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MARSILIALES.pptx

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The document describes the order Marsileales. It belongs to the division Pterophyta and class Leptosporangiopsida. Marsileales contains a single family Marsileaceae with 3 genera, most species belonging to Marsilea. It includes small heterosporous ferns that grow in water or wet places. Members have creeping rhizomes with erect leaves on long petioles. Sporangia are produced in hard, bean-shaped sporocarps. Each sorus contains both microsporangia and megasporangia. The life cycle and reproductive structures like sporocarp, sporangium and gametophytes are described in detail.

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ORDER: MARSILEALES ANJANA.K 1st semster MSc BOTANY
GENERALCHARACTERS  A small order of heterosporous, leptosporangiate ferns which grow in water or wet places and are rooted to the substrate.  The order contains a single family Marsileaceae and only 3 genera – (a)Marsilea, (c)Pilularia (b)Ragnellidium.  About 70 species in all, most of them belonging to the widespread genus Marsilea (water clover).  All members have creeping rhizomes which bear erect leaves with long petioles.
Shows circinate vernation Sporangia produced in hard, bean shaped protective sporocarp Each sorus is gradate: both micro and mega sporangia present In each sorus microsporangia are borne laterally while mega sporangia are borne terminally.
Classification of Marsilea Division: Pteriophyta Class: Leptosporangiopsida Order: Marisileales Family: Marsileaceae Genus: Marsilea
HABIT The plants are herbaceous with rhizomatous stem, creeping on or just below the soil surface. The species of Marsilea are generally aquatic or amphibious in nature with their roots embedded in mud or damp soil. The aquatic species — M. minuta and M. quadrifolia — occur in fresh water ponds, shallow water, or in mud or damp soil.
EXTERNAL MORPHOLOGYOF SPOROPHYTE  Slender creeping, dichotomously branched rhizome of indefinite growth.  Roots arise adventitiously from each node. The leaves arise on long stalks from the rhizome and typically have floating blades.  MARSILEA has four leaflets, suggesting a four-leaved clover.  Stomata are restricted to the upper epidermis in floating leaves.  Land forms have short internodes, few air spaces and more sclerenchyma in vegetative parts.  Water forms has long internodes and extensive air spaces. sclerenchyma absent.
INTERNAL MORPHOLOGY OF SPOROPHYTE T.S.OF RHIZOME: Epidermis Cortex: Outer parenchymatous cortex with a ring of air chambers(aerenchymatous), Inner parenchymatous cortex with sclerenchymatous patch. Stele: Amphiphloicsiphonostele Pith: Present in the centre and can be parenchymatous (in submerged plants) or sclerenchymatous (terrestrial plants)
Amphiphloicsiphonostele This type of siphonostele, the xylem is encircled on both sides by phloem, pericycle, and endodermis.
INTERNAL MORPHOLOGY OF SPOROPHYTE T.S. OF ROOT:  Epidermis  Cortex: Outer aerenparenchymatous cortex, middle parenchymatous cortex & inner cortex sclerenchymatous.  Stele: Endodermis, pericycle, radial vascular bundles with diarch & exarch xylem
INTERNAL MORPHOLOGY OF SPOROPHYTE T.S. OF PETIOLE: Epidermis Cortex: Outer cortex parenchymatous , Middle cortex aerenchymatous (septate) , inner cortex parenchymatous  Stele: Protostele (plectostelic). Xylem consists of two plates with metaxylem in the centre & protoxylem towards the periphery.
INTERNAL MORPHOLOGY OF SPOROPHYTE V.S. OF LEAFLET Upper epidermis Mesophyll : Isobilateral (in the submerged species) dorsiventral with aerenchyama (in terrestrial species)  Vascular bundles: Concentric vascular bundles arranged in parallel series.  Lower epidermis
REPRODUCTION Vegetative: Tuber  Asexual: Heterosporous (Microspores, megaspores), microsporangia & megasporangia in sporocarps.
