Molds, Minerals, Fossils, Replica and Dioramas

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Molds, Minerals, Fossils, Replica and Dioramas

The Museum of Biodiversity “Il Ciuicì” provides for collectors and lovers of Natural Sciences some of its findings and preparations.

To receive a quote, please fill in this form, indicating the item code of each article you want to buy. You will receive an answer with all the necessary information within 24/48 hours.

Money Back Guarantee“. You can return items purchased within 14 days from the date of purchase. Refund will take place immediately after receiving the articles. Shipping costs (round trip) are charged to the buyer.

We ship to Italy with Traceable Package – Delivery in 3/5 working days – Reimbursement of packing and shipping costs: € 10 up to 10 kg, € 13 up to 20 kg.
Free shipping for expenses over € 100.

For shipments outside Italy, you will receive a quote for the cost of delivery together with the order confirmation request.

If you like you can find us on  negozio ebay


NEW – all the molds are also available in SYNTHETIC RESIN
The latest-generation synthetic resin used is completely non-toxic, with a very high definition, without any linear shrinkage and is characterized by a very high hardness and greater compactness than any alabaster plaster or ceramic plaster. They can also be decorated with any type of color or paint (synthetic, acrylic, solvent or water) and also treated with a galvanic bath.
The models made of synthetic resin, as well as those in plaster, adapt exclusively to indoor applications.


MINERALS

AMETHYST

amethyst

Chemical formula: SiO2
Origin: Brasil
Weight:  103 g
Size:  7 x 4 x 2 cm

Item number:   002

Amethyst is a variety of quartz and belongs to the class of silicates. The quartz varieties are: colorless (hyaline or rock crystal), violet (amethyst var), yellow and orange (citrine var), brown, black and gray (smoky var.), Pink (pink var.), white (milky var.); intermediate colors and cases of polychromatism are also possible (partly yellow and partly violet crystals, ametrine var)


AMETHYST

amethyst

Chemical formula: SiO2
Origin: Brasil
Weight:  115 g
Size:  5,5 x 5,5 x 2 cm

Item number:   003

Amethyst is a variety of quartz and belongs to the class of silicates. The quartz varieties are: colorless (hyaline or rock crystal), violet (amethyst var), yellow and orange (citrine var), brown, black and gray (smoky var.), Pink (pink var.), white (milky var.); intermediate colors and cases of polychromatism are also possible (partly yellow and partly violet crystals, ametrine var)


GYPSUM

gypsum

Chemical formula: CaSO4.2(H2O)
Origin: Toscana  – Italy
Weight:  40 g
Size:  7,5 x 4 x 2,5 cm

Item number:   005

Gypsum is a very soft mineral composed of calcium sulfate dihydrate. It is able to grow in colorless or translucent crystals also of considerable size, object of collecting, of which the most common type is the desert rose.


GYPSUM

gypsum

Chemical formula: CaSO4.2(H2O)
Origin: Toscana – Italy
Weight:  35 g
Size:  5,5 x 3,5 x 3 cm

Item number:   006

Gypsum is a very soft mineral composed of calcium sulfate dihydrate. It is able to grow in colorless or translucent crystals also of considerable size, object of collecting, of which the most common type is the desert rose.


GYPSUM

gypsum

Chemical formula: CaSO4.2(H2O)
Origin: Toscana – Italy
Weight:  30 g
Size:  5,5 x 3,5 x 3 cm

Item number:   007

Gypsum is a very soft mineral composed of calcium sulfate dihydrate. It is able to grow in colorless or translucent crystals also of considerable size, object of collecting, of which the most common type is the desert rose.


GYPSUM

gypsum

Chemical formula: CaSO4.2(H2O)
Origin: Toscana – Italy
Weight:  195 g
Size:  15 x 6 x 3 cm

Item number:   008

Gypsum is a very soft mineral composed of calcium sulfate dihydrate. It is able to grow in colorless or translucent crystals also of considerable size, object of collecting, of which the most common type is the desert rose.


PYRITE

pyrite

Chemical formula: FeS2
Origin: Peru
Weight:  20 g
Size:  2,5 x 2,5 x 2 cm

Item number:   009

Pyrite is a very common mineral composed of iron disulfide (II) (FeS2) which takes its name from the Greek word pyros (fire) because it produces sparks if struck with a piece of metal. Because of the gold color it was known in the past as the fool’s gold; if heated to the flame it emits a mixture of sulfides with the classic smell of rotten eggs.


