Main article: Fossils

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Kingdom Animalia

Sponges (Phylum Porifera)

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Common Names	Sponges
Physical Description	Their bodies do not contain tissue, muscles, nerves, or organs. Some are composed of silica spicules, and others of calcium carbonate. They generally do not have body symmetry, but some sponges have radial symmetry. Their bodies are hollow and held together by jelly-like substances which have many cells. Cells on the outside can move inwards and change function. Their pores are called ostia.
Fossil Range	Precambrian to Recent. Sponges reached their greatest diversity during the Cretaceous period.
Taxonomy	Kingdom: Animalia.
Mode of Life or Habitat	They are benthic and sessile, and live in marine and freshwater environments. Sponges are free-swimming in their larval stages. Sponges can have a symbiotic relationship with blue-green algae (shallow sponges are more likely to do this). Sponges can be reef builders, being able to house organisms such as nematodes, crustaceans and mollusks in the osculum (center chamber).
Adaptations Over Time	They were the first to branch off from the common ancestor of all animals, so they're the sister group of all other animals. The shapes of their bodies are adapted for maximal efficiency of water flow through the central cavity. Some specimens can move at around 1-4 mm a day.
Distribution	Sponges are worldwide in their distribution, living in a wide range of ocean habitats.
Etymology	Porifera means "pore bearer."
Additional Information	They pump water through the body to feed, and have one body orifice to serve for ingestion as well as excretion.
External Links	https://en.wikipedia.org/wiki/Sponge. http://personal.kent.edu/~alisonjs/paleo/paleolab2porifera.htm.

Genus Astraeospongia (calcareous sponge)

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Fossil Range	Silurian to Devonian
Mode of Life or Habitat	It lived in marine environments.
Additional Information	The spicules were the only part of the sponge that got fossilized, and there are star-shapes spicules all over the body (though they can be faint).
External Links	https://www.academia.edu/12178341/Species_Name_Astraeospongia_meniscus_MORPHOLOGICAL_ASPECTS_AND_ITS_LIFE. https://scholarworks.uni.edu/cgi/viewcontent.cgi?article=6146&context=pias. https://www.jstor.org/stable/1300159?seq=2#metadata_info_tab_contents. http://personal.kent.edu/~alisonjs/paleo/paleolab2porifera.htm.

Genus Hydnoceras (glass sponge)

This fossil will only be tested at the State and National levels.

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Common Names	Glass sponge (this name refers to all of class Hexactinellida).
Physical Description	It is composed of silica spicules, which provided structural support and deterred enemies.
Fossil Range	Devonian to Pennsylvanian
Taxonomy	Class: Hexactinellida
Mode of Life or Habitat	Reef builder.
Distribution	Eastern United States and Europe
Additional Information	Class Hexactinellida is still extant but is now found only in the deep ocean. In the past, they could be found at almost all depths. Hydnoceras is a good index fossil and is usually preserved as internal molds.
External Links	http://personal.kent.edu/~alisonjs/paleo/paleolab2porifera.htm.

Bryozoans (Phylum Bryozoa)

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Common Names	Moss animals
Physical Description	The structure seen when looking at a Bryozoan is actually a support structure composed of calcium carbonate. The animal itself lives in tiny holes in that structure, and is rarely larger than a millimeter. They appear very similar to corals, but are very, very different in biology. Bryozoans come in three growth forms: massive (a mound with no planned shape), branching (where the structure forms intricate branches), and fenestrate (where in life the bryozoan would have large, soft appendages coming out from the skeleton).
Fossil Range	They evolved in the Ordovician, and are still found today. Are most commonly found in Paleozoic rocks
Taxonomy	Kingdom: Animalia Clade: Lophophorata
Mode of Life or Habitat	They attached to the bottom of the ocean, and were filter feeders.
Distribution	Bryozoans are found on every continent except Antarctica. Most lived in a shallow marine environment, but nowadays can also be found in fresh water.
Additional Information	They produce a compound known as bryostatin 1, which is currently being tested as an anti-cancer drug. Bryozoans can reproduce both sexually and asexually.
External Links	https://en.wikipedia.org/wiki/Bryozoa.

Genus Archimedes

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Physical Description	It was a fenestrate bryozoan that was much wider in life than it seems from the fossil. Individual animals are called zooids. Fossils are ~2 cm long. In life, it had calcified tissue that held the edge of the lacy colony with the axis usually preserved alone.
Fossil Range	Carboniferous to Permian, ~345-268 mya.
Taxonomy	Class: Stenolaemata Order: Fenestrata Family: Fenestellidae
Mode of Life or Habitat	Benthic and sessile filter feeders. Lived in clear, shallow marine waters. They preferred clear water because murky water clogs the zooecia in which they live.
Distribution	Are mainly found throughout Europe and North America, but they have also been found in sediments of Afghanistan, Canada, Russia, and Australia. They lived in shallow marine waters.
Etymology	It was named for the Greek thinker Archimedes, who invented the water screw - Archimedes fossils look very much like screws.
External Links	https://en.wikipedia.org/wiki/Archimedes_(bryozoan).

Genus Rhombopora

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Physical Description	A branching bryozoan. Has a calcified skeleton made of tubes. Individual zooids form zooeciums, sacs that they secrete and live in. They attach to the substrate via a holdfast structure.
Fossil Range	Carboniferous to Permian.
Taxonomy	Class: Stenolaemata Order: Rhabdomesida Family: Rhomboporidae
Mode of Life or Habitat	Benthic and sessile filter feeders. Lived in clear, shallow marine waters.
Distribution	Widespread across North America and Asia.
Etymology	The genus name comes from its rhombus-shaped holes.
External Links	https://en.wikipedia.org/wiki/Rhombopora.

Graptolites (Phylum Hemichordata)

This fossil will only be tested at the State and National levels.

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Common Names	Graptolites
Physical Description	Fossils look like pencil marks on a rock. They consisted of colonies of microscopic organisms with a threefold body division. The three body parts are the proboscis/protostome, the collar, and the trunk. Each colony comes from an initial zooid (the sicular zooid). Every other zooid then develops from that initial zooid. The colony is connected via tubes called stolons. The entire colony is housed in a theca, also called a rhabsodome, coenocium, or tubarium, likely made of either collagen or chitin, which the graptolites secrete through the cephalic shield.
Fossil Range	Cambrian to end of Carboniferous.
Taxonomy	Kingdom: Animalia Clade: Ambulacraria
Mode of Life or Habitat	Usually deposit feeders, though some species are filter feeders.
Adaptations Over Time	They are thought to be on the path that led to the vertebrates.
Distribution	Worldwide - excellent index fossils for the Paleozoic.
Additional Information	Geologists can divide the rocks of the Ordovician and Silurian periods into graptolite (class Graptolithina) biozones; these are generally less than one million years in duration. A worldwide ice age at the end of the Ordovician eliminated most graptolites except the neograptines. Diversification from the neograptines that survived the Ordovician glaciation began around 2 million years later. Some of the greatest extinctions that affected the group were the Hirnantian in the Ordovician and the Lundgreni in the Silurian, where the graptolites populations were dramatically reduced. They are usually fossilized by means of carbonization in shale.
External Links	https://en.wikipedia.org/wiki/Hemichordate. https://en.wikipedia.org/wiki/Graptolithina.

