few spores germinate, the prothalli will form both
sexes.
-
The prothallus needs a saturated environment and lives for a very brief time.
When a sperm from an antheridium swims to an archegonium and then fuses with
an egg inside, the diploid sporophyte generation begins. The zygote develops
into an embryo that eventually grows into a mature, multicellular sporophyte
plant.
-
Significance of ferns:
-
Ecological importance:
-
Hold and form soil and prevent soil erosion.
-
Commercial importance:
-
Food- fern
fiddleheads.
-
Ornamental plants.
-
Coal- formed 300 million years ago from partly decomposed and consolidated
plant material; swampy = oxygen depletion and incomplete decomposition =
peat accumulation -> -> -> pressure and heat -> coal.
-
Coal formation
and
fossilization.
VI. Other
Lower Vascular Plants. [REQUIRED READING]
-
About
the Carboniferous. and its
life
-
Rhyniophyta -
Devonian plants
-
Features.
-
Zosterophyllophyta
-
Features
-
Zosterophyllophyta:
Devonian plant; probably origin of Lypopodiophyta ("club mosses")
-
Trimerophytophya
-
Features
-
Trimerophyta:
Devonian plants; probably origin of ferns
-
Psilotophyta: Wisk ferns (often incorrectly called "Psilophyta") - no known
fossil record; related to ferns?
-
Features
-
Life
cycle
-
Lycopodiophyta: Club mosses (often incorrectly called "Lycophyta")
-
Features
-
Life
cycle
-
Fossil
lycopods
-
Fossil
record
-
Equisetophyta: Horse tails (sometimes called Sphenophyta; one modern genus,
Equisetum)
and numerous
fossil
representatives
-
Features
-
Life
cycle
-
General
morphology
Important Resources Critical to this Lecture:
Explanation of
Geologic Time
Life through geologic
time
A complete
time scale
Other Sites of Interest:
Excellent
Review
Major
review: Now that you are this far along in class, this essay brings much
of it all together
Review
of early land plant evolution
Review
of early land plants - Illustrated!
Review of the first vascular
land plants - Illustrated!
A review
and preview
Plants
onto land - algae to gymnosperms
An excellent review
on the ferns and fern allies
Plant
Kingdom: a detailed over-view
Illustration and
classification
of bryophytes
Alternation
of generations: A review
Fossil
plants: from Mazon Creek, Illinois
Back to Lecture
Schedule
Last revised: 15 Aug 1998 - Reveal