PYRITE

pyrite

Chemical formula: FeS2
Origin: Peru
Weight:  25 g
Size:  3 x 2,5 x 2 cm

Item number:   010

Pyrite is a very common mineral composed of iron disulfide (II) (FeS2) which takes its name from the Greek word pyros (fire) because it produces sparks if struck with a piece of metal. Because of the gold color it was known in the past as the fool’s gold; if heated to the flame it emits a mixture of sulfides with the classic smell of rotten eggs.


BITERMINATED HYALINE QUARTZ

QUARTZ

Chemical formula: SiO2
Origin: Arkansas
Weight:  35 g
Size:  6 x 2,5 x 2 cm

Item number:   012

The hyaline quartz or rock crystal is a variety of quartz and belongs to the class of silicates. The varieties of quartz are: colorless (hyaline or rock crystal), violet (amethyst var), yellow and orange (var. Citrine), brown, black and gray (smoked var), pink (pink var), white (milky var); intermediate colors and cases of polychromatism are also possible (partly yellow and partly violet crystals, ametrine var)


VIOLET AGATE NODULE

AGATE NODULE

Chemical formula: SiO2
Origin: Brasil
Weight:  1.450 g
Size:  17 x 14 x 5 cm

Item number:   013

Agate (from the Greek ἀχάτης, achátes) is a variety of chalcedony, a generic name given to quartz, when this occurs in compact masses of microcrystalline silica with fibrous-oriented texture. The agate has a typical zoned structure and is visible even to the naked eye, thanks to the diversity of color.


VIOLET AGATE NODULE

AGATE NODULE

Chemical formula: SiO2
Origin: Brasil
Weight:  800 g
Size:  13 x 11 x 4 cm

Item number:   014

Agate (from the Greek ἀχάτης, achátes) is a variety of chalcedony, a generic name given to quartz, when this occurs in compact masses of microcrystalline silica with fibrous-oriented texture. The agate has a typical zoned structure and is visible even to the naked eye, thanks to the diversity of color..


FUCHSIA AGATE NODULE

AGATE NODULE

Chemical formula: SiO2
Origin: Brasil
Weight:  1.000 g
Size:  15 x 13 x 4 cm

Item number:   015

Agate (from the Greek ἀχάτης, achátes) is a variety of chalcedony, a generic name given to quartz, when this occurs in compact masses of microcrystalline silica with fibrous-oriented texture. The agate has a typical zoned structure and is visible even to the naked eye, thanks to the diversity of color.


GREEN BROCHANTITE

GREEN BROCHANTITE

Chemical formula: Cu4(SO4)
Origin: Miniera di Libiola (GE)
Weight:  72 g
Size:  6 x 4 x 2 cm

Item number:   017

The mineral is the result of the oxidation of copper mines where it is formed by deterioration of other mineral minerals. It is found in arid climates since in wet ones the mineral can be dissolved in weakly acid waters.


GREEN STEATITE (GREEN TALC)

GREEN STEATITE (GREEN TALC)

Chemical formula: Mg3Si4O10(OH)2
Origin: Val di Taro (PR)
Weight:  160 g
Size:  7 x 4 x 4 cm

Item number:   018

Talc is a mineral of secondary origin, present both in eruptive rocks, and, frequently, in metamorphic ones, of which it may also be the main component: in this case we speak of talcoscisti. Instead, the genesis of its deposits may be due to regional metamorphism of basic rocks or siliceous dolomites, or of magnesium silicate dolomitic limestones. Finally, the deposits may also have originated due to the addition of fluids rich in carbon dioxide and silica, on ultrabasic rocks, or by contact metamorphism in sedimentary rocks.


FOSSILS

SHARK FOSSIL TOOTH – OTODUS OBLIQUUS

tooth shark fossil

Class: Chondroichthyes
Order: Lamniformes
Family: Otodontidae
Genus: Otodus
Species: O. obliquus
Origin: Morocco

Item number:   102

The Otodus obliquus shark lived between the late Paleocene and the Eocene, between 40 and 60 million years ago. Like all sharks, its skeleton was made of cartilage and this is the reason why only teeth and some fossilized vertebrae have arrived in our days. The Otodus obliquus was a large predator whose size reached about 9-10 m in length and 15 tons in weight. Fossils (teeth and vertebrae) have been found from excavations in Africa, Europe, Asia and North America, a situation that suggests that this shark was widespread in the oceans of 60 million years ago. Given its size and characteristics, it is hypothesized that the Otodus obliquus feed on marine mammals, large bony fishes and other sharks. Currently almost all of the teeth of this huge shark come from the phosphate mines of Morocco. The teeth of the Otodus obliquus have a triangular shape, are wide (up to 8-10 cm) with smooth and sharp edges and there are one or more lateral cusps.