Order Dendroidea (benthic graptolites)

This fossil will only be tested at the State and National levels.

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Common Names	Benthic Graptolites
Physical Description	They were upright and bushy. They are many-branched, with numerous small thecae (two kinds of thecae, autothecae and bithecae, probably female and male zooids, respectively). They have colonial skeletons (rhabdosomes) that are generally broadly branching (conical to fan-shaped to shrub-like to flat spirals). Stipes branch many times in sequence, yielding a dendritic rhabdosome. The nema attaches the rhabdosome to the substrate.
Fossil Range	Middle Cambrian to Lower Carboniferous
Taxonomy	Class: Pterobranchia Subclass: Graptolithina
Mode of Life or Habitat	Sessile, Benthic, Attached to substrates, as encrusting organisms or by an attachment disc. Suspension Feeder.
Distribution	Worldwide.
Additional Information	Graptolites with relatively few branches were derived from Dendroidea at the beginning of the Ordovician period.

Order Graptoloidea (planktic graptolites)

This fossil will only be tested at the State and National levels.

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Common Names	Planktic Graptolites.
Physical Description	One type of thecae (autothecae). In adults, there is always a sicula bearing a nema. Typically resemble small hacksaw blades. Each "tooth" of the hacksaw blades housed a tentaculate, filter-feeding organism. The entire hacksaw blade is the graptolite skeleton, known as a rhabdosome, a non-mineralized colonial skeleton. Stipes branch at most once. In some, the stipes are scandent (they grow up the sides of the nema). The nema attaches the rhabdosome to a floating object. (Some genera seem to have secreted siphonophore-style floats from which numerous rhabdosomes hung.) Thecae are uniform. Monograptid morphology an unbranched stipe growing up one side of the nema. Such rhabdosomes often assume spiral shapes. Perhaps they did not attach and depended on a slow sinking rate to remain in the photic zone.
Fossil Range	Lower Ordovician to Lower Devonian (peak abundance and diversity from Ordovician to Silurian, as they had a partial die-out in the early Devonian).
Taxonomy	Class: Pterobranchia Subclass: Graptolithina
Mode of Life or Habitat	Planktonic/Pelagic. Drifted freely on the surface of early seas. They were the most important animal members of the plankton during the time of their peak. Suspension Feeder.
Adaptations Over Time	They had 8 stipes in earlier forms but 2 and then 1 in later forms.
Distribution	Worldwide.
Additional Information	More diverse than Dendroidea. Includes five suborders. Key index fossils. Graptoloidea appeared during the Great Ordovician Biodiversification Event (GOBE), which followed the late Ordovician extinction.

Corals (Phylum Cnidaria)

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Common Names	Includes jellyfish, corals, and hydras.
Physical Description	Cnidarians use nematocysts to catch prey and have tissue “organs.” They are radially symmetric with a sac-like body. Coral has skeletal cups known as corallites. The inside of the corallite is called the calyx. The vertical blades in the calyx are known as septa which may continue outside the corallite wall as costae.
Fossil Range	Ediacaran (Precambrian, ~580 mya) to modern-day.
Taxonomy	Kingdom: Animalia
Mode of Life or Habitat	Usually marine. Polyps (e.g. corals) are benthic and sessile. Jellyfish are motile and planktonic.
Additional Information	The cnidarian group contains jellyfish, sea anemones, and corals. They all use stinging cells known as nematocysts to capture prey, which is usually plankton. Modern corals have a symbiotic relationship with algae.
External Links	https://en.wikipedia.org/wiki/Cnidaria. https://en.wikipedia.org/wiki/Corallite.

Order Tabulata (tabulate corals)

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Common Names	Tabulate Corals
Physical Description	They form colonies of hexagonal cells (corallites), with a calcite skeleton. They have well-developed horizontal internal partitions (tabulae) within each cell, but reduced or absent vertical internal partitions (septa). They vary in shape with their platforms usually straight and complete. Tabulate corals also display radial symmetry, and the septa, if present, are always very short and prickly.
Fossil Range	Ordovician to Permian. They became extinct in the Permian–Triassic extinction event.
Taxonomy	Class: Anthozoa
Mode of Life or Habitat	They were almost always colonial. Shallow waters.
Additional Information	Preserved by limestone and calcareous shale.
External Links	https://en.wikipedia.org/wiki/Tabulata. https://palaeopost.blogspot.com/2016/08/the-difference-betweenrugose-tabulate.html.

Genus Favosites

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Common Names	Honeycomb coral.
Physical Description	A specimen can be anywhere from a few centimeters to tens of centimeters in all dimensions. Is easily recognizable by the honeycomb-like appearance when viewed from above. Corallites (individual structure that houses each coral animal/polyp) were about 1/16 in (2mm) wide and in length they were long, narrow, closely packed tubes. They were colonial. Septa are not present or are short irregular spines. Mural pores in the walls of the corallites allow transfer of nutrients from polyp to polyp. Filter-fed on plankton using stinging tentacles. Calcium carbonate substrate.
Fossil Range	Late Ordovician to Late Permian, 488-251 mya. It is commonly found in Silurian limestone.
Taxonomy	Family: Favositidae
Mode of Life or Habitat	Benthic and sessile. Lived in warm, shallow, and sunlit seas.
Adaptations Over Time	They had a symbiotic relationship with photosynthetic algae.
Distribution	Every continent except Antarctica.
Etymology	The name comes from favus, Latin for "honeycomb."
Additional Information	Rising sea levels during the Devonian caused them to become less common.
External Links	https://en.wikipedia.org/wiki/Favosites. https://fossillady.wordpress.com/2010/09/05/what-is-a-favosite/.

Genus Halysites

This fossil will only be tested at the State and National levels.

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Common Names	Chain coral, due to its growth pattern.
Physical Description	Made of calcite. Individual corallites were cylindrical and 2 mm long and wide. Each corallite held a single polyp. Corallites are more widely spaced in Halysites than in many other tabulate corals. Distinctive chain shape. Colonies range in diameter from <1 to 10s of centimeters.
Fossil Range	Late Ordovician to Early Devonian, 450-412 mya. They thrived in the Silurian.
Taxonomy	Family: Halysitidae
Mode of Life or Habitat	Benthic and sessile. Lived in warm, shallow waters. Suspension feeder.
Adaptations Over Time	They had a symbiotic relationship with hermit crabs and algae.
Distribution	Widespread over North America. They have been found in sediments of Canada, the US, Europe, Asia, and Australia.
Etymology	The name comes from halysis, Greek for "chain."
Additional Information	It is an index fossil for the Silurian.
External Links	https://en.wikipedia.org/wiki/Halysites.

