Bryophytes
Bryophytes include the various mosses and liverworts that are found commonly
growing in moist shaded areas in the hills.
Bryophytes are also called amphibians of the plant kingdom because these plants
can live in soil but are dependent on water for sexual reproduction.
They usually occur in damp, humid and shaded localities. They play an important
role in plant succession on bare rocks/soil.
They are autotrophic. Vascular tissues are absent in Bryophytes. In India,
Bryology was initiated by Professor Shiv Ram Kashyap
(1882-1934), also known as Father of Indian Bryology.
The plant body of bryophytes is more differentiated than that of algae. It is
thallus-like and prostrate or erect, and attached to the substratum by
unicellular or multicellular rhizoids. They lack true roots, stem or leaves.
They may possess root-like, leaf-like or stem-like structures.
The main plant body of the bryophyte is haploid. It produces gametes, hence is
called a gametophyte.
The sex organs in bryophytes are multicellular. The male sex organ is called
antheridium. They produce biflagellate antherozoids.
The female sex organ called archegonium is
flask-shaped and produces a single egg.
The antherozoids are released into water where they
come in contact with archegonium. An antherozoid fuses with the egg to produce the zygote.
Zygotes do not undergo reduction division immediately. They produce a
multicellular body called a sporophyte.
The sporophyte is not free-living but attached to the photosynthetic
gametophyte and derives nourishment from it. Some cells of the sporophyte
undergo reduction division (meiosis) to produce haploid spores. These spores
germinate to produce gametophyte.
The bryophytes are divided into liverworts and mosses.
Liverworts:
The liverworts grow usually in moist, shady habitats such as banks of streams,
marshy ground, damp soil, bark of trees and deep in
the woods.
The plant body of a liverwort is thalloid, e.g., Marchantia. The thallus is dorsiventral
and closely appressed to the substrate. The leafy members
have tiny leaf-like appendages in two rows on
the stem-like structures.
Bryophytes: A
liverwort Marchantia (a) Female thallus (b) Male
thallus
Asexual reproduction in liverworts takes place by fragmentation of thalli, or
by the formation of specialised structures called gemmae
(sing. gemma). Gemmae are
green, multicellular, asexual buds, which develop in small receptacles called gemma cups located on the thalli. The gemmae
become detached from the parent body and germinate to form new individuals.
During sexual reproduction, male and female sex organs are produced either on
the same or on different thalli. The sporophyte is differentiated into a foot,
seta and capsule. After meiosis, spores are produced within the capsule. These
spores germinate to form free-living gametophytes.
Mosses:
The predominant stage of the life cycle of a moss is the gametophyte which
consists of two stages.
The first stage is the protonema stage, which
develops directly from a spore. It is a creeping, green, branched and
frequently filamentous stage.
The second stage is the leafy stage, which develops from the secondary protonema as a lateral bud. They consist of upright, slender
axes bearing spirally arranged leaves. They are attached to the soil through
multicellular and branched rhizoids. This stage bears the sex organs.
Vegetative reproduction in mosses is by fragmentation and budding in the
secondary protonema. In sexual reproduction, the sex
organs antheridia and archegonia are produced at the apex of the leafy shoots.
After fertilisation, the zygote develops into a sporophyte, consisting of a
foot, seta and capsule.
The sporophyte in mosses is more elaborate than that in liverworts. The capsule
contains spores. Spores are formed after meiosis. The mosses have an elaborate
mechanism of spore dispersal.
Common examples of mosses are Funaria, Polytrichum and Sphagnum.
Mosses (c) Funaria, gametophyte and sporophyte (d) Sphagnum
gametophyte
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