SHARK FOSSIL TOOTH – OTODUS OBLIQUUS

tooth shark fossil

Class: Chondroichthyes
Order: Lamniformes
Family: Otodontidae
Genus: Otodus
Species: O. obliquus
Origin: Morocco

Item number:   104

The Otodus obliquus shark lived between the late Paleocene and the Eocene, between 40 and 60 million years ago. Like all sharks, its skeleton was made of cartilage and this is the reason why only teeth and some fossilized vertebrae have arrived in our days. The Otodus obliquus was a large predator whose size reached about 9-10 m in length and 15 tons in weight. Fossils (teeth and vertebrae) have been found from excavations in Africa, Europe, Asia and North America, a situation that suggests that this shark was widespread in the oceans of 60 million years ago. Given its size and characteristics, it is hypothesized that the Otodus obliquus feed on marine mammals, large bony fishes and other sharks. Currently almost all of the teeth of this huge shark come from the phosphate mines of Morocco. The teeth of the Otodus obliquus have a triangular shape, are wide (up to 8-10 cm) with smooth and sharp edges and there are one or more lateral cusps.


SHARK FOSSIL TOOTH – OTODUS OBLIQUUS

tooth shark fossil

Class: Chondroichthyes
Order: Lamniformes
Family: Otodontidae
Genus: Otodus
Species: O. obliquus
Origin: Morocco

Item number:   114

The Otodus obliquus shark lived between the late Paleocene and the Eocene, between 40 and 60 million years ago. Like all sharks, its skeleton was made of cartilage and this is the reason why only teeth and some fossilized vertebrae have arrived in our days. The Otodus obliquus was a large predator whose size reached about 9-10 m in length and 15 tons in weight. Fossils (teeth and vertebrae) have been found from excavations in Africa, Europe, Asia and North America, a situation that suggests that this shark was widespread in the oceans of 60 million years ago. Given its size and characteristics, it is hypothesized that the Otodus obliquus feed on marine mammals, large bony fishes and other sharks. Currently almost all of the teeth of this huge shark come from the phosphate mines of Morocco. The teeth of the Otodus obliquus have a triangular shape, are wide (up to 8-10 cm) with smooth and sharp edges and there are one or more lateral cusps.


SHARK FOSSIL TOOTH – OTODUS OBLIQUUS

tooth shark fossil

Class: Chondroichthyes
Order: Lamniformes
Family: Otodontidae
Genus: Otodus
Species: O. obliquus
Origin: Morocco

Item number:   115

The Otodus obliquus shark lived between the late Paleocene and the Eocene, between 40 and 60 million years ago. Like all sharks, its skeleton was made of cartilage and this is the reason why only teeth and some fossilized vertebrae have arrived in our days. The Otodus obliquus was a large predator whose size reached about 9-10 m in length and 15 tons in weight. Fossils (teeth and vertebrae) have been found from excavations in Africa, Europe, Asia and North America, a situation that suggests that this shark was widespread in the oceans of 60 million years ago. Given its size and characteristics, it is hypothesized that the Otodus obliquus feed on marine mammals, large bony fishes and other sharks. Currently almost all of the teeth of this huge shark come from the phosphate mines of Morocco. The teeth of the Otodus obliquus have a triangular shape, are wide (up to 8-10 cm) with smooth and sharp edges and there are one or more lateral cusps.


SHARK FOSSIL TOOTH – OTODUS OBLIQUUS

tooth shark fossil

Class: Chondroichthyes
Order: Lamniformes
Family: Otodontidae
Genus: Otodus
Species: O. obliquus
Origin: Morocco

Item number:   116

The Otodus obliquus shark lived between the late Paleocene and the Eocene, between 40 and 60 million years ago. Like all sharks, its skeleton was made of cartilage and this is the reason why only teeth and some fossilized vertebrae have arrived in our days. The Otodus obliquus was a large predator whose size reached about 9-10 m in length and 15 tons in weight. Fossils (teeth and vertebrae) have been found from excavations in Africa, Europe, Asia and North America, a situation that suggests that this shark was widespread in the oceans of 60 million years ago. Given its size and characteristics, it is hypothesized that the Otodus obliquus feed on marine mammals, large bony fishes and other sharks. Currently almost all of the teeth of this huge shark come from the phosphate mines of Morocco. The teeth of the Otodus obliquus have a triangular shape, are wide (up to 8-10 cm) with smooth and sharp edges and there are one or more lateral cusps.