Order Rugosa (rugose corals)

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Common Names	Tetracorals, horn corals, and cup corals.
Physical Description	Shape of a wrinkled horn. May be solitary or colonial. Could grow up to 1 meter long. Large corallites. They have well-developed septa in groups of four (modern corals have groups of six, subclass Hexacorallia). They have a skeleton made of calcite. They have bilateral symmetry. Probably had stinging tentacles to capture prey. Have well-developed tabulae. They sometimes possess dissepiments, curved plates that connect the septa and tabulae. They start with four major septa and then grow minor septa. The central line is called the columella, which gives support for solitary corals.
Fossil Range	Middle Ordovician to Late Permian.
Taxonomy	Class: Anthozoa
Mode of Life or Habitat	Shallow water. Benthic, sessile micro-carnivores.
Adaptations Over Time	Some lived inside Stromatoporoidea sponges (endosymbiosis), especially in the Silurian.
Etymology	Name comes from rūgōsus, Latin for "wrinkled."
External Links	https://en.wikipedia.org/wiki/Rugosa. https://palaeopost.blogspot.com/2016/08/the-difference-betweenrugose-tabulate.html.

Genus Heliophyllum (horn coral)

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Common Names	Horn coral.
Physical Description	~3 cm long horns. May be solitary or colonial. It fed using its nematocysts to stun prey.
Fossil Range	Devonian.
Taxonomy	Family: Zaphrentidae
Mode of Life or Habitat	Shallow waters. Benthic and sessile.
Distribution	They had a wide distribution, including both Americas, Asia, and Europe.
Etymology	Horn corals get their name from their body shape, which is horn-like.
Additional Information	Heliophyllum growth patterns are used to calculate the length of the Devonian day and year.
External Links	https://en.wikipedia.org/wiki/Heliophyllum.

Genus Hexagonaria

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Physical Description	Bilateral symmetry. Thick walls and septa with hexagonal corallites. Colonial. Each corallite of the Hexagonaria is made up of a usually six-sided compartment that adjoins the others in the colony and creates an elaborate hexagon.
Fossil Range	Devonian, 416-359 mya
Taxonomy	Family: Disphyllidae
Mode of Life or Habitat	Warm, shallow waters. Benthic and sessile.
Distribution	It was very widely distributed around the world.
Etymology	Comes from the hexagonal corallites.
Additional Information	Petoskey stones (H. percarinata fossils) are the state stone of Michigan. Formed through glaciation, where stones were plucked from the bedrock and grinded into smooth rocks, eventually deposited into the northwestern portion of Michigan’s lower peninsula.
External Links	https://en.wikipedia.org/wiki/Hexagonaria.

Order Scleractinia (stony corals)

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Common Names	Stony corals, hard corals. A type of hexacoral.
Physical Description	Radial symmetry. The skeleton of an individual scleractinian polyp is known as a corallite. All modern scleractinian skeletons are composed of calcium carbonate in the form of crystals of aragonite. Well-developed septa. Absent tabulae.
Fossil Range	Middle Triassic - Recent. Scleractinian corals are the only corals that are alive today.
Taxonomy	Class: Anthozoa Subclass: Hexacorallia
Mode of Life or Habitat	Although some species are solitary, most are colonial. Hermatypic corals (the world’s primary reef builders) live in shallow tropical waters and are mostly colonial while ahermatypic corals live in all regions of the ocean, are either colonial or solitary, and do not build reefs.
Distribution	Occur in all oceans.
Etymology	The name Scleractinia is New Latin, based on Ancient Greek σκληρός (sklērós, "hard") + ἀκτίς (aktís, "ray").
Additional Information	Polyps reproduce asexually by budding.
External Links	https://en.wikipedia.org/wiki/Scleractinia. https://palaeopost.blogspot.com/2016/08/the-difference-betweenrugose-tabulate.html. https://ucmp.berkeley.edu/cnidaria/scleractinia.html.

Genus Septastrea

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Physical Description	The corallites are around 6 mm long. The polyps have horn shapes and 6 long and 6 short septa. Septastrea did not form reefs. Their morphology is variable, being able to grow into just about any shape.
Fossil Range	Paleogene to Pleistocene.
Taxonomy	Family: Rhizangiidae
Mode of Life or Habitat	Benthic and sessile. Usually lived in shallow, warm water, but were able to survive in deeper, colder water. Azooxanthellae (they do not live in symbiosis with photosynthetic algae). Suspension feeder.
Distribution	Every continent except Antarctica. Very prevalent along the Atlantic Coastal Plain.
Additional Information	http://fossilworks.org/?a=taxonInfo&taxon_no=96564.

Class Scyphozoa

This specimen is not on the official 2020-2021 Fossil List but has been on the Fossil List in the past.

Arthropods (Phylum Arthropoda)

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Common Names	Arthropods
Physical Description	They are invertebrates and have segmented bodies, an exoskeleton, and many limbs. The exoskeleton is made of chitin and sometimes calcium carbonate.
Fossil Range	Cambrian - Recent.
Taxonomy	Kingdom: Animalia
Distribution	Almost anywhere
Etymology	From Greek ἄρθρον arthron, "joint" and πούς pous, "foot."
Additional Information	This is the phylum that contains the "creepy-crawlies" of today. Arachnids, insects, and the like are all arthropods.
External Links	https://en.wikipedia.org/wiki/Arthropod.

Subphylum Crustacea (shrimp, lobster, crabs, barnacles, ostracods)

This fossil will only be tested at the State and National levels.

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Common Names	Crustaceans.
Physical Description	Crustaceans use antennae for swimming. They have 2-parted limbs and a chitin shell. Their bodies are divided into the head, thorax, and abdomen (sometimes referred to as the cephalothorax and abdomen). They have gills to obtain oxygen. They have 2 pairs of sensory antennae and 3 pairs of limbs used to push food into the mouth. They moult their exoskeleton in order to grow. They have an open circulatory system.
Fossil Range	Cambrian - Recent. They became abundant during the Carboniferous.
Mode of Life or Habitat	They are mostly marine animals, though some are common in freshwater and some are partially terrestrial. They can be benthic, planktonic, nektonic, or pseudo-planktonic.
External Links	https://en.wikipedia.org/wiki/Crustacean.

Class Malacostraca

This specimen is not on the official 2020-2021 Fossil List but has been on the Fossil List in the past.

Class Maxillopoda

This specimen is not on the official 2020-2021 Fossil List but has been on the Fossil List in the past.

Infraclass Cirripedia

This specimen is not on the official 2020-2021 Fossil List but has been on the Fossil List in the past.

Subphylum Chelicerata

Order Eurypterida (eurypterids)

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Common Names	Sea scorpions
Physical Description	Eurypterids have abdomens with 7 segments, 8 legs with the last pair being paddle-like, and tails. They are the largest-known arthropods ever to exist, the largest measuring in at 2.5 meters long or possibly more (although most were under 8 inches long).
Fossil Range	Middle Ordovician - Late Permian (Although the earliest fossils of eurypterids date back to the Ordovician, the level of complexity already exhibited by the group indicates that they evolved in the Cambrian). They suffered greatly during the Late Devonian extinction and became extinct during the Permian-Triassic extinction. Eurypterids were most diverse during the Devonian and Silurian periods.
Taxonomy	Class: Merostomata The eurypterids belonged to the same group that modern-day horseshoe crabs are classified in. As arachnids, they are related to modern day spiders and scorpions.
Additional Information	When they were first discovered, paleontologists thought that they were ancient catfish- it was seven years later that they became identified as arthropods. More detail is known about the external anatomy of eurypterids than any other group of fossils, and they are almost as well known as modern animals.
External Links	https://en.wikipedia.org/wiki/Eurypterid.

