Life cycle of_riccia-jb
Upcoming SlideShare
Loading in...5
×
 

Life cycle of_riccia-jb

on

  • 15,597 views

 

Statistics

Views

Total Views
15,597
Slideshare-icon Views on SlideShare
15,597
Embed Views
0

Actions

Likes
2
Downloads
209
Comments
0

0 Embeds 0

No embeds

Accessibility

Upload Details

Uploaded via as Adobe PDF

Usage Rights

© All Rights Reserved

Report content

Flagged as inappropriate Flag as inappropriate
Flag as inappropriate

Select your reason for flagging this presentation as inappropriate.

Cancel
  • Full Name Full Name Comment goes here.
    Are you sure you want to
    Your message goes here
    Processing…
Post Comment
Edit your comment

    Life cycle of_riccia-jb Life cycle of_riccia-jb Document Transcript

    • Riccia – Structure and ReproductionSystematic position:Riccia belongs to the family Ricciaceae, order Marchantiales, class Hepaticopsida and division Bryophyta. Thecommon Indian species are Riccia siliata, R. hitra, R. discolor, R. glauca, R. gangetica, R. melansspora, R. hirta, R.crystallina.Habitat or occurrence: The geneus Riccia with about 200 species, is cosmopolitan in its distribution and commonlygrows in moist soils especially during and after rains. Majority of the species are terrestrial, a few are free free-floating orsubmerged aquatics e. g. R. fluitans, R. natans The plant R. crystallina occurs at an altitude of 14,000 ft. in Western natans.Himalayas.External morphologyIn Riccia, the gametophytic plant body is the dominant phase inthe life cycle. • The gamtophyte is a prostrate, dorsidorsi-ventrally flat, dichotomously branched, green, fleshy thallus. • Each branch is either linear or wedge r wedge-shaped or obcordate and as the dichotomous branches begin to grow together from one place, the plant usually exhibits a shape of a rosette or a circular patch. • Each branch is thick in the median region and thin towards the margin. Each branch shows a conspicuous, longitudinal furrow along the mid mid-dorsal line ending in a notch at the tip where the growing point is located. • On the ventral surface are present two types of outgrowths, the multicellular scales and the unicellular rhizoids. The scales are multicellular, pink, red, violet or black and one . one-celled thick structures arranged in a transverse row. The scales are more crowded near the apex and overlap the growing point. In the mature portion, each scale splits up into two so that there seem to be two rows of scales along the two margins of the thallus. Scales mainly protect, the growing point and increase absorptive surface. • The rhizoids are unicellular, elongated, tubular hair like structures which attach the thallus to the substratum and absorb water and nutrient solution. They are analogous to the roots of higher plants. The rhizoids are of roots two types. The smooth-walled rhizoids having smooth inner wall with colourless contents. The tuberculate walled or pegged rhizoids having peg-like processes in the inner layer of the wall which project inwards into the -like lumen. Mature rhizoids lack protoplasm. In aquatic free floating species (R. fluitans, R. natans) both scales men. free-floating and rhizoids are absent.Internal morphology: • In vertical cross section the thallus shows differentiation of tissues distinctly arranged in two horizontal zones, an upper assimilatory or photosynthetic zone and a lower storage zone. • The upper dorsal assimilatory zone is composed of chlorophyll bearing cells arranged in isolated vertical rows or tires and are separated by narrow vertical air canals. Usually each vertical air canal is enclosed by four vertical cell rows, sometimes eight rows are also present. Each air canal communicates with the external atmosphere, through air hares, present on the dorsal surface of the thallus. Each air pore is bounded by 4 to 8 colourless enlarged terminal cells of the vertical rows, which form a loos loose discontinuous one-celled thick upper celled epidermis. • The assimilatory region gradually merges into a ventral colourless region made of compactly arranged undifferentiated parenchyma tissue tissue, the storage zone. The cells of the storage zone are thin-walled, wit walled, without intercellular spaces, and containing starch granules as reserve food. The
