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Marine Invertebrate Zoology

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1 Marine Invertebrate Zoology
The Hydrostatic Skeleton Phylum Cnidaria Whenever we think of a skeleton we think of bones in a doctor’s office But if movement is going to be accomplished we must have a skeleton Invertebrates use a hard exoskeleton or a fluid filled hydrostatic skeleton Phylum Cnidaria

2 The Hydrostatic Skeleton
A solid or fluid system permitting muscles to be stretched back to their original length following a contraction. May or may not have a protective or supportive function as well Invertebrates commonly use a hydrostatic skeleton since they are getting support from the environment Phylum Cnidaria

3 The Hydrostatic Skeleton
The hydrostatic skeleton requires: A muscle can shorten and relax, but it can not actively extend itself Example of biceps and triceps contracting and relaxing on your arm (antagonize movement) vertebrates in the terrestrial environment have a rigid skeleton for support in a non-supportive environment The hydrostatic skeleton requires: Presence of a cavity with an incompressible fluid that transmits pressure changes uniformly in all directions The cavity is surrounded by a flexible outer membrane, permitting deformations of the outer body wall and 2 different muscles that orientates in different directions The volume of fluid in the cavity remains constant Phylum Cnidaria

4 Phylum Cnidaria Overview
Defining Characteristics Formation of complex intracellular organelles called nematocysts Planula larvae in the life cycle The phylum is composed of anemones, corals, sea whips, hydroids, and jellyfishes Diploblastic Phylum Cnidaria Overview Defining Characteristics Secretion of complex intracellular organelles called nematocysts used in prey capture and defense can be quite painful and even life threatening Planula larvae in the life cycle (ciliated, mouth less larvae, this is the sexual stage of the life cycle) The phylum is composed of anemones, corals, sea whips, hydroids, and jellyfishes looking at a coral and jellyfish the casual observer finds it hard to believe that they are related you will have a better appreciation for this classification after our discussion Slightly more complex than Porifera but still has limited organ development For all members of the phylum the body consists of two living cell layers (diploblastic): the epidermis and the gastrodermis We have called these layer ectoderm and endoderm in previous lectures, this high lights nomenclature problems in science Used to be called coelenterata (hollow gut) and was classified along with the sponges and ctenophores have remarkable similarities to the comb jellies but there are significant differences which we will discuss later Over 11,000 species in the world over 60 shallow water species in our area Mostly Marine, Radially symmetrical Phylum Cnidaria

5 Diploblastic Animals Epidermis Gastrodermis Phylum Cnidaria
Mesoglea = jelly which can range from thick and fibrous to almost absent non-living, but may contain living cells for digestion etc. Epidermis = which can excrete a cuticle or exoskeleton Gastrodermis = secretory for digestion, ciliated for circulation, folded for absorption Gastrovascular cavity = functions as digestion, absorption and circulation for some species it acts as a fluid skeleton Gives the advantage to handle a wide array of food items In most cases the mouth and digestive cavity wall is surrounded by nematocysts and opens into the gastrovascular cavity Phylum Cnidaria

6 Nematocysts Used for gathering food or defense
Produced in special cells called cnidoblasts Stinging cells (Nematocysts or cnidae) The phylum is characterized by these structures Used for gathering food or defense (over 30 different types have been described) some are used for sticking to things, tangling things, penetration of the skin, or the secretion of powerful proteinaceous toxins Nematocysts Produced in special cells called cnidoblasts Can be produced in the area of use or in other locales and then moved to the area of need SEM micrograph of nematocysts penetrating skin Phylum Cnidaria

7 Nematocysts Consist of a capsule that is occluded by an operculum
Barbs are usually located near the surface of the cnidoblast Discharge with an explosive force that takes less than 3ms. Cnidocil = trigger that projects form the tip of an undischarged nematocysts Consist of a capsule that is occluded by an operculum Barbs are usually located near the surface of the cnidoblast Discharge with an explosive force that takes less than 3ms. Cnidocil = trigger that projects form the tip of an undischarged nematocysts Triggered by tactile or chemical cues Once discharged it can not be used again Phylum Cnidaria