SPOROCARP -External morphology Young sporocarps - Soft and green Mature sporocarps - Dark brown and hard (Withstand desiccation 20 to 25 years) Sporocarp = Pedicel or stalk + Body, Pt. of attachment = Raphe. Distal end of raphe 1 or 2 teeth-like projections known as -horns. Sporocarp wall Hard, thick, resistant. Differentiated into 3 layers Outer (epidermis with sunken stomata), middle (thick walled palisade) and inner (thin walled palisade).
MARSILIALES.pptx
SPOROCARP - Internal structure Horizontal Longitudinal Section (H.L.S.) Each sorus transversely is cut Sorus is an elongated structure, covered by a delicate indusium.  Sori are of gradate type , in basipetal pattern.
H.L.S OF SPOROCARP
sporocarp  Sorus consists of a row of megasporangia at top and two rows of on microsporangia either sides.  Mucilage ring is present in two masses on dorsal and ventral sides.
SPORANGIUM-Structure  At maturity, the spore mother cells undergo meiosis followed by few mitosis to produce 32-64 spores.  Structure :Each micro or megasporngium, consists of a single layered jacket enclosing spore mother cells.  microsporangium, all spores survive while in megasporangium, only one spore survives and becomes a very large megaspore .
Dehiscence During dehiscence, sporocarp imbibes water and the gelatinous ring swells, expands and pushes out of the split sporocarp. It also pulls the sori and the sori come out in a row. Indusium gelatinise and liberate the sporangia. Later the sporangial walls also gelatinise and the spores are liberated in the surrounding water.
Female Megaspore and female gametophyte.  Mature megaspore is elliptical with a short papilla at one end.  Spore wall - 2 layered - endosporium & exosporium.  Papilla is surrounded only by endosporium.  Nucleus is located in the apical papilla and is surrounded by a dense cytoplasm.  The rest of the spore is filled with watery cytoplasm & food.  Megaspore germinates to give rise to female gametophyte.  The development is endosporic.  Apical nucleus is divided into unequal nuclei. One nucleus remains in the dense cytoplasm while the larger one migrates to watery cytoplasm.  Transverse wall is formed at the base of the papilla separating the upper small cell and lower larger cell called prothalial cell.  Prothalial cell do not divide further and acts as nutritive cell.  Upper cell soon develops an archegonium with a short neck and venter. The neck has single neck canal cell surrounded by jacket made up of two tiers of four cells each.  Venter contains a venter canal cell. At maturity, megaspore absorbs water, the tipof the megaspore splits in tri-radiate fissure and the archegonium is exposed.  Female gametophyte is surrounded by a gelatinous mass & a funnel shaped opening at the top.
Male gametophyte and Microspore  Microspore - Yellowish, spherical haploid with a triradiate ridge &consists of uninucleate cytoplasm is surrounded by spore wall.  Spore wall - 2 layered - endosporium & exosporium.  Spore absorbs water and increase considerably in size.  Nucleus divides to form a small prothalial cell & large apical cell Apical cell divides to form two antheridial initials. .  Antheridial initial - few jacket cells externally & one spermatogenouscell internally.  Spermatogenous cell forms 16 androcytes which represent one antheridium.  At this stage, prothalial cell and jacket disintegrate and two groups of androcytes remain free but within the microspore.  Each androcyte now develops into multiciliated, coiled spermatozoidwith vesicle at one end.  Thus, development of male gametophyte is endosporic
GAMETOPHYTE-Fertilization SPOROPHYTE- Development  During fertilization, spermatozoids or male gametes are liberated from ruptured male gametophyte and are attracted by the chemical substances present in the gelatinous mass.  Movement of spermatozoids under the influence of chemical substances is called chemotaxis.  Spermatozoids swarm around and enter the gelatinous matrix ofthe female gametophyte. Only one spermatozoid enters the open neck and fertilizes the egg to form diploid zygote.  Zygote develops into embryo. Embryo shows cotyledons and roots developed from upper half of the embryo while stem and foot developed from lower half of embryo.  The cotyledon comes out from calyptra. The rhizoids are developed at first on the root. Very soon the embryo settles in the mud and water.