    • lower surface of the tissue containing small cells, compactly arranged, forming a single layer called the lower epidermis. This layer hears two types of out out-growths, the multicellular one-celled thick scales and the unicellular celled tubular extension of epidermal cells called rhizoids. Rhizoids are produced in the midmid-ventral region whereas the scales arc produced at the margins.Reproduction: The gametophytic plant body reproduces byvegetative and sexual methods after attaining a certain stage ofmaturity.Vegetative reproduction:The vegetative reproduction in Riccia takes place by the followingmethods: • Fragmentation: In this method progressive death and : decay of the older part of the thallus from the posterior end reaches the dichotomy, the two surviving branches become separate. Then each surviving branch grows independently by epical growth and finally develops into a new plant. • Adventitious branches: In some species ( fluitans) : (R. special adventitious branches, similar to parent thallus, arise from the mid ventral surface of the thallus. mid-ventral These branches get detached and develop into new thalli. • Tubers: In some species (R. discolor, R. perennis), at the end of growing season, the apex of the thallus R. perennis), grows down into the soil and becomes thick forming a thick tuber like body. The tuber which easily survives tuber-like a period of drought resumes growth with the commencement of favourable season and develops into a new thallus. • Persistent apices: In R. discolor, at the end of growing period, the apices of thalli grow down into the soil. discolor, The plant other than the underground apices die. Under favourable condition, these apices come up and develop into new plants. • Gemma like body: In R. glauca gemma-like bodies are formed at the tips of rhizoid. These structures like ultimately develop into new plants.Sexual reproduction:Sexual reproduction in Riccia is oogamous type i.e. union between a motile flagellate male gam and a resting non- gameteflagellate female gamete takes place. The gamete bearing organs i.e. sex organs in Riccia are multicellular and arecalled antheridium (male) and archegonium (female) respectively.Both the types of sex organs may develop on the same thallus i.e. the plant is homothallic or monoecious (R.gangetica, R. glauca) or the sex organs may develop on different thalli i.e. the plants are heterothallic or dioecious )(R. discolor, R. personii).The sex organs develop on the floor of the mid dors longitudinal furrow in an acropetal succession i.e. the first dorsalformed (old) sex organ is behind and the last formed (new) sex organ is near the growing apex.Antheridium: • A mature antheridium of Riccia is a pear-shaped body within an open antheridial chamber which is formed ia by the overarching tissues. The antheridial chamber communicates with the dorsal surface by a pore. • The antheridium is attached to the base of the antheridial chamber by means of a few-celled stalk. celled • The pear-shaped antheridal bod has got a flat broad base shaped body and a conical apex. • The antheridial body is surrounded by a singlesingle-layered wall or jacket made of thin-walled cell. walled • A central mass of cuboidal cells enclosed by the jacket layer are the androgonial cells or androcyte mother c cells. • Each androcyte mother cell, on maturity, divides diagonally to produce two triangular androcytes. ngular • Each androcyte ultimately metamorphoses into a single biflagellate antherozoid or spermatozoid.
    • • During metamorphosis cell walls of the androgonial ge get disorganised to form a semifluid mucilaginous content in which the mature antherozoids float freely. • Next gelatinization of jacket cells towards the apex marks it more breakable. • When water enters into the antheridial chamber the gelatinized jacket cells absorb it and swell and finally lls break open. • Then the semifluid mucilaginous content of the antheridium containing the antherozoids, oozes out of the antheridial chamber to the dorsal surface of the thallus.Archegonium: • A mature archcgonium is a flas flask-shaped body embedded within a chamber called archegonial chamber which chamber, communicates with the dorsal surface by a pore. • The archegonium is attached to the base of the archegonial chamber by means of a short few few-celled stalk. • The flask-shaped archegonium is differentiated into a basal swollen part the venter and an elongated um venter, protruding tubular portion, the neck. • The venter consists of a single layered wall having more than six cells in perimeter and encloses a lower large egg or female gamete with an upper small ventral canal cell. • The wall of upper tubular neck consists of 6 tires of elongated cells 6-9 arranged in 6 vertical rows which encloses a narrow central canal consisting of 4-6 neck canal cells in