SHARK FOSSIL TOOTH – OTODUS OBLIQUUS

tooth shark fossil

Class: Chondroichthyes
Order: Lamniformes
Family: Otodontidae
Genus: Otodus
Species: O. obliquus
Origin: Morocco

Item number:   117

The Otodus obliquus shark lived between the late Paleocene and the Eocene, between 40 and 60 million years ago. Like all sharks, its skeleton was made of cartilage and this is the reason why only teeth and some fossilized vertebrae have arrived in our days. The Otodus obliquus was a large predator whose size reached about 9-10 m in length and 15 tons in weight. Fossils (teeth and vertebrae) have been found from excavations in Africa, Europe, Asia and North America, a situation that suggests that this shark was widespread in the oceans of 60 million years ago. Given its size and characteristics, it is hypothesized that the Otodus obliquus feed on marine mammals, large bony fishes and other sharks. Currently almost all of the teeth of this huge shark come from the phosphate mines of Morocco. The teeth of the Otodus obliquus have a triangular shape, are wide (up to 8-10 cm) with smooth and sharp edges and there are one or more lateral cusps.


SHARK FOSSIL TOOTH – OTODUS OBLIQUUS

tooth shark fossil

Class: Chondroichthyes
Order: Lamniformes
Family: Otodontidae
Genus: Otodus
Species: O. obliquus
Origin: Morocco

Item number:   118

The Otodus obliquus shark lived between the late Paleocene and the Eocene, between 40 and 60 million years ago. Like all sharks, its skeleton was made of cartilage and this is the reason why only teeth and some fossilized vertebrae have arrived in our days. The Otodus obliquus was a large predator whose size reached about 9-10 m in length and 15 tons in weight. Fossils (teeth and vertebrae) have been found from excavations in Africa, Europe, Asia and North America, a situation that suggests that this shark was widespread in the oceans of 60 million years ago. Given its size and characteristics, it is hypothesized that the Otodus obliquus feed on marine mammals, large bony fishes and other sharks. Currently almost all of the teeth of this huge shark come from the phosphate mines of Morocco. The teeth of the Otodus obliquus have a triangular shape, are wide (up to 8-10 cm) with smooth and sharp edges and there are one or more lateral cusps.


SHARK FOSSIL TOOTH – OTODUS OBLIQUUS

tooth shark fossil

Class: Chondroichthyes
Order: Lamniformes
Family: Otodontidae
Genus: Otodus
Species: O. obliquus
Origin: Morocco

Item number:   121

The Otodus obliquus shark lived between the late Paleocene and the Eocene, between 40 and 60 million years ago. Like all sharks, its skeleton was made of cartilage and this is the reason why only teeth and some fossilized vertebrae have arrived in our days. The Otodus obliquus was a large predator whose size reached about 9-10 m in length and 15 tons in weight. Fossils (teeth and vertebrae) have been found from excavations in Africa, Europe, Asia and North America, a situation that suggests that this shark was widespread in the oceans of 60 million years ago. Given its size and characteristics, it is hypothesized that the Otodus obliquus feed on marine mammals, large bony fishes and other sharks. Currently almost all of the teeth of this huge shark come from the phosphate mines of Morocco. The teeth of the Otodus obliquus have a triangular shape, are wide (up to 8-10 cm) with smooth and sharp edges and there are one or more lateral cusps.


MOSASAURUS FOSSIL TOOTH

mosasaurus tooth fossil

Class: Reptilia
Order: Squamata
Family: Mosasauridae
Genus: Mosasaurus
Species: Mosasaurus sp.
Origin: Morocco

Item number:   122

Mosasaurus (/ˌmoʊzəˈsɔːrəs/; “lizard of the Meuse River”) is a genus of mosasaurs, extinct carnivorous aquatic squamates. It existed during the Maastrichtian age of the late Cretaceous period, between about 70 and 66 million years ago, in western Europe and North America. The name means “Meuse lizard”, as the first specimen was found near the Meuse River (Latin Mosa + Greek sauros lizard).


MOSASAURUS FOSSIL TOOTH

mosasaurus tooth fossil

Class: Reptilia
Order: Squamata
Family: Mosasauridae
Genus: Mosasaurus
Species: Mosasaurus sp.
Origin: Morocco

Item number:   123

Mosasaurus (/ˌmoʊzəˈsɔːrəs/; “lizard of the Meuse River”) is a genus of mosasaurs, extinct carnivorous aquatic squamates. It existed during the Maastrichtian age of the late Cretaceous period, between about 70 and 66 million years ago, in western Europe and North America. The name means “Meuse lizard”, as the first specimen was found near the Meuse River (Latin Mosa + Greek sauros lizard).


