ZLY 303 Phylum Porifera Phylum Porifera Sponges 5000
- Slides: 41
ZLY 303 Phylum Porifera
Phylum Porifera (Sponges) ü 5000 - 90000 spp. ü mostly marine some freshwater ü none terrestrial ü 3 classes, most important ü distinctions are skeletal ü Most primitive animal group
Distribution v. There approximately 9, 000 living species and above 2200 fossil forms. v. All are aquatic – most are marine; found at all depths from intertidal to the abyssal zone, – a few occur in freshwater (~150 spp. ) – most range from <1/2 inch to over 6 ft. tall (loggerhead sponges), – some are round, flat, grow as crusts or vase-like, – some are radially symmetrical; most are, – Assymetrical, often brightly colored: yellows, reds, greens, oranges, lavenders
Simplicity They are closely related to the group of protozoan protists, called the choanoflagellates, The protozoan protists cells closely resemble the collar cells of sponges, Approximately, 1/4 th of Sponges genes are shared by all other animals, All sponges are sessile, but multicellular their structure is unlike any other animal group.
Ecology • Growth is entirely dependent on the following: • shape of the substratum to which they attach, • the direction or speed of water currents, • Space availability Therefore environment plays significance in growth patterns.
Sponge Biological Associations
Excoriations by sponges into shells and Carapace of Bivalves and Brachipods
Abundance of fossil records v. In 2010, newly discovered fossils were found in old rocks that were 635 -659 million years old. v. About 400 million years ago, sponges dominated the oceans as reef builders, v. Some fossil sponge reefs are much larger than the great barrier reef, v. Sponges covered an arc across most of Northern Europe some 200 million years ago. v. They were fossilized into hard rock for building castles in the Middle age.
Spindle diagram showing Originating Era
Stromatoporoids A B Stromatoporoids Showing calcareous Layers
Phylogenetics of Porifera • Diagnostic feature of the Porifera was the presence of spicules, • Groups with a solid calcareous skeleton such as the Archaeocyatha, chaetetids, sphinctozoans, stromatoporoids, and receptaculids were problematic. • 15 extant species of sponges having a solid calcareous skeleton were recently added, • With living sponges in hand, histological, cytological, and larval characteristics were observed. • Calcarea and the Demospongia are more closely related to each other than they were to the Hexactinellida.
Phylogenetics of Porifera • chaetetids, stromatoporoids, and sphinctozoans were living with a fourth class was erected and called sclerospongia, • Sclero-spongia is not a natural monophyletic group and thus has being abandoned, • The Archaeocyatha pose a special case because no living representative of this group has been discovered but their organization is consistent with that of living sponges. • Phylogenetic analysis included archaeocyaths with other sponges and grouped them as sisters to the demosponges due to the presence of choanoflagellates. • On the contrary, sponges only achieve collar cells after embryological development.
Adaptive Radiation in Poriferans • The enormous diversification centres on a unique ability of members to use a perfect water-current system to channel food, oxygen and eliminate waste via the same system. • The proliferation of the flagellated chamber observed in the leuconoid sponges favoured them because of the largeness in size of this group as compared to the asconoid and synconoid.
Morphology Arrows shows water flow directions
Microscopic view of Porifera cells
Choanocytes (collar cells) v. They line the flagellated flagellum canals and chambers v. They are ovoid with one end embedded in the mesohyl Collar microvilli v. Adjacent Microvilli are connected to each other by microfibrils v They act as a pump to bring Food Vacuole water into the sponge Nucleus v. Food engulfed is passed to archeocyte for digestion
Collagen - Support Ø Collagen is found between the inner canals and chambers Ø Mesohyl Ø Amoeboid cells located in the mesohyl, have different roles: 1. Archeocytes: motile in the mesohyl: – Phagocytize particles in the pinacoderm, – Recieves particles for digestion 2. Sclerocytes: Specialized, secrete spicules 3. Spongocytes: Secrete spongin fibres for skeleton 4. Collencytes: Secrete fibrillar collagen 5. Lophocytes: Secrete large quantities of Collagen distinguishable from collencytes
Body wall: Support Small Section through Sponge wall
Types of Spicules q. Demospongiae & Sclerospongiae secrete siliceous spongin silicon dioxide (Si. O 2). q. Calcareous sponges secrete crystalline calcium carbonate (Ca. CO 3) spicules with one to four Collagen is stiffened by addition of microscopic rays mineral accretions or additional protein fibers (spongin) or both
Types of Spicules
Types of Canal Systems Osculum Choanocytes Porocytes Spongocoel Choanocytes Spongocoel Ostium Ascon Sycon Leucon
Anatomy of Ascon & Sycon
Leuconoid Anatomy • The most common network of water channels
Asconoids • Flagellated spongocoels, • Simplest organization, • Small, branched and tube shaped, • Spongocoels allow water into the cells lined with choanocytes, • Present only in Calcarea • E. g. Leucosolenia, Clathrina canariensis,