Class Insecta (Insects)

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Common Names	Insects
Physical Description	Insects have antennae, heads, 3-part thoraxes which have 3 pairs of legs, and abdomens. They have chitin exoskeletons which must be shed periodically and are not mineralized unlike other arthropods. Most undergo metamorphosis with pupae as resting stages. Over time, they grew wings (in the Carboniferous) and modified mouthparts.
Fossil Range	Early Devonian to recent. By the Cretaceous, all modern forms of insects had appeared.
Taxonomy	Subphylum: Hexapoda
Mode of Life or Habitat	Terrestrial and freshwater. One of the first animals to adapt to land.
Distribution	Worldwide
Etymology	Insecta is Greek for "cut into pieces."
Additional Information	Insects were not visibly affected by the extinction of the dinosaurs at the end of the Cretaceous. Terrestrial insects are usually not fossilized because their exoskeletons are not mineralized.
External Links	https://en.wikipedia.org/wiki/Insect.

Class Trilobita (Trilobites)

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Common Names	Trilobites
Physical Description	The first image identifies the sections of a trilobite's body: 1- cephalon, 2-Throax, 3-pygidium. The second image identifies the lobes that gives trilobites their name: 1- Left pleural, 2-Axial, 3-Right pleural. Trilobites are named for their bodies, which are divided into three lobes, which run longitudinally along the body. The trilobite's body is also divided into three sections. They had legs, which were probably made of chitin, and antennae. Trilobites had spikelike structures on each side of the cephalon known as "free cheeks", which fell off during molting.
Fossil Range	Cambrian to Devonian except the genus Proetida which lived until the Permian Mass Extinction. They were the most diverse at the end of the Cambrian.
Taxonomy	Subphylum: Trilobitomorpha
Mode of Life or Habitat	Most of them lived benthically, but some may have been pelagic or planktonic. Most of them were detritus feeders, but some may have been active predators and scavengers. They lived in shallow seas. After the Ordovician, they moved from shallow water to deep water.
Distribution	Worldwide.
Etymology	Trilobite comes from tri + lobe + ite, meaning "three lobes."
Additional Information	They are good index fossils. Most fossils are shed skeletons filled with sediment (internal molds). This is the major class of arthropods competitors will be asked about.
External Links	https://en.wikipedia.org/wiki/Trilobite.

Genus Cryptolithus

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Common Names	It is also known as the "lace collar trilobite", because the front edge of its cephalon looks somewhat like lace.
Physical Description	Cryptolithus is 1.3 cm long and wide. Its head shield is crescent shaped, its glabella is large (either smooth or with indistinct furrows), its genal spine is twice the length of its skeleton, its thorax has 6 segments with the middle lobe straight, and its tail shield (pygidium) is short, wide, and rounded sub-triangular. It has a short and wide cephalon with small holes. The laces were used to filter out food particles. It is easily identifiable by its long free cheeks, and its unbelievably squashed appearance. Cryptolithus was a small trilobite.
Fossil Range	Ordovician
Taxonomy	Order: Asaphida Family: Trinucleidae
Mode of Life or Habitat	Probably just ate detritus on the bottom of the ocean. Benthic deposit feeders.
Distribution	The US (Oklahoma, Kentucky, New Jersey, Pennsylvania, Virginia, and New York), Canada, Venezuela, the UK, France, the Czech Republic, Morocco, and Turkey.
Etymology	Cryptolithus means "hidden stone" in Ancient Greek.
Additional Information	It was almost completely blind.
External Links	https://en.wikipedia.org/wiki/Cryptolithus.

Genus Calymene

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Physical Description	It is typically 2 cm in length. They have a Holochroal eye. Most have 13 segments in the thorax, but some have 19 segments. The cephalon is the widest part of the organism. They are frequently preserved as tightly rolled fossils.
Fossil Range	Early Ordovician to Early Devonian, ~483-409 mya. They were the most abundant in the Silurian.
Taxonomy	Order: Phacopida Family: Calymenidae.
Mode of Life or Habitat	They lived in a marine environment, both shallow and deep.
Distribution	They are found throughout North America, North Africa, and Europe.
Etymology	Its name means "beautiful crescent."
Additional Information	It is the state fossil of Wisconsin.
External Links	https://en.wikipedia.org/wiki/Calymene.

Genus Elrathia

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Physical Description	They were 2.5 cm long, 1.6 cm wide with the head shield much bigger than the tail shield. They had wide thoraxes with 12-17 segments, short spines, and a narrow and well-defined middle lobe.
Fossil Range	Middle Cambrian. Oldest trilobite on the list.
Taxonomy	Order: Ptychopariida Family: Alokistocaridae
Mode of Life or Habitat	Benthic particle feeders, lived in the aerobic zone.
Distribution	It is widespread in North America. It is commonly found in the Wheeler Formation in Utah.
Etymology	Its name is based off the town Elrath, Cherokee County, Alabama, where Elrathia was discovered.
External Links	https://en.wikipedia.org/wiki/Elrathia.

Genus Isotelus

This fossil will only be tested at the State and National levels.

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Physical Description	It was the largest trilobite. Three species of Isotelus grew to almost a meter long, and Isotelus rex is world’s largest trilobite ever found as a complete fossil. It also possessed pits around the body that some think housed sensory hairs. The thorax had 8 segments. It had large, crescentic, and holochroal eyes, large heads, and large tails. Some reached a length of more than 80 cm. They are flat. They had few thoracic segments (only eight). Isotelus is isopygous, meaning the cephalon (head) and pygidium (tail) are roughly the same size.
Fossil Range	Middle-Upper Ordovician, ~500-480 mya
Taxonomy	Order: Asaphida Family: Asaphidae
Mode of Life or Habitat	Shallow and deep marine. May have been benthic/infaunal, probing shallowly for prey/carcasses.
Distribution	Restricted to Europe and North America. Common in Eastern US-Canada area and northwestern Manitoba.
Additional Information	Ohio adopted Isotelus as the state fossil in 1985.
External Links	https://www.britannica.com/animal/Isotelus. https://en.wikipedia.org/wiki/Isotelus. https://www.cambridge.org/core/journals/journal-of-paleontology/article/worlds-biggest-trilobiteisotelus-rex-new-species-from-the-upper-ordovician-of-northern-manitoba-canada/055501529DC4DFBB308024AD413A3B4E.