8 Nematocysts Phylum Cnidaria
Consists of a capsule that is occluded by an operculum Barbs are usually located near the surface of the cnidocyte Discharge with an explosive force and takes >3ms. Cnidocil = trigger that projects form the tip of an undischarged nematocysts Triggered by tactile or chemical cues Once it is discharged it can not be used again Usually >50m impressive in the number per square inch Astomocnidae = closed end threads that are used for attachment and lasso prey Stomocnidae = open end thread used for penetration and the injection of toxins Abundant on tentacles of all species and the digestive cavity of some species cnidae capsules average 50 microns in size and rarely reach 100 microns they are significant due to the great number per square mm #143 Jellyfish types and sting treatment Blue Planet Coral seas (Chapter 2, 3, and 11) Phylum Cnidaria

9 Cnidarian Nutrition A major cnidarian drawback is the absence of an anus Carnivorous feeders on zooplankton and small fish Reef building corals also depend on symbiotic photosynthetic dinoflagellates for energy Nutrition For those contemplating reincarnation as a cnidarian a major drawback is the absence of an anus (not particularly appealing) This disadvantageous because the animal must expel the remains of one meal before consuming another also movement can result in the expulsion of food material before digestion Carnivorous feeding on zooplankton and small fish Reef building corals (hermatypic) also depend on symbiotic photosynthetic algae for energy (some other species depend on algae as well) Nematocysts are discharged and then brought to the mouth Mucus secreting cells aid in digestion In the gastrovascular cavity enzymatic glands reduce contents to soupy broth Products of digestion are circulated by cellular diffusion Phylum Cnidaria

10 Reproduction and Nervous System
Reproduce asexually and sexually Larvae - mouthless, ciliated, swimming planula In the classes Scyphozoa and Hydrozoan the sexual stage is the medusa Alternate between the polyp and medusa The polyp asexually produces a medusa that sexually produces a planula larvae, which then settles into a polyp Polymorphism = more than one stage per species Nervous system In contrast to Porifera cnidarians do posses a nervous system Nerve cells are arranged in an irregular nerve net or plexus (lacks a central nervous sys.) With the initiation of a signal it spreads to muscle and sensory cells Gas exchange and Excretion Lack gills and other specialized respiratory structures Occurs across the general body surface Nitrogenous waste (ammonia) also diffuses Reproduction Reproduce by asexual reproduction Sexual reproduction - Larvae = mouthless, ciliated, swimming planula (romer) In the classes Anthozoa sexual stage is the polyp, medusa is absent In the classes Scyphozoa sexual stage is the medusa, Alternate between the polyp and medusa generations The polyp asexually produces a medusa that sexually produces a planula larvae, which then settles into a polyp Hydrozoa is a combination of the two Polymorphism = more than one stage per species Promotes diversity of habitat distribution big advantage Phylum Cnidaria

11 Polyp & Medusa

12 Polyp and Medusa Medusa (jellyfish) Usually solitary and free swimming
The mouth and tentacles are directed downwards Contains thick mesoglea Polyp (tube shape) Solitary or colonial, usually sessile attached by its base Mouth and tentacles are pointed upward Mesoglea is usually thin May have a fluid skeleton or calcium carbonate exoskeleton The phylum contains two body forms: Medusa (jellyfish) Usually solitary and free swimming The mouth and tentacles are directed downwards Contains thick mesoglea The gastrovascular cavity has a digestive chamber with circulatory canals radiating from it Polyp (tube shape) Solitary or colonial, usually sessile which is attached by its base Mouth and tentacles are pointed upward Mesoglea is usually thin May have a fluid skeleton or calcium carbonate exoskeleton Phylum Cnidaria

13 Cnidarian Classification
Phylum Cnidaria Class Scyphozoa Class Cubozoa Class Hydrozoa Order Hydroida Order Siphonophora Class Anthozoa Subclass Alcyonaria (Octocorallia) Subclass Zoantharia (Hexacorallia) Classification Phylum Cnidaria (G: a stinging thread (G: hollow gut)) Class Scyphozoa (G: cup animals) Class Cubozoa (G: cube animals) Class Hydrozoa (G: water animals) Order Hydroida Order Siphonophora Class Anthozoa (G: flower animals) Subclass Alcyonaria (Octocorallia) Subclass Zoantharia (Hexacorallia) Phylum Cnidaria