Syconoids • Flagellated canals • larger editions of asconoids, • Tubular body but single osculum, • Thicker & complex body wall containing radial canals lined with choanocytes • Spongocoels lined with epithelia & not flagella • Water enters through dermal ostia and filters through Prosophyles, • Food is forced through internal pores called apopyles, • No branched colonies • E. g. Calcarea, hexactinellida
In flux & Out flux of Water in Syconoid
Leuconoids • Flagellated chambers, • Complex organization • Suitably adapted for increasing size, • Forms large masses with numerous oscula, • Flagellated cluster chambers filled from incurrent canals, and opens into excurrent canals, • Most are leuconoids, • Clear adaptive value, • E. g. Calcarea,
Classification Phylum Porifera Ø Class Calcarea, Ø Class Demospongiae, Ø Class Hexactinellida, Ø Sclerospongiae (no longer considered a class)
Classification Class Calcarea (calcareous sponges) Øsmall, vase shaped, primitive group, Ømostly drab coloured; a few are yellow, red, green, lavender, Øall marine, especially shallow waters, Øshow all 3 types of canal systems; mostly asconoid canals, Øspicules of Ca. CO 3, needle shaped or 3 -4 rayed, monaxons, ØGrows in colonies ØStraight spicules around the osculum that discourages small animals from entering
Class Demospongiae (Most sponges) • Possess spicules made of silicon dioxide (Si. O 2) or spongin or a combination of both • Most sponges belong to this class (90%) Nearly all are leuconoid body type, • 95% are living, encrusting plants • Mostly found on the continental shelf in well oxygenated habitats • Spongilla spp. (Bath sponge), present in midsummer and later form gemmules after disintegration
Class Hexactinellida (Glass sponges) • Spicules are made of silica, • Usually found in deep water on soft substrates in the tropics 200 -1, 000 m. • Spicules are six- rayed, pointed and have a lattice-like structure, • Cup, vase or urn shape, • Radially symmetrical, • Formed as one by trabecular net of living tissues from fusion of pseudopodia of archaeocytes, • E. g. Euplectella (Venus flower)
Reproduction in Sponges ASEXUAL Marine sponges • Budding • Fragmentation • Regeneration Freshwater sponges • Gemmules • Budding • Fragmentation • Regeneration SEXUAL • Male & female gametes are formed (monoecious). • Archeocytes become eggs • Choanocytes filter sperm out of the water • Fertilization is involved. • Planktonic larvae or mini flagellated colonies are released to colonize new areas. • Most are viviparous
Development during Reproduction (Demosponges) • Parenchymula larva is free – swimming, • Outward flagellated cells invaginates and becomes the choanocytes,
Development during Reproduction (Calcarea) § A hollow blastula (Amphiblastula) develops with flagellated cells interiorly, § Blastula turns inside-out, § Flagellated end appears outward (micromeres), § Larger nonflagellated end (macromeres) turns into pinacoderm & Sclerocytes, § Flagellated cells become the choanocytes, archeocytes & collencytes
Larvae of Sponges Asexual A Gemmule of Spongillidae • Asexual budding • Formation of internal buds/Gemmules by freshwater sponges • Regeneration: can regenerate from broken pieces • Allorecognition Sexual • Sexual usually hermaphroditic with male and female cells scattered throughout the connective tissue.
Human Impacts of Sponges Bath sponges • In use since bronze age (4000 yrs. ) • Holds up to X 35 s its weight in water • Takes 5 yrs. to reach marketable size • Creates job opportunities for harvesters & collectors • Sponges were challenged by red tides and a fungal disease that wiped out the sponge beds • Synthetic sponges were introduced to the market
Human Impacts of Sponges Production of a wide variety of bioactive compounds • Pharmaceuticals: Antibiotics, Asthma, Arthritis, Anticancer drugs, Chemicals that promote wound healing, Anti-inflammatories Examples üantibiotics against bacteria such as E. coli and Staph aureus, e. g. Acyclovir üfrom Caribbean sponge ü 1 st antiviral compound approved for human use fights herpes infections (in use since 1982), e. g. Vidabarine. ümay attack AIDS virus, e. g. a species of S/Pacific sponge produces chemicals that is bactericidal against Candida albicans (thrush and vaginal infections)
Human Impacts of Sponges • In 2009, a new chemical derived from sponge has the ability to re-sensitize bacterial pathogens to antibiotics (Ensures loss of resistance to all antibiotics and die) Material Science • The strongest glass structure derived from Euplectella (Venus flower) is a source for study due to its strength Aquarium Trade
End of Presentation Thanks for Listening
- Arkeosit
- Oheň dobrý sluha ale zlý pán
- Dobrý sluha ale zlý pán chemie
- Spider phylum
- Ohen dobry sluha zly pan
- Sponges belong to the phylum
- Sponge
- Vir 303
- Coloradoui.gov/myuiemployer
- Sis-303
- 426 499
- Comp 303
- Constant cheng
- Vicentiu covrig
- Life orientation grade 7 term 2 exam papers
- Lili ruger
- Bilgiyi işleme modelinin eğitim ortamında uygulamaları
- Economic 303
- Kravis theory of availability
- 38cfr3.303
- Form uib-290
- Zool 303
- Software development problems
- Dywizjon 303 klp
- Phylum porifera introduction
- Phylum porifera level of organization
- Porifera
- Phylum porifera is classified based on
- Sponge amoebocytes function
- Phylum porifera
- Porifera importance
- Sponge cell
- Level of organization of cnidaria
- Phylum angiospermophyta
- Sponges body parts
- Leucosolenia microscope
- Porifera
- Characteristic of porifera
- Phylum
- Enchinoderma
- Ascon sycon leucon sponges
- Annelus means small ring