a single row. • The tip of the neck is covered b four specialized cells called cover cells. by • When the archegonium is matured, the canal cells (neck and ventral canal cells) degenerate, leaving a mucilaginous mass. • Shortly before fertilization, when water enters into the archegonial chamber, the mucilaginous mass imbibes water, swells and sets up a force which pushes aginous the cover cells apart. Thus a free neck canal is formed from the apex of the archegonium to the egg.Fertilization:For fertilization water is necessary. Water helps liberation of antherozoid by therupture of the antheridium. Water also acts as a medium for transportation ofantherozoid towards the egg. After rain water is retained as a thin film in the dorsalfurrow of the thallus and acts as a medium for the movement of antherozo antherozoids. Prior tofertilization the mucilage that is out of the archegonium attracts the antherozoids towards the archegonium. Theantherozoids thus attracted, arrive near the egg travelling down through the neck canal. Finally a single antherozoid(n) fuses with the egg (n) and forms a diploid (2n) zygote. The zygote is the first cell of the sporophytic ithgeneration.Structure of the sporophyte: • The mature sporophyte of Riccia is a globular capsule, embedded within the gametophytic plant , tissue and is without foot and seta. oot • After fertilization, the zygote secretes a wall and increases in volume until it nearly fills the cavity of the venter. • Simultaneously, the cells of the venter divide to form a two layerd venter enclosing the developing sporophyte, a structure called calyptra. • The zygote now divides in both vertical and transverse planes and produces a more or less spherical mass of 20-40 cells. • The spherical mass then differentiates into a
    • peripheral cell layer, the amphithecium and a central mass of cells, the endothecium. • The amphithecium forms the jacket or wall of the sporophyte. • The endothelial cells divide and form a sporogenous tissue, the archesporium. • The archesporial cells are finally differentiated into spore mother cells with dense thick cytoplasm and nurse cells with watery vacuolated cytoplasm. • The spore mother cells now undergo meiosis or reduction division resulting in haploid (n) spore tetrades (four spores). • In the meantime, the nurse cells, amphithecial layer and also inner layer of the venter degenerate to form a nutritive viscous fluid. This r fluid supplies nourishment to the developing spores. • The spore tetrad usually remain attached to one another and are finally separated. • The mature sporophyte, commonly, designated as sporogonium, is a more or less rounded structure sporogonium, containing the mature haploid spores, embedded within the gametophytic thallus. • The mature sporogonium does not contain a single diploid cell the envelope formed from the outer layer of calyptra, haploid spore, and encircling gametophytic tissue haploid. • The spores are liberated only by the decay of venter wall and surrounding gametophyte tissue.Structure of spore:Spore is the first cell of the gametophytic generation. Each spore is pyramidal or tetrahedral in shape with a cleartriradiate mark at the proximal face. A mature spore shows three layers of wall the outermost thin and cuticularised wall—theexosporium, the middle cuticularised mesosporium and theinnermost endosporium.Germination of spore and formation of the new haploidgametophyte:The spore germinates under favourable moist conditions.During germination the spore takes water and swells up, as aresult the massive black exosporium bust and the thinendosporium enclosing the spore contents protrudes out inthe form of a tubular outgrowth called the germ tube. Thegerm tube elongates and divides to form an eight celled germdisc. The rhizoid emerges out near the base of the germ tube.The cells of the germ disc soon divide and re re-divide to forma multicellular thallus which remains fixed with the soil byrhizoids.Life cycle:In the life cycle of Riccia the haploid gametophyticgeneration is independent and is the main vegetative body. Itreproduces both vegetatively and sexually. The asexual threproductive phase i.e. sporophytic generation is dependentupon the gemetophyte and is embedded within it. It isrepresented only by the sporogenous tissues which arediploid cells. Mature sporophyte or sporogoniu is made up sporogoniumof haploid cells only, it is a peculiar condition found only inRiccia. Dr. Jayakara Bhandary M. Associate Professor Botany Professor- GAS College , Karwar – 581301 Karnataka, India.