14 Class Scyphozoa Defining characteristic
Asexual replication by strobilation Includes the true jellies, moon jellies (Aurelia) and Sea Nettles (Chrysaora) Scyphozoa (cuplike animals) 200 species Defining characteristic Asexual replication with strobilation Includes the true jellies, moon jellies (Aurelia) and Sea Nettles (Chrysaora) This class is dominated by a large medusa stage (2-40cm) can be up to 2meters in width Mesoglea is thick and gelatinous giving it the name jellyfish #379 Audubon There are blooms that are occurring throughout the world In 2000 there was an immense bloom have effects on the ecosystem Some areas of the Chesapeake are not swimmable A decade ago the black sea anchovy fishery was devastated by Mnemiopsis Phylum Cnidaria

15 Scyphomedusa Structure
Contains a large swimming bell that has tentacles and sensory capsules Rhopalia Statocysts Ocelli Medusa Structure Similar to hydroid medusa Contains a large swimming bell that has tentacles and sensory capsule Located along the margin (rhopalia) contains ocelli and statocysts Rhopalia = sensory organ which senses light, odor, and position Pacemaker which controls muscle contractions Rhopalia Phylum Cnidaria

16 Medusa Movement Phylum Cnidaria
Movement is accomplished by a contraction forcing water out of the area under the bell The mesoglea plays an important part in the efficiency of swimming the elasticity of the mesoglea gives the ability for it to pop back to its original shape Phylum Cnidaria

17 Scyphomedusa Structure
Manubrium is elongated into 4 oral arms that hang from the subumbrella and catch food (not to be confused with the tentacles) some have a manubrium instead of oral arms Tentacles are located around the margin can be long or short The coelenteron consist of 4 or more major radial canals and a marginal ring canal Radial canals radiate from the central stomach to a ring canal, which encircles the bell The radial and ring canals are the circulatory system 4 mesenteries or septa partition the stomach This forms 4 gastric pockets The inner septa have gastric filaments, which have stinging cells to subdue swallowed prey Phylum Cnidaria

18 Scyphozoa Reproduction
Individuals are dioecious Fertilized eggs develop into a planula larvae Settles on a firm surface in a quiet place and forms a polyp These reproduce asexually and bud off seasonally; strobila or strobilaton Phylum Cnidaria

19 Scyphozoa Lifecycle Gonad development occurs in each septum
The radial and ring canals are the circulatory system Life cycle Figure The individual releases either male or female gametes from the mouth Gonochoristic or dioecious (G: two houses) Fertilized eggs = planula larvae Settles on a firm surface in a quiet place and form a polyp (scyphistoma) Same structure as the hydroids usually much smaller These reproduce asexually and bud off seasonally (strobila or strobilaton) Each breaks away and forms a swimming ephyra which grows into a medusa Individuals are usually predators or suspension feeders. All are marine Order Semaeostomeae Common spp. Aurelia (moon jelly), Chrysaora (Sea Nettle), Cyanea (Lion’s Mane) Order Rhizostomeae Common spp. Stomolophus (Cannonball) Eaten by sunfish, sea turtles, and spade fish Blue Planet Seasonal seas (Chapter 3, 4)

20 Class Cubozoa Defining characteristics
Medusa with box-like body Chiropsalmus quadrumanus (Sea Wasp) Cubozoa (cube animals) Defining characteristics Medusa with box-like body Rhopalia bear complex, lensed eyes in addition to ocelli they also have eyes with lenses among the most complex in the invertebrates Cubomedusae are Jellyfishes with cubical transparent bodies Common in Australia can die from the sting (Box jellies) Each individual bears 4 tentacles The box curves inwards allowing for excellent swimming similar to restricting a garden hose #159 box jelly article (Chironex fleckeri) more people die from theses stings than sharks #379 Audubon venom Phylum Cnidaria

21 Class Cubozoa Known as box jellies or sea wasps due to shape and painful sting Occur in tropical and warm temperate seas Does not reproduce through strobilation Planula forms more polyps each of which develops into a medusa Known as box jellies or sea wasps due to shape and painful sting Occur in tropical and warm temperate seas Chiropsalmus quadrumanus (Sea Wasp) An animal 2-3cm long can have tentacles up to 30cm long virulent nematocysts give them the ability to kill animals much larger than themselves Cubozoa Eyes Phylum Cnidaria