REPLICA OF FOSSILS


NEW – all the molds are also available in SYNTHETIC RESIN
The latest-generation synthetic resin used is completely non-toxic, with a very high definition, without any linear shrinkage and is characterized by a very high hardness and greater compactness than any alabaster plaster or ceramic plaster. They can also be decorated with any type of color or paint (synthetic, acrylic, solvent or water) and also treated with a galvanic bath.
The models made of synthetic resin, as well as those in plaster, adapt exclusively to indoor applications.


TRILOBITE ELRATHIA KINGII – Replica

trilobite Elrathia kingii

Class: Trilobita
Order: Ptychopariida
Family: Alokistocaridae
Genus: Elrathia
Species: E. kingii
Origin: USA

Plaster – Item number:   105

Synthetic Resin – Item number:   105-R

Plaster/Synthetic resin cast obtained from a true fossil; 1: 1 scale; color as the original. Elratia (Gen. Elrathia) is an extinct arthropod belonging to the trilobites. He lived in the middle Cambrian (about 505 million years ago) and his fossilized remains were found exclusively in North America. The cephalic shield of this trilobite was relatively small compared to the thorax; the central part (glabella) was small and shaped like a bud, while the eyes were central and there were two structures on either side of the cephalon (genital spines). The thorax consisted of 13 segments, with a narrow axis and enlarged and slightly pointed lateral parts. The terminal part of the body (pigidium) was short. In total the body did not exceed the average length of two centimeters.


TRILOBITE ELRATHIA KINGII – Replica

trilobite Elrathia kingii

Class: Trilobita
Order: Ptychopariida
Family: Alokistocaridae
Genus: Elrathia
Species: E. kingii
Origin: USA

Plaster – Item number:   106

Synthetic Resin – Item number:   106-R

Plaster/Synthetic resin cast obtained from a true fossil; 1: 1 scale. Elratia (Gen. Elrathia) is an extinct arthropod belonging to the trilobites. He lived in the middle Cambrian (about 505 million years ago) and his fossilized remains were found exclusively in North America. The cephalic shield of this trilobite was relatively small compared to the thorax; the central part (glabella) was small and shaped like a bud, while the eyes were central and there were two structures on either side of the cephalon (genital spines). The thorax consisted of 13 segments, with a narrow axis and enlarged and slightly pointed lateral parts. The terminal part of the body (pigidium) was short. In total the body did not exceed the average length of two centimeters.


AMMONITE ELRATHIA KINGII – Synthetic Resin replica

Ammonite Perisphinctes

Class: Cephalopoda
Order: Ammonitida
Family: Perisphinctidae
Genus: Perisphinctes
Species: Perisphinctes sp.
Origin: Madagascar

Synthetic Resin  –  Item number:   107-R

Synthetic resin cast obtained from a true fossil; 1: 1 scale. Perisphinctes is an extinct cephalopod mollusc belonging to the ammonites. He lived in the Upper Jurassic (172-149 million years ago), and his fossil remains are found on all continents. The aspect of the shell of this ammonite is quite conventional: planispiral (wrapped in a flat spiral), symmetrical, serpenticona (in the shape of a coiled snake, with poor covering of the turns). At each growth stage, the shell has a sub-square section with rounded edges; the navel is very broad but not very deep. The ornamentation is made up of a number of sharp and slightly protruded ribs (arched forward, ie in the direction of the opening). Near the abdomen, the coasts are forking, crossing the ventral region without interruption.


TRILOBITE PHACOPS RANA – Replica

trilobite Phacops rana

Class: Trilobita
Order: Phacopida
Family: Phacopidae
Genus: Phacops
Species: P. rana
Origin: Morocco

Plaster  –  Item number:   108

Synthetic Resin  –  Item number:   108-R

Plaster/Synthetic resin cast obtained from a true fossil; 1: 1 scale. The facope (Gen. Phacops) is an extinct arthropod belonging to the trilobites. Its fossils are very common in most of the world, and are found in soils from the Silurian to the Devonian (430-360 million years ago). This animal was one of the most typical and widespread trilobites. The body was oval in shape, with a large head (cephalon) and a small posterior part (pygidium). The central region of the head (glabella) was large and posteriorly narrow, adorned with numerous large granules that covered the entire surface. The eyes, often well preserved in fossils, are very large. At the hypostoma (a ventral plate placed near the mouth) two uniramated antennae originated. The characteristic “three lobes” typical of the entire class were of very similar dimensions and well rounded.