Genus Eldredgeops (formerly Phacops)

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Physical Description	They were 4 cm long and 2 cm wide. The head and tail shields are bluntly rounded, the glabella was large, and the thorax had 11 segments. They had parallel sides and had differently placed eyes, so they could see in almost all lateral directions. Their eyes were schizochroal (with compound lenses, each with separate corneas) and had fewer lenses than those of other trilobites.
Fossil Range	Middle Devonian, ~444-359 mya. Died out in the Kačák Event, involving high insolation levels, high temperatures, and a rising sea level.
Taxonomy	Order: Phacopida Family: Phacopidae
Mode of Life or Habitat	Warm, shallow seas.
Adaptations Over Time	They would ball up in response to predators. Unlike many trilobites, they could fully roll up, the cephalon making a tight seal with the pygidium.
Distribution	Eldredgeops and Phacops are two similar genera which were separated by the Rheic Ocean, a narrow sea. North Africa, the Middle East, and South Europe specimens are Phacops while North America and Northern European specimens are Eldredgeops.
Additional Information	The Pennsylvania General Assembly designated E. rana as the state fossil on December 5, 1988. The specific name rana is a reference to the trilobite’s frog-like eyes and is Latin for frog. See https://en.wikipedia.org/wiki/Eldredgeops for a summary of the differences between Eldredgeops and Phacops. Eldredgeops is readily used as an index fossil for the Devonian period.
External Links	https://statesymbolsusa.org/symbol-official-item/pennsylvania/state-dinosaur-fossil/trilobite. https://www.fossilguy.com/gallery/invert/arthropod/trilobite/phacops/index.htm. https://en.wikipedia.org/wiki/Paleontology_in_Pennsylvania. https://en.wikipedia.org/wiki/Phacopidae.

Brachiopods (Phylum Brachiopoda)

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Common Names	Lamp shells.
Physical Description	Brachiopods are a diverse group of lophophorates that are externally very similar to clams and other bivalves. They are divided into two groups, inarticulate and articulate. They have 2 valves, and the ventral valve is bigger than the dorsal one. The symmetry and arrangement of soft parts are different from those of Phylum Bivalvia. The individual valves are bilaterally symmetrical. The lophophore is located in the dorsal valve and the posterior near the hinge line and has a pair of arms known as brachia. They have growth lines on their shells.
Fossil Range	Were diverse in the Paleozoic.
Taxonomy	As lophophorates, their closest relatives are bryozoans.
Mode of Life or Habitat	Cold, deep marine environments. Solitary and exhibit very little movement. Most extinct brachiopods were benthic, and most today attach themselves to a firm substrate using their fleshy stalks.
Etymology	Name comes from brachio (Latin) + pod (Greek), "arm-foot."
External Links	https://en.wikipedia.org/wiki/Brachiopod.

Class Inarticulata

Genus Lingula

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Physical Description	It is known for having a very long pedicle, which anchored it to the sea floor. It can be detected by a short row of three openings through which it takes in water (sides) and expels it again (middle). They are around 1.6 cm long and 1.0 cm wide.
Fossil Range	Silurian (questionable) to recent. Lingula could have existed in the Cambrian.
Taxonomy	Class: Lingulata Order: Lingulida Family: Lingulidae
Mode of Life or Habitat	It lived in vertical burrows in intertidal areas and fed on detritus. Infaunal.
Distribution	Worldwide.
Etymology	Name means "little tongue" in Latin because of its thin, tongue-shaped shell.
Additional Information	It is the oldest known animal genus. Darwin classified it as a living fossil. However, this status is questionable, as the shape of Lingula corresponds to a burrowing lifestyle which could have evolved in numerous ways in unrelated brachiopod lineages.
External Links	https://en.wikipedia.org/wiki/Lingula_(brachiopod).

Class Articulata

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Physical Description	Articulate brachiopods have two valves that are different size. The larger shell is called the pedicle valve - contains a hole through which a fleshy stalk called a pedicle attaches to a substrate (rocks or sediment on the sea floor). The pedicle acts as an anchor that firmly holds the brachiopod in place. Brachiopods are immobile throughout adult life. The pedicle valve contains projections called teeth, which fit into sockets on the opposite brachial valve.
Fossil Range	Cambrian to recent. They flourished during Paleozoic (570-240 mya) and Mesozoic (240-65 mya) eras.
Mode of Life or Habitat	Most live in moderately deep water. They are sessile benthic suspension feeders.
Additional Information	They make up 95% of known brachiopod genera.
External Links	https://en.wikipedia.org/wiki/Brachiopod.

Genus Atrypa

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Physical Description	Atrypa has shells round to short egg-shaped, covered with many fine radial ridges, that split further out. The brachial valve is very convex and was 1.2 cm long. The brachiopods have distinctive concentric growth lines. In Devonian beds, the brachial valve is often missing, most likely because of tidal action.
Fossil Range	Late Ordovician to Early Carboniferous, ~444-318 mya.
Taxonomy	Class: Rhynchonellata Order: Atrypida Family: Atrypidae
Mode of Life or Habitat	Filter-feeders. Attached themselves to soft substrates of shallow marine environments worldwide.
Distribution	Atrypa can be found on every continent except Antarctica.
Additional Information	Since Atrypa was assigned early-on, species from it have been split into around 20 genera such as Desquamatia and Spinatrypa. Atrypa is one of the most common Paleozoic brachiopods.
External Links	https://en.wikipedia.org/wiki/Atrypa.

Genus Composita

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Physical Description	1 in (25 mm) long and wide. Composita had a small and smooth shell with a more or less distinct fold and sulcus and a round and very obvious opening for the pedicle on the pedicle valve. Given the smooth shell, it was perfectly suited to survive in turbulent environments. Its shell is made of calcite.
Fossil Range	Found from the Upper Devonian to the Permian. Especially abundant in Permian deposits.
Taxonomy	A related genus is Athyris. Class: Rhynchonellata Order: Athyridada Family: Thyrididae
Mode of Life or Habitat	Filter-feeders that attached themselves to the seafloor of shallow and warm marine environments.
Distribution	Worldwide. Abundant and widespread. It is widespread in North America.
Additional Information	They are often present in rock with much shell debris.
External Links	https://en.wikipedia.org/wiki/Composita.

Genus Juresania

This fossil will only be tested at the State and National levels.

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Physical Description	It was about 16 mm long and 22 mm wide. It had a round outline, a convex ventral, and was covered with numerous small spines. These small spines were found on both halves of the shell, and are the easiest way to identify Juresania. It had very fine costae. 1.6 cm long and 2.2 cm wide. There are concentric ridges in the posterior area. The brachial valve is convex, but the dorsal valve is concave.
Fossil Range	Late Devonian to Late Permian
Taxonomy	Class: Strophomenata Order: Productida Family: Echinococcus
Mode of Life or Habitat	Filter-feeders that attached themselves to the seafloor of shallow marine environments.
Distribution	Nebraska, Kansas, Oklahoma, Texas, Nevada. In North America and across Asia.
Additional Information	Juresania is common in Beattie limestone and mostly in limestone or shale.
External Links	https://en.wikipedia.org/wiki/Juresania.

Genus Leptaena

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Physical Description	Distinctive thick growth lines. 4 cm long. Semicircular (fan-shaped). It is best identified by concentric wrinkling in the shell, which is finely striated. The ridges are used to stabilize it in soft substrates. The dorsal valve is convex, and the brachial valve is flat.
Fossil Range	Ordovician to Early Devonian (possibly to Early Carboniferous or even Permian).
Taxonomy	Class: Strophomenata Order: Strophomenida Family: Rafinesquinidae
Mode of Life or Habitat	Filter feeders that attached themselves to the seafloor of marine environments.
Adaptations Over Time	The flat shape allowed sediment to gather on top of it.
Distribution	Worldwide. Widespread in North America, China, Norway, and the UK.
Additional Information	Commonly found in Wenlock limestone.
External Links	https://en.wikipedia.org/wiki/Leptaena.