MARSILIALES.pptx
LIFE CYCLE OF MARSILEA
REFERENCES  A text book of botany ( SINGH-PANDE-JAIN)  https://pin.it/2n5uMMN  https://www.slideshare.net/ArSlanJanjua6/marsilea- structure-and-reproduction  A Textbook of Botany P.N PANDEY& MISHRA
Important questions  Explain general characters of marsilieales.( 2w)  Describe sporocarp in marsilieales. .( 2w)  Give an account on Marsileales. .(3w)  Compare Marsilieales and Salviniales.(3w)

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MARSILIALES.pptx

  • 2. GENERALCHARACTERS  A small order of heterosporous, leptosporangiate ferns which grow in water or wet places and are rooted to the substrate.  The order contains a single family Marsileaceae and only 3 genera – (a)Marsilea, (c)Pilularia (b)Ragnellidium.  About 70 species in all, most of them belonging to the widespread genus Marsilea (water clover).  All members have creeping rhizomes which bear erect leaves with long petioles.
  • 3. Shows circinate vernation Sporangia produced in hard, bean shaped protective sporocarp Each sorus is gradate: both micro and mega sporangia present In each sorus microsporangia are borne laterally while mega sporangia are borne terminally.
  • 5. HABIT The plants are herbaceous with rhizomatous stem, creeping on or just below the soil surface. The species of Marsilea are generally aquatic or amphibious in nature with their roots embedded in mud or damp soil. The aquatic species — M. minuta and M. quadrifolia — occur in fresh water ponds, shallow water, or in mud or damp soil.
  • 6. EXTERNAL MORPHOLOGYOF SPOROPHYTE  Slender creeping, dichotomously branched rhizome of indefinite growth.  Roots arise adventitiously from each node. The leaves arise on long stalks from the rhizome and typically have floating blades.  MARSILEA has four leaflets, suggesting a four-leaved clover.  Stomata are restricted to the upper epidermis in floating leaves.  Land forms have short internodes, few air spaces and more sclerenchyma in vegetative parts.  Water forms has long internodes and extensive air spaces. sclerenchyma absent.
  • 7. INTERNAL MORPHOLOGY OF SPOROPHYTE T.S.OF RHIZOME: Epidermis Cortex: Outer parenchymatous cortex with a ring of air chambers(aerenchymatous), Inner parenchymatous cortex with sclerenchymatous patch. Stele: Amphiphloicsiphonostele Pith: Present in the centre and can be parenchymatous (in submerged plants) or sclerenchymatous (terrestrial plants)
  • 8. Amphiphloicsiphonostele This type of siphonostele, the xylem is encircled on both sides by phloem, pericycle, and endodermis.
  • 9. INTERNAL MORPHOLOGY OF SPOROPHYTE T.S. OF ROOT:  Epidermis  Cortex: Outer aerenparenchymatous cortex, middle parenchymatous cortex & inner cortex sclerenchymatous.  Stele: Endodermis, pericycle, radial vascular bundles with diarch & exarch xylem
  • 10. INTERNAL MORPHOLOGY OF SPOROPHYTE T.S. OF PETIOLE: Epidermis Cortex: Outer cortex parenchymatous , Middle cortex aerenchymatous (septate) , inner cortex parenchymatous  Stele: Protostele (plectostelic). Xylem consists of two plates with metaxylem in the centre & protoxylem towards the periphery.
  • 11. INTERNAL MORPHOLOGY OF SPOROPHYTE V.S. OF LEAFLET Upper epidermis Mesophyll : Isobilateral (in the submerged species) dorsiventral with aerenchyama (in terrestrial species)  Vascular bundles: Concentric vascular bundles arranged in parallel series.  Lower epidermis
  • 13. SPOROCARP -External morphology Young sporocarps - Soft and green Mature sporocarps - Dark brown and hard (Withstand desiccation 20 to 25 years) Sporocarp = Pedicel or stalk + Body, Pt. of attachment = Raphe. Distal end of raphe 1 or 2 teeth-like projections known as -horns. Sporocarp wall Hard, thick, resistant. Differentiated into 3 layers Outer (epidermis with sunken stomata), middle (thick walled palisade) and inner (thin walled palisade).