22 Class Hydrozoa Due too small sizes and plant-like appearance people are unaware of their existence Display both polyp and medusa in the life cycle Mesoglea is thin or absent Hydrozoa (water animals) 2700 species, due too small sizes and plant-like appearance people are unaware of their existence Display both polyp and medusa in the life cycle 3 characteristics unite this class: Mesoglea is never cellular Gastrodermis lacks nematocysts Gonads are epidermal (egg and sperm are shed directly to the outside) Phylum Cnidaria

23 Hydroid Structure Polyps can be solitary or colonial
Very drab in appearance, no external skeleton, colonies are polymorphic Hydroid Structure Polyps can be solitary or colonial (more common) In colonial forms the epidermis, mesoglea, and gastrodermis are continuous Most colonies are cm in height Very drab in appearance, no external skeleton, colonies are polymorphic Hydra Phylum Cnidaria

24 Polymorphism Hydroid colonies have polyps of different functions
Feeding - gastrozooids Defense - dactylozooids Reproduction - gonozooids Hydroid colonies have polyps of different functions Feeding (gastrozooids), defense (dactylozooids), reproduction (gonozooids) Some harbor unicellular green algae (zoochlorellae) for a mutualistic relationship Phylum Cnidaria

25 Hydromedusa Structure
Medusoid Structure Medusa is similar to Scyphozoa jellyfish Medusa Exumbrella - upper surface Subumbrella - lower surface Smaller (.5cm-6cm) and have a velum (jet water) Mouth hangs at the end of the manubrium (tube) has cnidocytes Mesoglea is thick but acellular Tentacles hang off the bell margin Margin also contains: Ocelli: photoreceptor, which contains pigment Statocysts: pace makers and balance sensors for contractions Phylum Cnidaria

26 Hydrozoan Reproduction
Hydroid stage can reproduce by asexual budding Eventually the bud detaches and becomes independent Also has considerable powers of regeneration Gonozooids will release medusa All medusa reproduce sexually Reproduction Hydroid stage can reproduce by asexual budding Eventually the bud detaches and becomes independent Also has considerable powers of regeneration Turning the polyp inside out experiment Some release medusa others do not When medusa is not released a planula larva is created by the attached, reduced medusa stage All medusa reproduce sexually Phylum Cnidaria

27 Hydrozoa Lifecycle Fertilization may occur in the water, on the manubrium or internally Planula = free swimming (hours - days) larva that settles and develops into a hydroid colony The appearance of hydroid medusa is highly seasonal and related to water temperature Can sting and cause rashes A 7cm colony can release 4450 medusa over 3 days Life span of medusa can range from a few days to months

28 Order Hydroida Most species of the class hydrozoa in our area are hydroids Form sessile colonies of polyps and are usually mistaken as seaweed Exceptions are Velella and Porpita = hydroids that float freely at the surface Order Hydroida Most species of the phylum hydrozoa in our area are hydroids Form sessile colonies of polyps and are usually mistaken as seaweed Produce microscopic, transparent swimming Medusa Exceptions are Velella and Porpita = hydroids that float freely at the surface Velella Phylum Cnidaria

29 Order Siphonophora Swimming or floating hydrozoan colonies
Portuguese man-o-war (Physalia physalis) Order Siphonophora Swimming or floating hydrozoan colonies Portuguese man-o-war (Physalia physalis) Dactylzooids capture and kill prey Float = (pneumatophore) is a modified medusa Other Siphonophora have swimming bells that resemble typical medusa but lack a mouth, tentacles and sensory organs. Never release sexual medusa and all but Physalia are hermaphrodites Phylum Cnidaria

30 Phylum Cnidaria More Siphonophora = Nectalia sp. = Muggiaea sp.
All use the nectophore as a method for propulsion Phylum Cnidaria