Genus Mucrospirifer

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Common Names	Butterfly shells.
Physical Description	They were typically 2.5 cm long but sometimes grew to 4. The hinge line extends outwards, making sharp points. The brachiopods' big surface area would help it float on top of the mud while the "wings" would sort in-going and outgoing water currents. Mucrospirifer was strophic, meaning it had a well-defined hinge.
Fossil Range	Middle Devonian to Early Carboniferous, mainly Middle Devonian.
Taxonomy	Class: Rhynchonellata Order: Spiriferida Family: Mucrospiriferidae
Mode of Life or Habitat	Filter feeders that attached themselves to soft and muddy substrates of shallow marine environments.
Distribution	Worldwide, except Australia and Antarctica.
Etymology	"Mucrospirifer" means "sharply pointed spire-bearer."
External Links	https://en.wikipedia.org/wiki/Mucrospirifer.

Genus Platystrophia

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Physical Description	3/4 in (19 mm) long, 1¼ in (32 mm) wide. Their shells were made out of calcite, and they lost their pedicles as they aged. Each valve of the shell is convex in profile, and the hinge line between the valves is wide. Surface markings on the shell include prominent angular ridges and intervening linear depressions.
Fossil Range	Middle Ordovician through Upper Silurian.
Taxonomy	A related genus is Vinlandostrophia. Class: Rhynchonellata Order: Orthida Family: Plectorthidae
Mode of Life or Habitat	They lived in quiet intertidal zones, shallow and deep marine. They were filter feeders that attached themselves to a substrate.
Distribution	Worldwide.
External Links	https://en.wikipedia.org/wiki/Platystrophia.

Genus Rafinesquina

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Common Names	Nicknamed the "cursed brachiopod" because lingulids (since they are infaunal) could get buried in sediment and then trapped under the large shell of a Rafinesquina brachiopod, unable to bury their way up, resulting in group deaths (one Rafinesquina fossil has 28 lingulids underneath it).
Physical Description	Their valves are semi-circular (D-shaped), flat and thin; the brachial valve is convex while the dorsal valve is flat to concave. Have both radiating and concentric striae. The costae (the parts in between the radiating striae) are fine. Width is usually greater than length (around 2.8 cm and 2.2 cm, respectively).
Fossil Range	Middle Ordovician to Late Silurian.
Taxonomy	Class: Strophomenata Order Strophomenida, Family Rafinesquinidae.
Mode of Life or Habitat	Filter feeders that attached themselves to the seafloor of shallow marine environments.
Distribution	Widespread in North America
Etymology	Named to honor Professor Constantine Rafinesque, who argued that organisms could evolve long before Darwin. When he was fired from his job as a professor at Transylvania University, Lexington, Kentucky, he cursed the institution, after which there was a string of fires and deaths.
Additional Information	Good index fossil for the Ordovician. In 1982, Gary D. Rosenberg proposed that the number of days in a Late Ordovician lunar month could be estimated by counting the growth lines of Rafinesquina.
External Links	https://en.wikipedia.org/wiki/Rafinesquina. https://www.dispatch.com/article/20131004/NEWS/310049695.

Order Rhynchonellida

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Physical Description	They have small and highly inflated biconvex shells with coarse, large ribs. Their shells are made of calcium phosphate, Ca3(PO4)2. Shaped like a wedge. They have folds on the brachial valve and grooves on the ventral valve. Their shells come to a point (non-strophic). They did not have brachiums which meant there was nothing supporting the lophophore, meaning the order could survive many extinctions. It has an unusual zigzag commissure line.
Fossil Range	Late Ordovician to present-day. In the Mesozoic, they were the most abundant brachiopod. A few species still exist today.
Taxonomy	Class: Rhynchonellata
Mode of Life or Habitat	They are sessile, epifaunal suspension feeders.
Adaptations Over Time	They have changed little since their appearance in the Ordovician.
Additional Information	They were the first articulate brachiopods.
External Links	https://en.wikipedia.org/wiki/Rhynchonellida. https://ucmp.berkeley.edu/brachiopoda/rhynchonellida.html.

Mollusks (Phylum Mollusca)

Class Bivalvia (clams, oysters, mussels)

Genus Exogyra

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Common Names	Devil’s toenails, foam oysters, honeycomb oysters.
Physical Description	The left valve is deep and twisted into a spiral while the right valve is much smaller and flat. There is a large flat to concave part on the umbo of the left valve where the shell was cemented. Were 9 cm long and 10 cm high. Their shells are very durable and made of aragonite.
Fossil Range	Late Jurassic to Late Cretaceous.
Taxonomy	Subclass: Pteriomorphia Order: Ostreoida Family Gryphaeidae
Mode of Life or Habitat	Epifaunal. Saltwater oysters that cemented on solid substrates in warm seas. Filter feeders.
Distribution	Worldwide.
Additional Information	Some of the most distinctive and common bivalves from the Cretaceous Period. Many of them survived as fossils due to the thick shells which were not easily destroyed.
External Links	https://en.wikipedia.org/wiki/Exogyra.

Genus Gryphaea

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Common Names	They are also known as the "Devil's toenails" because of their shape (the larger valve is called "the toenail").
Physical Description	They are oysters. They have a cupped left valve and a flatter right valve. The shell was so convoluted that in some mature specimens, the shell would not be able to open, and the adult died. The shell was made of calcite and was very thick and heavy.
Fossil Range	Late Triassic/Early Jurassic to Eocene.
Taxonomy	Subclass: Pteriomorphia Order: Ostreoida Family Gryphaeidae
Mode of Life or Habitat	They lived on muddy sea beds, cemented to a small particle of rock. They were infaunal suspension feeders.
Distribution	Worldwide (rare in North America but abundant in Europe). Common in Eastern England.
Etymology	"Gryphaea" means "gryphon."
External Links	https://en.wikipedia.org/wiki/Gryphaea.

Genus Pecten

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Physical Description	Scallops that were up to 20 cm long and more than 8.5 cm wide. They have flat shells and distinct flat extensions to the hinge line called "wings."
Fossil Range	Cretaceous to present-day.
Taxonomy	Subclass: Pteriomorphia Order: Ostreoida Family: Pectinidae
Mode of Life or Habitat	Filter feeders (planktonic diet) that lived on sand and gravel. They are fixed to the substratum when young but become motile when mature. They are able to swim by clamping together their two lightweight valves and forcing water out of the hinge. They live in clean sand in moderately shallow waters where they rest on the bed in self-made depressions.
Distribution	Worldwide.
Etymology	Pecten is the Latin word for comb, rake, or scallop.
Additional Information	Pecten was used for the basis of the Shell Oil Company's logo.
External Links	https://en.wikipedia.org/wiki/Pecten_(bivalve).