CRINOID SCYPHOCRINUS ELEGANS – Replica

fossil crinoid

Phylum: Echinodermata
Subphylum: Crinozoa
Class: Crinoidea
Species: Scyphocrinus elegans
Origin: Morocco

Plaster  –  Item number:   109

Synthetic Resin  –  Item number:   109-R

Plaster/Synthetic resin cast obtained from a true fossil; 1: 1 scale; color as the original.
Crinoids are marine animals that make up the class Crinoidea of the echinoderms (phylum Echinodermata). The name comes from the Greek word krinon, “a lily”, and eidos, “form”. The class includes 648 living species and over 5,000 fossil species. Having appeared in the Ordovician, the crinoids have become widespread throughout the Paleozoic period. During the Paleozoic and the Mesozoic they are among the main organisms producing carbonate, constituting the limestone with crinoids or encrinites. Over 5,000 fossil species have been described. Since the end of the Permian, most of the evolutionary lines of the crinoids (subclasses Cladida, Flexibilia, Camerata and Disparida) have been subjected to mass extinction, with the sole exception of the subclass of the Articulata, to which all living species belong currently known.


TOOTH OF MEGALODON – Synthetic Resin replica

Megalodon tooh

Class: Chondroichthyes
Order: Lamniformes
Family: Otodontidae
Genus: Carcharodon
Species: C. megalodon

Synthetic Resin  –  Item number:   110-R

The Megalodon (Carcharodon megalodon or Carcharocles megalodon Louis Agassiz, 1843) is an extinct species of shark of considerable size, known for its large fossil teeth. The scientific name megalodon derives from the Greek and means precisely “big tooth”. The fossils of C. megalodon are found in sediments from the Miocene to the Pliocene (between 2.3 and 2.6 million years ago). Because of the fragmentary remains, there have been many contradictory estimates of the dimensions for the Megalodon, as they can only be obtained from fossil teeth and vertebrae. Also for this reason, the Great White Shark is at the base of its reconstruction and estimate of the dimensions, since it is considered the best analogue to the Megalodon.


TOOTH OF GREAT WHITE SHARK – Synthetic Resin replica

tooh great white shark

Class: Chondroichthyes
Order: Lamniformes
Family: Lamnidae
Genus: Carcharodon
Species: C. carcharias

Synthetic Resin  –  Item number:   111-R

The Carcharodon carcharias (Linnaeus, 1758), also called Great White Shark, or sometimes simply White Shark, is the only living representative of the genus Carcharodon, this shark is the largest predator fish on the planet. Protagonist of many movies and documentaries, it is the most known and studied shark species in the world. Usually the average size oscillates between 4 and 6.4 meters, with a weight (for adult specimens) between 680 and 1100 kg. However, his body weight may temporarily increase by hundreds of pounds (even reaching 2 tons), assuming he has just eaten or not. Its maximum length is about 7 meters.


VELOCIRAPTOR CLAW – Replica

velociraptor claw

Class: Chondroichthyes
Order: Lamniformes
Family: Lamnidae
Genus: Carcharodon
Species: C. carcharias

Plaster  –  Item number:   112

Synthetic Resin  –  Item number:   112-R

Velociraptor (meaning “swift seizer” in Latin) is a genus of dromaeosaurid theropod dinosaur that lived approximately 75 to 71 million years ago during the latter part of the Cretaceous Period. Two species are currently recognized, although others have been assigned in the past. The type species is V. mongoliensis; fossils of this species have been discovered in Mongolia. A second species, V. osmolskae, was named in 2008 for skull material from Inner Mongolia, China. Smaller than other dromaeosaurids like Deinonychus and Achillobator, Velociraptor nevertheless shared many of the same anatomical features. It was a bipedal, feathered carnivore with a long tail and an enlarged sickle-shaped claw on each hindfoot, which is thought to have been used to tackle and disembowel prey. Velociraptor can be distinguished from other dromaeosaurids by its long and low skull, with an upturned snout.


PREPARATIONS

DOMESTIC RABBIT

domestic rabbit skull

Anatomical part: Complete skull
Weight:  100 g
Size:  9 x 6 x 5 cm

Item number:   201

Complete skull osteological preparation of domestic rabbit (Oryctolagus cuniculus) for educational and exhibition use. Museum preparation, cleaned and bleached, removable jaws.
The domestic rabbit, selected in over 40 breeds, derives from the European wild rabbit that has been tamed starting from 1,100 BC. to provide food, fur and wool sources as research subjects and as pets.