31 Class Anthozoa Defining characteristics
Absence of a medusa stage Anemones, corals, sea whips, sea pansies Polyps consists of a column, flattened oral disk surrounding the mouth which bears tentacles Some polyps are solitary (anemones) others are colonial (coral) Anthozoa Defining characteristics Absence of a medusa stage Coelenteron is partitioned by distinct sheets of tissue (septa) Anemones, corals, sea whips, sea pansies, 6000 species (70% of all described) Medusa stage is absent Brings up some interesting evolutionary questions Was the cnidarian a polyp shaped animal that evolved a medusa? Polyps consists of a column, flattened oral disk surrounding the mouth which bears tentacles Some polyps are solitary (anemones) others are colonial (coral) Phylum Cnidaria

32 Class Anthozoa Feed using tentacles that move food to the mouth
Water is used by some as a fluid skeleton Produce planula larvae that settle and form new colonies Can also reproduce using pedal laceration and fission Feed using tentacles that move food to the mouth The mouth opens into the pharynx (cilia pump water into the gastrovascular cavity, which can fill deflated polyps). Vertical sheets of mesenteries partition gastrovascular cavity Feeding polyps often have mesenteries, which are lined with stinging cells to subdue prey When Anthozoans retract water is expelled through the mouth Water is used by some as a fluid skeleton Also have acontia that can be used for defense, loaded with nematocysts Produce planula larvae that settle and form new colonies Can also reproduce using pedal laceration and fission #247 How corals feed a colony can consume 19% of its daily energy requirement in 2 hours after dark Blue Planet Coral seas (Chapter 2, and 3) Phylum Cnidaria

33 Subclass Zoantharia (Hexacorallia)
Posses 6 septa that separate the gastrovascular cavity Many species are solitary and lack a protective covering (sea anemones) Separated into two major orders Subclass Hexacorallia Posses 6 septa that separate the gastrovascular cavity Many species are solitary and lack a protective covering (sea anemones) Separated into 2 major orders: Order Actiniaria Sea anemones Order Scleractinia Stony Corals Phylum Cnidaria

34 Sea Anemones Solitary and lack a rigid skeleton
Have a broad adherent pedal disk Can reproduce asexually (pedal laceration) and sexually Order Actiniaria Sea anemones, solitary and lack a rigid skeleton Have a broad adherent pedal disk Can reproduce asexually (pedal laceration) and sexually Eggs can be fertilized in the gastrovascular cavity or in the water Larva then settles and grows tentacles Others in this group include the: Phylum Cnidaria

35 Stony corals Colonial with calcium carbonate skeleton secreted by the epidermis May be reef-building (hermatypic) or non reef building (ahermatypic) Hermatypic corals live in warm clear waters and can form chains around islands Zooxanthellae forms a symbiotic relationship with coral Order Scleractinia (stony corals) Colonial with calcium carbonate skeleton secreted by the epidermis Each polyp has a depression, which it occupies Radial partitions result from calcium carbonate deposition on the mesenteries Some species are reef builders and may harbor zooxanthellae Feeds mostly on zooplankton, usually at night Expands by asexual budding or sexual planula similar to anemone May be reef-building (hermatypic) or not (ahermatypic) Hermatypic corals live in warm clear waters and can form chains of islands The Great Barrier reef is 2000 km. Long (Disscus problems facing corals) Scientific american (#66) Coral bleaching, #249 Deep water corals ahermatypic #316 Nature reef bleaching outbreak Tropical water is poor in plankton and corals are carnivorous Zooxanthellae forms a symbiotic relationship with coral Coral gets energy and zooxanthellae gets protection and waste products Blue Planet the deep (Chapter 8) Corals are also important in medicine today for both bone graphs (face and jaw) and artificial eye implants Their system of appropriately sized interconnected pores is rapidly infiltrated by human blood capillaries and quickly incorporated into tissue Phylum Cnidaria

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38 Subclass Alcyonaria (Octocorallia)
Distinguishing characteristics Sea whips, sea fans, and sea pansies are in this group Can harbor zooxanthellae Sub Class Alcyonaria (Octocorallia) Distinguishing characteristics Polyps have 8 septa that divided the gastrovascular cavity Always have eight tentacles which posse side branches, like a feather Sea whips, sea fans, and sea pansies are in this group Can harbor zooxanthellae Discuss research box on the palatability of coral spicules, and its importance as a defense mechanism Phylum Cnidaria


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