Genus Glycymeris

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Common Names	Bittersweet clam
Physical Description	They have medium-sized thick aragonite shells which are almost circular. The surface is either smooth or radially ribbed. The hinge is heavy, with a row of 6-12 teeth. The outside of the hinge ligament has no transverse striations.
Fossil Range	Early Cretaceous (Valanginian age, ~140-136 mya) to present-day. They reached maximum diversity in the Cretaceous.
Taxonomy	Inclues about 100 extinct species. Subclass: Pteriomorphia Order: Arcoida Family: Glycymerididae
Mode of Life or Habitat	They burrow into the sand and mud in shallow saltwater beds. Facultatively mobile. Infaunal suspension feeders. They prefer beds with heterogeneous-grained sediments.
Adaptations Over Time	They evolved convergently with genus Composita.
Distribution	Worldwide. Today, they are common in North Carolina.
Etymology	Ancient Greek word glykymaris, perhaps from glykys (sweet) + meris (part). The word glykymaris is recorded only once in Greek literature. This genus was named by Carl Linnaeus in 1758.
External Links	https://en.wikipedia.org/wiki/Glycymeris.

Genus Pholadomya

This specimen is not on the official 2020-2021 Fossil List but has been on the Fossil List in the past.

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Physical Description	Clam.
Fossil Range	Early Triassic to late Pliocene.
Mode of Life or Habitat	Marine.
External Links	https://en.wikipedia.org/wiki/Pholadomya.

Genus Astarte

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Physical Description	Characterized by a pointed umbo. An Astarte bivalve has two well-defined adductor scars and a clear pallial line that connects them. ~5 cm wide. The shells lack ribbing and are always longer than they are high.
Fossil Range	Ordovician to present-day.
Taxonomy	The taxon was defined by James Sowerby in 1816. Subclass: Heterodonta Order: Carditida Family: Astartidae
Mode of Life or Habitat	Marine: mainly temperate, shallow water. They were benthic suspension feeders.
Distribution	Worldwide (including Antarctica). Proliferated during the Jurassic. Mainly Northern Hemisphere in the present-day. At least five species are currently found in the North Atlantic American coast. Around nine of its species can be found in European waters.
Etymology	Named after the goddess Astarte, a goddess of war and sexual love in the modern Middle East.
Additional Information	Signaled that the Bering Strait had opened by the Late Miocene or Early Pliocene (somewhere between 4.8 and 7.4 mya), much earlier than previous estimates of 3.1-4.1 mya. This was because A. borealis and A. hopkinsi dwelled only in the Arctic Ocean and therefore the findings of them in the Milky River Formation in southwestern Alaska indicate that they had migrated into the North Pacific through the Bering Strait.
External Links	https://paleobiodb.org/classic/basicTaxonInfo?taxon_no=17370. https://www.researchgate.net/publication/305883454_The_Astarte_Bivalvia_Astartidae_that_document_the_earliest_opening_of_Bering_Strait. https://www.researchgate.net/figure/Left-valve-of-Astarte-donax-illustrating-the-primary-morphological-features-of-the_fig5_266162180.

Genus Nucula

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Common Names	Nut clams.
Physical Description	Can reach a size of around 3.0 cm. Equivalve, symmetrical, approximately triangular. Fine growth lines. They have a layer of nacre (mother of pearl) that coats their inner shell. They have interlocking shell hinge teeth.
Fossil Range	Early Ordovician (Arenig age) to present-day.
Taxonomy	Taxonomy of Nuculidae is based mainly on their feces. Subclass: Protobranchia Order: Nuculida Family: Nuculidae
Mode of Life or Habitat	Marine. Infaunal, live just under the surface of muddy sand at a depth of 20-200 m. Filter-feeders. They are benthic selective deposit feeders, feeding on a variety of microzooplankton, organic matter, and microbes.
Distribution	Worldwide.
Etymology	Nucula comes from Latin for "little nut."
Additional Information	Many species have barely changed, surviving relatively unmodified to the present-day.
External Links	https://en.wikipedia.org/wiki/Nucula. https://www.shellmuseum.org/post/2015/09/11/the-atlantic-nut-clam.

Class Cephalopoda

Subclass Ammonoidea

Order Goniatitida (goniatites)

This fossil will only be tested at the State and National levels.

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Order Ceratitida (ceratites)

This fossil will only be tested at the State and National levels.

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Order Ammonitida (ammonites)

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Genus Baculites

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Physical Description	It was anywhere from 7 cm from 2 meters in length. Males were smaller than females and had lighter ribbing. The shell had a few tight whorls and many chambers which would fill with air to increase buoyancy. The shells are straight with blunt apexes. The suture line is extremely foliated.
Fossil Range	Upper Cretceous
Taxonomy	Order: Ammonitida Family: Baculitidae
Mode of Life or Habitat	Marine. It was carnivorous and lived in the middle of the water column. There is much debate over whether they lived upright with tentacles on the sea bed for foraging for food, or if they lived horizontally and near the surface of the water.
Distribution	Worldwide. Widespread in North America.
Etymology	"Baculum" means walking stick in Latin.
Additional Information	It is used as an index fossil.
External Links	https://en.wikipedia.org/wiki/Baculites. http://fossilworks.org/bridge.pl?a=taxonInfo&taxon_no=14603.

Genus Dactylioceras

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Physical Description	They have ribbed shells which are around 6.5 cm long. They have a strong shell with ribs that are slightly inclined forward and closely spaced.
Fossil Range	Early Jurassic, ~180 mya.
Taxonomy	Order: Ammonitida Family: Dactylioceratidae
Mode of Life or Habitat	They were slow swimmers, and probably scavenged on the seafloor. They spawned in clusters, and may have often died shortly after spawning.
Distribution	Worldwide. The best specimens are found in England and Germany. Many specimens are found in the Mazon Creek lagerstatten.
Etymology	Their name (dactyl) means "finger" in Greek, referring to the ribs on the shell.
Additional Information	Excellent index fossils. The Whitby Town Football Club coat of arms has three Dactylioceras specimens. Often found as wave-rolled cliff debris on the beach.
External Links	https://en.wikipedia.org/wiki/Dactylioceras. https://andysfossils.com/2013/12/01/the-whitby-ammonite-or-a-whole-lot-of-variation/.

Order Belemnitida (Belemnites)

Genus Belemnitella

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Physical Description	Squid-like, as can be seen in one specimen in Germany that preserved 10 tentacles as carbon films. Closely related to squids and cuttlefish. They are about 17 cm long and 2 cm wide. They had 10 arms which had inward-curving hooks used for grasping prey. They had a hard internal skeleton (the rostrom or guard), unlike modern squids. The rostrom is long and narrow with a blunt apex, made of fibrous calcite crystals. The rostrum may have acted as a counterbalance to the head and tentacles. The apex of the rostrum is the back of the squid. Cross-sections of the rostrum show growth layers, with the pale layers made of calcite and the dark layers colored by organic matter. The phragomocone is the chambered inner shell made of aragonite. They had 10 tentacles/arms, with 30-50 pairs of chitinous hooks each.
Fossil Range	Upper Cretaceous, 85-66 mya.
Taxonomy	Family: Belemnitellidae
Mode of Life or Habitat	They swam in shallow waters. They used their hooked tentacles to catch small prey. Larger hooks could have been used for mating. Their main predator was ichthyosaurs.
Distribution	Northern Hemisphere, in Europe, North America, and the North Pacific.
Etymology	From Ancient Greek βέλεμνον (bélemnon, "dart, arrow").
Additional Information	Usually, only the rostrum, or guard, is fossilized. The tentacle hook is also sometimes preserved. It is the state fossil of Delaware. Can be found in massive concentration in "belemnite graveyards." Good index fossils.
External Links	https://en.wikipedia.org/wiki/Belemnitella. http://www.fossilsofnj.com/invertebrates/belemnitella.htm. https://en.wiktionary.org/wiki/belemnite. https://www.bgs.ac.uk/discovering-geology/fossils-and-geological-time/belemnites/.

