_______ is the Phylum.

Echino means spiny.

Derm means skin.

There are 7,000 species of Echinoderms.

Echinoderm means spiny skin.

They have radial symmetry.

Echniodermata is the ____.

Echino means spiny.

Derm means skin.

There are 7,000 species of Echinoderms.

Echinoderm means spiny skin.

They have radial symmetry.

Echniodermata is the Phylum.

_____ means spiny.

Derm means skin.

There are 7,000 species of Echinoderms.

Echinoderm means spiny skin.

They have radial symmetry.

Echniodermata is the Phylum.

Echino means ____.

Derm means skin.

There are 7,000 species of Echinoderms.

Echinoderm means spiny skin.

They have radial symmetry.

Echniodermata is the Phylum.

Echino means spiny.

____ means skin.

There are 7,000 species of Echinoderms.

Echinoderm means spiny skin.

They have radial symmetry.

Echniodermata is the Phylum.

Echino means spiny.

Derm means ____.

There are 7,000 species of Echinoderms.

Echinoderm means spiny skin.

They have radial symmetry.

Echniodermata is the Phylum.

Echino means spiny.

Derm means skin.

There are _____ species of Echinoderms.

Echinoderm means spiny skin.

They have radial symmetry.

Echniodermata is the Phylum.

Echino means spiny.

Derm means skin.

There are 7,000 ____ of Echinoderms.

Echinoderm means spiny skin.

They have radial symmetry.

Echniodermata is the Phylum.

Echino means spiny.

Derm means skin.

There are 7,000 species of ______.

Echinoderm means spiny skin.

They have radial symmetry.

Echniodermata is the Phylum.

Echino means spiny.

Derm means skin.

There are 7,000 species of Echinoderms.

_____ means spiny skin.

They have radial symmetry.

Echniodermata is the Phylum.

Echino means spiny.

Derm means skin.

There are 7,000 species of Echinoderms.

Echinoderm means ____ skin.

They have radial symmetry.

Echniodermata is the Phylum.

Echino means spiny.

Derm means skin.

There are 7,000 species of Echinoderms.

Echinoderm means spiny ____.

They have radial symmetry.

Echniodermata is the Phylum.

Echino means spiny.

Derm means skin.

There are 7,000 species of Echinoderms.

Echinoderm means spiny skin.

They have _____ symmetry.

Echniodermata is the Phylum.

Echino means spiny.

Derm means skin.

There are 7,000 species of Echinoderms.

Echinoderm means spiny skin.

They have radial _____.

____ ____ are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

____ walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body ____ are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are ____ of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of ____ made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of ____ ____.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of ____ carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium ____.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

____ are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all ____ species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine ____ types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine ____ ____.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They ____ cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack ____.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their ____ ____ system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their ____ ____ ____ uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their ____ vascular system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water ____ system uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular ____ uses internal tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses ____ tubes that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal ____ that carry out the body functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the ____ functions like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body ____ like respiration, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like ____, circulation, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, ____, and movement.

Body walls are spikes of plates made of calcium carbonate.

Echinoderms are all marine species types.

They lack cephalization.

Their water vascular system uses internal tubes that carry out the body functions like respiration, circulation, and ____.

____ have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have ___ feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube ____ which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have ___ ___ which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are ____ ____ that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in _____ and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in ____ prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening ___.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms ____ solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete ___ waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid ____ through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the ___ and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and ___ waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid ____ through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete ___ ____ through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and ___ ____ through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through ___ in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in ___ feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube ____.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in ____ ____.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have __ brain but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no ____ but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have __ ____ but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no ____ but a nerve ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a ____ ring around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ____ around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a ___ ____ around their mouth.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their ____.

Many have eyespots to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have _____ to detect light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to ___ light.

Starfish have tube feet which are suction cups that aid in movement and help in opening prey.

Echinoderms excrete solid waste through the anus and liquid waste through tissues in tube feet.

Echinoderms have no brain but a nerve ring around their mouth.

Many have eyespots to detect ___.

Echinoderms ____ through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through ____ fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external ____ and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are ____.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea ____ and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea ____ feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea ___ are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

____ ____ and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

___ ____ feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

___ ___ are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and ____ ____ feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on ____.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

____ _____ are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are ____ feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are ____ ____.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on ___ plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead ___ and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and ____ material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal ____ on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the ___ ___.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea ____.

Sea Stars are carnivores that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are ___ that feed on bivalves and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on ____ and can regenerate body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can ____ body parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate ____ parts

Echinoderms reproduce through external fertilization and most are dioecious.

Sea Urchins and Sand Dollars feed mainly on algae.

Brittle Stars are filter feeders.

Sea Cucumbers feed on dead plant and animal material on the sea floor.

Sea Stars are carnivores that feed on bivalves and can regenerate body ____

____ Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata ____

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

____: Long rod to help support body mainly as embryo.

Nerve Cord: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help ____ body mainly as embryo.

Nerve Cord: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support ____ mainly as embryo.

Nerve Cord: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help ____ ____ mainly as embryo.

Nerve Cord: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as ____.