  • 15. SPOROCARP - Internal structure Horizontal Longitudinal Section (H.L.S.) Each sorus transversely is cut Sorus is an elongated structure, covered by a delicate indusium.  Sori are of gradate type , in basipetal pattern.
  • 17. sporocarp  Sorus consists of a row of megasporangia at top and two rows of on microsporangia either sides.  Mucilage ring is present in two masses on dorsal and ventral sides.
  • 18. SPORANGIUM-Structure  At maturity, the spore mother cells undergo meiosis followed by few mitosis to produce 32-64 spores.  Structure :Each micro or megasporngium, consists of a single layered jacket enclosing spore mother cells.  microsporangium, all spores survive while in megasporangium, only one spore survives and becomes a very large megaspore .
  • 19. Dehiscence During dehiscence, sporocarp imbibes water and the gelatinous ring swells, expands and pushes out of the split sporocarp. It also pulls the sori and the sori come out in a row. Indusium gelatinise and liberate the sporangia. Later the sporangial walls also gelatinise and the spores are liberated in the surrounding water.
  • 20. Female Megaspore and female gametophyte.  Mature megaspore is elliptical with a short papilla at one end.  Spore wall - 2 layered - endosporium & exosporium.  Papilla is surrounded only by endosporium.  Nucleus is located in the apical papilla and is surrounded by a dense cytoplasm.  The rest of the spore is filled with watery cytoplasm & food.  Megaspore germinates to give rise to female gametophyte.  The development is endosporic.  Apical nucleus is divided into unequal nuclei. One nucleus remains in the dense cytoplasm while the larger one migrates to watery cytoplasm.  Transverse wall is formed at the base of the papilla separating the upper small cell and lower larger cell called prothalial cell.  Prothalial cell do not divide further and acts as nutritive cell.  Upper cell soon develops an archegonium with a short neck and venter. The neck has single neck canal cell surrounded by jacket made up of two tiers of four cells each.  Venter contains a venter canal cell. At maturity, megaspore absorbs water, the tipof the megaspore splits in tri-radiate fissure and the archegonium is exposed.  Female gametophyte is surrounded by a gelatinous mass & a funnel shaped opening at the top.
  • 21. Male gametophyte and Microspore  Microspore - Yellowish, spherical haploid with a triradiate ridge &consists of uninucleate cytoplasm is surrounded by spore wall.  Spore wall - 2 layered - endosporium & exosporium.  Spore absorbs water and increase considerably in size.  Nucleus divides to form a small prothalial cell & large apical cell Apical cell divides to form two antheridial initials. .  Antheridial initial - few jacket cells externally & one spermatogenouscell internally.  Spermatogenous cell forms 16 androcytes which represent one antheridium.  At this stage, prothalial cell and jacket disintegrate and two groups of androcytes remain free but within the microspore.  Each androcyte now develops into multiciliated, coiled spermatozoidwith vesicle at one end.  Thus, development of male gametophyte is endosporic
  • 22. GAMETOPHYTE-Fertilization SPOROPHYTE- Development  During fertilization, spermatozoids or male gametes are liberated from ruptured male gametophyte and are attracted by the chemical substances present in the gelatinous mass.  Movement of spermatozoids under the influence of chemical substances is called chemotaxis.  Spermatozoids swarm around and enter the gelatinous matrix ofthe female gametophyte. Only one spermatozoid enters the open neck and fertilizes the egg to form diploid zygote.  Zygote develops into embryo. Embryo shows cotyledons and roots developed from upper half of the embryo while stem and foot developed from lower half of embryo.  The cotyledon comes out from calyptra. The rhizoids are developed at first on the root. Very soon the embryo settles in the mud and water.
  • 24. LIFE CYCLE OF MARSILEA
  • 25. REFERENCES  A text book of botany ( SINGH-PANDE-JAIN)  https://pin.it/2n5uMMN  https://www.slideshare.net/ArSlanJanjua6/marsilea- structure-and-reproduction  A Textbook of Botany P.N PANDEY& MISHRA
  • 26. Important questions  Explain general characters of marsilieales.( 2w)  Describe sporocarp in marsilieales. .( 2w)  Give an account on Marsileales. .(3w)  Compare Marsilieales and Salviniales.(3w)