Order Nautilida (Chambered Nautilus)

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Order Orthocerida ("Orthoceras")

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Additional Information	Orthoceras was a cephalopod from the Lower Ordovician to the Upper Triassic, although the time of their extinction is not completely clear. The most likely fed on trilobites and small arthropods.

Class Gastropoda (Snails)

Genus Conus

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Common Names	Cone snails. C. geographus is termed the cigarette snail because it is said that if you get stung, you will only have time to smoke a cigarette before dying.
Physical Description	Cone-shaped. 4 cm high by 2 cm wide. Mouth contains a potentially harmful harpoon-like stinger that contains neurotoxins called conotoxins with which they shoot their prey from their “proboscis.” The venom bulb delivers the venom from the venom duct to the prey. The rostrum engulfs the prey and several hours later, the snail spits out fish scales, fish bones, and the used harpoon. Another harpoon is retrieved from the radular sac.
Fossil Range	Eocene to present-day.
Taxonomy	Before 2009, cone-shaped snails were all clumped into Conus, but Conus has since been more precisely defined, with species splitting up into different genera. Subclass: Caenogastropoda Order: Neogastropoda Superfamily: Conoidea (Conacea) Family: Conidae
Mode of Life or Habitat	Benthic, predatory. Warm waters at various depths. Conus sensu lato inhabits depths from the sublittoral zone (which is permanently covered by water) to around 1000 m.
Distribution	Worldwide, especially tropical and subtropical seas.
Etymology	From its cone shape.
Additional Information	Conotoxins can be used to treat neuropathic pain or severe chronic pain. They are a mix of several different toxins made of peptides. They are known to have resulted in human fatality.
External Links	https://en.wikipedia.org/wiki/Conus. https://en.wikipedia.org/wiki/Conotoxin. https://www.sciencedirect.com/topics/neuroscience/conotoxin. https://www.sciencefriday.com/educational-resources/how-do-killer-snails-kill-their-victims/. https://www.youtube.com/watch?v=S_LjnwVxGL0. https://en.wikipedia.org/wiki/Conus_geographus.

Genus Cypraea

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Common Names	Cowries.
Physical Description	Their shells are egg-shaped and smooth. The outer and inner lips are covered in small, sharp ribs. They are about 2 cm long.
Fossil Range	Miocene (66.0 mya) to present-day.
Taxonomy	Clade: Caenogastropoda Clade: Hypsograstropoda Clade: Littorinimorpha Superfamily: Cypraeoidea (Cypraeacea) Family: Cypraeidae
Mode of Life or Habitat	Benthic. Marine. Known from seamounts and knolls. Ate algae and corals.
Adaptations Over Time	When a predator first touches the gastropod, it senses something soft, plump, and bright, but on the second touch, the gastropod withdraws the mantle and the predator touches something hard, shiny and brown. The confused predator thinks the gastropod has escaped and goes on looking for it elsewhere.
Distribution	Every continent except Antarctica.
Etymology	From Latin Cypria or Cypris, a name for Venus/Aphrodite from her mythic birthplace in Cyprus.
Additional Information	Sometimes used as jewelry or as currency, e.g. in West Africa, India, or China.
External Links	https://en.wikipedia.org/wiki/Cypraea. http://www.marinespecies.org/aphia.php?p=taxdetails&id=205978. http://fossilworks.org/bridge.pl?a=taxonInfo&taxon_no=9724. https://en.wikipedia.org/wiki/Shell_money. https://www.merriam-webster.com/dictionary/Cypraea.

Genus Platyceras

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Physical Description	They vary in shape. They are thin-shelled and have fine growth lines. They have a distinctive curved shell.
Fossil Range	Silurian to Permian (or Middle Triassic), 439-222 mya. Especially common during the Devonian and Carboniferous.
Taxonomy	Clade: Neritimorpha Superfamily: Platyceratoidea Family: Platyceratidae
Mode of Life or Habitat	Facultatively mobile. Epifaunal. Marine. Had a complex parasitic relationship with crinoids, possibly engaging in heterospecific coprophagy (consumption of feces), gametophagy (consumption of gametes), or kleptoparasitism (consumption of stolen food), obtaining energy from the crinoid without killing their host.
Distribution	Every continent except Antarctica.
Etymology	Likely from Greek platy (flat) + keras (horn).
Additional Information	One of the most abundant gastropods in the Paleozoic Era, possibly because of the layer of calcite in the shell.
External Links	https://en.wikipedia.org/wiki/Platyceras. https://www.sciencedirect.com/science/article/abs/pii/S0031018203006254?via%3Dihub. http://fossilworks.org/bridge.pl?action=taxonInfo&taxon_no=9117. https://www.britannica.com/animal/Platyceras.

Genus Turritella

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Common Names	Turret shells
Physical Description	They look like little spires that are 5 cm high and 1.3 cm wide. They have winding growth lines, and the lip is thin.
Fossil Range	Late Jurassic to present-day.
Taxonomy	Subclass: Caenogastropoda Clade: Sorbeoconcha Superfamily: Cerithioidea Family: Turitellidae
Mode of Life or Habitat	Infaunal filter feeder.
Distribution	Worldwide.
Etymology	Comes from Latin "turritus" (towered) + "-ella" (small).
Additional Information	One of the most common Mesozoic fossils. Carbonate stone made of Turritella fossils is called Turritella limestone. Silicified Turritella fossils form Turritella agate. One variety of “Turritella agate” found in the Green River Formation in Wyoming contains Elimia tenera, not Turritella.
External Links	https://en.wikipedia.org/wiki/Turritella.

Genus Worthenia

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Physical Description	Sea snail. The shell has a tall spire with a convex base. Wide, almost circular aperture.
Fossil Range	Late Devonian to Late Triassic/Early Jurassic, 354-183 mya. Especially common in the Late Carboniferous.
Taxonomy	Superfamily: Trochonematoidea Family: Lophospiridae
Mode of Life or Habitat	Marine filter feeder. Facultatively mobile. Epifaunal.
Distribution	Every continent except Antarctica and Africa. Most common in central regions of North America, e.g. from Idaho to Texas to Oklahoma to Ohio.
Etymology	Named after Amos Henry Worthen (1813-1888), a paleontologist.
External Links	https://en.wikipedia.org/wiki/Worthenia. https://www.britannica.com/animal/Worthenia. http://fossilworks.org/bridge.pl?a=taxonInfo&taxon_no=9388.

Echinoderms (Phylum Echinodermata)

Class Asteroidea (Starfish)

This fossil will only be tested at the State and National levels.

Class Blastoidea

Genus Pentremites

Class Crinoidea

Class Echinoidea

Class Ophiuroidea (brittle stars)

This fossil will only be tested at the State and National levels.