Nerve Cord: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

____ Cord: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve ____: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

___ ___: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: Runs ____ Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: ___ alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: Runs alongside ___

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: ___ ___ ___

Pharynx Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: Runs alongside Notochord

___ Slits or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: Runs alongside Notochord

___ ___ or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: Runs alongside Notochord

Pharynx ___ or Pouches: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: Runs alongside Notochord

Pharynx Slits or ___: Gills used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: Runs alongside Notochord

Pharynx Slits or Pouches: ___used for respiration

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used ___ ___

Tail: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

___: At the end

Chordata Characteristics

Notochord: Long rod to help support body mainly as embryo.

Nerve Cord: Runs alongside Notochord

Pharynx Slits or Pouches: Gills used for respiration

Tail: __ ___ ___

___ Chordates

Tunicates

Lanceletes

[Fun Fact: 99% of Phylum Chordata are vertebrates]

Invertebrate ___

Tunicates

Lanceletes

[Fun Fact: 99% of Phylum Chordata are vertebrates]

___ ___

Tunicates

Lanceletes

[Fun Fact: 99% of Phylum Chordata are vertebrates]

Invertebrate Chordates

___

Lanceletes

[Fun Fact: 99% of Phylum Chordata are vertebrates]

Invertebrate Chordates

Tunicates

___

[Fun Fact: 99% of Phylum Chordata are vertebrates]

Invertebrate Chordates

___

___

[Fun Fact: 99% of Phylum Chordata are vertebrates]

Tunicates

Lancelets

Invertebrate Chordates

Tunicates

Lanceletes

[Fun Fact: ___ of Phylum Chordata are vertebrates]

Invertebrate Chordates

Tunicates

Lanceletes

[Fun Fact: 99% of ___ Chordata are vertebrates]

Invertebrate Chordates

Tunicates

Lanceletes

[Fun Fact: 99% of Phylum ___ are vertebrates]

Invertebrate Chordates

Tunicates

Lanceletes

[Fun Fact: 99% of Phylum Chordata are ___]

Invertebrate Chordates

Tunicates

Lanceletes

[Fun Fact: 99% of ___ ___ are vertebrates]

___ of Subphylum Vertebrate

Two pairs of appendages

Closed Circulation

Coelom

Exhibit Cephalization

Endoskeleton

Characteristics of ___ Vertebrate

Two pairs of appendages

Closed Circulation

Coelom

Exhibit Cephalization

Endoskeleton

Characteristics of Subphylum ___

Two pairs of appendages

Closed Circulation

Coelom

Exhibit Cephalization

Endoskeleton

____ __ ____ ____

Two pairs of appendages

Closed Circulation

Coelom

Exhibit Cephalization

Endoskeleton

Characteristics of Subphylum Vertebrate

___ pairs of appendages

Closed Circulation

Coelom

Exhibit Cephalization

Endoskeleton

Characteristics of Subphylum Vertebrate

Two __ of appendages

Closed Circulation

Coelom

Exhibit Cephalization

Endoskeleton

Characteristics of Subphylum Vertebrate

___ ___ of appendages

Closed Circulation

Coelom

Exhibit Cephalization

Endoskeleton

Characteristics of Subphylum Vertebrate

Two pairs of ___

Closed Circulation

Coelom

Exhibit Cephalization

Endoskeleton

Characteristics of Subphylum Vertebrate

___ ___ __ ____

Closed Circulation

Coelom

Exhibit Cephalization

Endoskeleton

Characteristics of Subphylum Vertebrate

Two pairs of appendages

___ Circulation

Coelom

Exhibit Cephalization

Endoskeleton

Characteristics of Subphylum Vertebrate

Two pairs of appendages

Closed ___

Coelom

Exhibit Cephalization

Endoskeleton

Characteristics of Subphylum Vertebrate

Two pairs of appendages

___ ___

Coelom

Exhibit Cephalization

Endoskeleton

Characteristics of Subphylum Vertebrate

Two pairs of appendages

Closed Circulation

___

Exhibit Cephalization

Endoskeleton

Characteristics of Subphylum Vertebrate

Two pairs of appendages

Closed Circulation

Coelom

___ Cephalization

Endoskeleton

Characteristics of Subphylum Vertebrate

Two pairs of appendages

Closed Circulation

Coelom

Exhibit ___

Endoskeleton

Characteristics of Subphylum Vertebrate

Two pairs of appendages

Closed Circulation

Coelom

___ ___

Endoskeleton

Characteristics of Subphylum Vertebrate

Two pairs of appendages

Closed Circulation

Coelom

Exhibit Cephalization

___

___ Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate ___

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

___ ___

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

___ (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia ____

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

___ ___

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

___

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

___

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

___

___

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Dog

Whale

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

___ (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves ___

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

___ ___

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

___

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

___

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

___

___

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Bluejay

Cardinal

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

___ (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia ____

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

___

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

___

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

___

___

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Snake

Lizard

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

___ (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia ___

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

___

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

___

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

___ ___

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

___ Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony ___

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

___ ___

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

___

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

___

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

___ Fish

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage ___

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

___ ___

Shark

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

___

Stingray

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

___

Jawless Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

___ Fish

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless ___

Lamprey

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

___

Hagfish

Vertebrate Classes

Mamammalia (Hair)

Dog

Whale

Aves (Feathers)

Bluejay

Cardinal

Reptilia (Scaley Skin)

Snake

Lizard

Amphibia (Smooth Skin)

Frog

Salamander

Bony Fish

Bass

Trout

Cartilage Fish

Shark

Stingray

Jawless Fish

Lamprey

___