DOMESTIC SHEEP

domestic sheep skull

Anatomical part: Complete skull
Weight:  350 g
Size:  18 x 13 x 10 cm

Item number:   202

Complete skull osteological preparation of domestic sheep sub-adult (Ovis aries) for educational and exhibition use. Museum preparation, cleaned and bleached, removable jaws.
The progenitors of domestic sheep (Ovis aries) were probably the mouflon (Ovis musimon, O. orientalis), the ural (O. vignei) and the argali (O. ammon). The domestication of wild sheep is very old; the productions supplied are milk, meat and wool.


DOMESTIC PIG

pig's skull

Anatomical part: Complete skull
Weight:  1100 g
Size:  26 x 23 x 17 cm

Item number:   203

Complete skull osteological preparation of domestic pig sub-adult (Sus scrofa domesticus) for educational and exhibition use. Museum preparation, cleaned and bleached, removable jaws.
The term pig comes from the Latin majalem (“castrated pig”), so called because it was often used as a sacrifice to Maia, mother of Mercury.


OSTRICH

ostrich's skull

Anatomical part: Complete skull
Weight:  220 g
Size:  18 x 10 x 8 cm

Item number:   204

The ostrich (Struthio camelus) is the largest of the living feathery theropods, and is unable to fly. It is naturally distributed in Africa, particularly in the sub-Saharan area, the Sahel, the Horn of Africa, Somalia, Kenya, Tanzania and southern Africa, and was introduced to Australia by humans.


MOLDS


NEW – all the molds are also available in SYNTHETIC RESIN
The latest-generation synthetic resin used is completely non-toxic, with a very high definition, without any linear shrinkage and is characterized by a very high hardness and greater compactness than any alabaster plaster or ceramic plaster. They can also be decorated with any type of color or paint (synthetic, acrylic, solvent or water) and also treated with a galvanic bath.
The models made of synthetic resin, as well as those in plaster, adapt exclusively to indoor applications.


HERON MOLDS

molds heron footprintType of cast: Positive
Material: Plaster / Synthetic Resin
Size: 18 x 14 x 3 cm

Plaster  –  Item number:   321

Synthetic Resin  –  Item number:  321-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


HERON MOLDS

molds heron footprintType of cast: Negative
Material: Silicone
Internal mold size: 18 x 14 x 3 cm

Item number:   321-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


SURFACE WATER DUCK MOLDS

molds surface water duck footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 11 x 10 x 3 cm

Plaster  –  Item number:   301

Synthetic Resin  –  Item number:  301-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


SURFACE WATER DUCK MOLDS

molds surface water duck footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 11 x 10 x 3 cm

Item number:   301-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


ROE DEER MOLDS

molds roe deer footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 8 x 8 x 3 cm

Plaster  –  Item number:   302

Synthetic Resin  –  Item number:  302-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


ROE DEER MOLDS

molds roe deer footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 8 x 8 x 3 cm

Item number:   302-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


DOG MOLDS

molds dog footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 11 x 12 x 3 cm

Plaster  –  Item number:   318

Synthetic Resin  –  Item number:  318-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


DOG MOLDS

molds dog footprint

Click to enlarge

Type of cast: Negative
Material: Silicone

Internal mold size: 11 x 12 x 3 cm

Item number:   318-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


BOAR MOLDS

molds boar footprintType of cast: Positive
Material: Plaster / Synthetic Resin
Size: 12 x 12 x 3 cm

Plaster  –  Item number:   322

Synthetic Resin  –  Item number:  322-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


BOAR MOLDS

molds boar footprintType of cast: Negative
Material: Silicone
Internal mold size: 12 x 12 x 3 cm

Item number:   322-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


CARRION CROW MOLDS

molds carrion crow footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 11 x 7 x 3 cm

Plaster  –  Item number:   303

Synthetic Resin  –  Item number:  303-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


CARRION CROW MOLDS

molds carrion crow footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 11 x 7 x 3 cm

Item number:   303-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


BEECH MARTEN MOLDS

molds beech marten footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Misure: 7 x 6 x 3 cm

Plaster  –  Item number:   304

Synthetic Resin  –  Item number:  304-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


BEECH MARTEN MOLDS

molds beech marten footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 7 x 6 x 3 cm

Item number:   304-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


COOT MOLDS

molds coot footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 9 x 8 x 3 cm

Plaster  –  Item number:   305

Synthetic Resin  –  Item number:  305-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


COOT MOLDS

molds coot footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 9 x 8 x 3 cm

Item number:   305-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


EURASIAN MAGPIE MOLDS

molds magpie footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 9 x 8 x 3 cm

Plaster  –  Item number:   306

Synthetic Resin  –  Item number:  306-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


EURASIAN MAGPIE MOLDS

molds EURASIAN MAGPIE footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 9 x 8 x 3 cm

Item number:   306-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


LION MOLDS

molds lion footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 13 x 13 x 3 cm

Plaster  –  Item number:   307

Synthetic Resin  –  Item number:  307-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


LION MOLDS

molds lion footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 13 x 13 x 3 cm

Item number:   307-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


LIZARD MOLDS

lizard footprint

molds lizard footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 5 x 5 x 3 cm  +  5 x 5 x 3 cm

Plaster  –  Item number:   308

Synthetic Resin  –  Item number:  308-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use. Pair of footprints: front and rear paw.


LIZARD MOLDS

molds lizard footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 5 x 5 x 3 cm  +  5 x 5 x 3 cm

Item number:   308-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


EUROPEAN PINE MARTEN MOLDS

molds pine marten footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 7 x 7 x 3 cm

Plaster  –  Item number:   309

Synthetic Resin  –  Item number:  309-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


EUROPEAN PINE MARTEN MOLDS

molds EUROPEAN PINE MARTEN footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 7 x 7 x 3 cm

Item number:   309-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


BLACKBIRD MOLDS

molds blackbird footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 5 x 4 x 3 cm

Plaster  –  Item number:   310

Synthetic Resin  –  Item number:  310-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


BLACKBIRD MOLDS

molds blackbird footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 5 x 4 x 3 cm

Item number:   310-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


COYPU MOLDS

molds coypu footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 12 x 11 x 3 cm

Plaster  –  Item number:   320

Synthetic Resin  –  Item number:  320-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


COYPU MOLDS

molds coypu footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 12 x 11 x 3 cm

Item number:   320-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


BROWN RAT MOLDS

brown rat footprint

molds brown rat footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 6 x 6 x 3 cm  +  5 x 5 x 3 cm

Plaster  –  Item number:   311

Synthetic Resin  –  Item number:  311-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use. Pair of footprints: front and rear paw.


BROWN RAT MOLDS

molds brown rat footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 6 x 6 x 3 cm  +  5 x 5 x 3 cm

Item number:   311-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


HEDGEHOG MOLDS

molds hedgehog footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 7 x 6 x 3 cm

Plaster  –  Item number:   319

Synthetic Resin  –  Item number:  319-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use. Pair of footprints: front and rear paw.


HEDGEHOG MOLDS

molds hedgehog footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 7 x 6 x 3 cm

Item number:   319-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


TOAD MOLDS

toad footprint

molds footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 6 x 6 x 3 cm  +  6 x 6 x 3 cm

Plaster  –  Item number:   312

Synthetic Resin  –  Item number:  312-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use. Pair of footprints: front and rear paw.


TOAD MOLDS

molds footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 6 x 6 x 3 cm  +  6 x 6 x 3 cm

Item number:   312-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


MOLE MOLDS

mole footprint

molds mole footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 5 x 4 x 3 cm  +  6 x 6 x 3 cm

Plaster  –  Item number:   313

Synthetic Resin  –  Item number:  313-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use. Pair of footprints: front and rear paw.


MOLE MOLDS

molds mole footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 5 x 4 x 3 cm  +  6 x 6 x 3 cm

Item number:   313-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


FOX MOLDS

molds fox footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 9 x 8 x 3 cm

Plaster  –  Item number:   314

Synthetic Resin  –  Item number:  314-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


FOX MOLDS

molds fox footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 9 x 8 x 3 cm

Item number:   314-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


ZEBRA MOLDS

molds zebra footprint

Type of cast: Positive
Material: Plaster / Synthetic Resin
Size: 12 x 11 x 3 cm

Plaster  –  Item number:   315

Synthetic Resin  –  Item number:  315-R

Plaster/Synthetic resin cast obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


ZEBRA MOLDS

molds zebra footprint

Type of cast: Negative
Material: Silicone
Internal mold size: 12 x 11 x 3 cm

Item number:   315-S

Negative mold in silicone obtained from a true footprint; 1: 1 scale. Prepared for educational and exhibition use.


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