Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινός (Paracentrotus lividus) - Facts & Information
Paracentrotus lividus (Lamarck, 1816)
Scientific Classification
Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινός: Complete Species Profile and Guide
The Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινός (Paracentrotus lividus (Lamarck, 1816)) is one of the most fascinating echinoderm species found across the globe. This comprehensive guide explores the taxonomy, unique water-vascular system, regeneration abilities, ecological roles, and conservation status of this remarkable echinoderm species.
Quick Facts About the Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινός
| Attribute | Details |
|---|---|
| Scientific Name | Paracentrotus lividus (Lamarck, 1816) |
| Common Name | Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινός |
| Family | Parechinidae |
| Order | Camarodonta |
| Phylum | Echinoidea |
| Primary Habitat | Diverse Marine Habitats |
| Geographic Range | Various Ocean Regions Worldwide |
Taxonomic Classification and Scientific Background
The oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινός belongs to a well-defined position within echinoderm taxonomy:
Kingdom: Animalia Phylum: Echinodermata Class: Echinoidea Order: Camarodonta Family: Parechinidae Scientific Name: Paracentrotus lividus (Lamarck, 1816)This taxonomic placement reflects evolutionary relationships with other echinoderms including starfish (Asteroidea), sea urchins (Echinoidea), sea cucumbers (Holothuroidea), brittle stars (Ophiuroidea), and sea lilies (Crinoidea). Echinoderms are exclusively marine deuterostomes with fossil records extending over 500 million years.
Physical Characteristics and Unique Body Systems
The oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινός displays distinctive physical features characteristic of echinoderms:
Pentaradial Symmetry: Adult echinoderms exhibit pentaradial (five-part) symmetry arranged around a central axis. This unique symmetry evolved from bilateral larval forms, with body parts organized in multiples of five radiating from a central disc or body. While appearing radially symmetric, they show some bilateral features in development. Water-Vascular System: The defining feature of echinoderms is the water-vascular system - a hydraulic network of fluid-filled canals beginning at the madreporite (a sieve-like plate absorbing seawater), connecting through the stone canal to a ring canal surrounding the central disc, with radial canals extending into each arm or body region. This system powers tube feet for locomotion, feeding, and respiration. Tube Feet: Hundreds to thousands of tube feet project from radial canals, each functioning as a hydraulic piston. Tube feet terminate in suckers or adhesive pads, enabling attachment to surfaces and coordinated movement. Muscles and water pressure control extension, retraction, and adhesion, creating surprisingly effective locomotion despite lacking centralized control. Endoskeleton: The internal skeleton consists of calcareous ossicles - small plates of calcium carbonate (calcite) embedded in the dermal layer beneath the epidermis. Ossicles may articulate allowing flexibility (as in starfish arms) or fuse into rigid structures (as in sea urchin tests). Spines, pedicellariae, and tubercles project from ossicles providing protection and defense. Nervous System: Echinoderms lack a centralized brain, instead possessing a decentralized nerve net with a nerve ring around the central disc and radial nerves extending into arms or body regions. This distributed system coordinates movement and responses without a command center, allowing arms to function semi-independently.Habitat Preferences and Geographic Distribution
Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs naturally occur in various ocean regions worldwide, where they inhabit diverse marine habitats. Their distribution patterns are shaped by water temperature, depth, substrate type, salinity, and food availability.
Benthic Lifestyle: Most echinoderms are benthic organisms living on or within ocean floor substrates. They occupy diverse bottom habitats including rocky reefs, sandy plains, muddy bottoms, seagrass beds, and coral formations. Some species burrow; others attach to hard surfaces or rest on soft sediments. Depth Distribution: Echinoderms inhabit all ocean depths from intertidal zones exposed during low tide to abyssal plains exceeding 6,000 meters depth. Different species show depth preferences based on temperature tolerance, pressure adaptation, food availability, and competitive interactions. Environmental Requirements: Water quality affects distribution and survival. Most require marine salinity though some tolerate brackish conditions. Temperature influences metabolism, reproduction, and geographic range. Substrate type determines feeding opportunities and shelter availability.Behavioral Patterns and Ecological Adaptations
The oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινός shows fascinating feeding adaptations from filter feeding to predatory behaviors. Understanding these behaviors provides insights into survival strategies and ecological interactions.
Locomotion: Movement occurs through coordinated tube feet extension and retraction powered by the water-vascular system. Different species show varied movement patterns - some crawl slowly across surfaces, others burrow into sediment, and a few can swim by arm movements. Tube feet also anchor animals against currents and waves. Feeding Strategies: Feeding behaviors vary enormously among echinoderm groups. Predatory species like many starfish use arm strength and tube feet to pry open bivalve shells or capture prey. Herbivorous sea urchins scrape algae with complex jaw structures called Aristotle's lanterns. Suspension feeders use mucus-covered tube feet or specialized appendages to trap plankton. Deposit feeders consume sediment extracting organic matter. Sensory Capabilities: Despite simple nervous systems, echinoderms detect light through photoreceptors (often at arm tips), chemical gradients guiding feeding and reproduction, mechanical stimuli through tube feet and body wall receptors, and in some species, gravity and orientation through statocysts. Defensive Behaviors: Defense mechanisms include withdrawal into crevices or burial in sediment, autotomy (intentional arm detachment) to escape predators, spine erection creating protective barriers, toxic compounds in body tissues deterring predation, and pedicellariae (small pincer-like structures) removing settling organisms and small attackers.Diet, Foraging Behavior, and Feeding Ecology
The feeding strategies of oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινόςs reflect diverse ecological adaptations:
Dietary Specialization: Different echinoderm groups exhibit varied diets. Predatory species consume mollusks, other echinoderms, crustaceans, worms, and small fish. Herbivorous species graze on algae, seagrasses, and biofilms. Omnivorous species consume mixed diets of plant and animal matter. Detritivores process organic debris and sediment. Feeding Mechanisms: Feeding structures vary by diet. Predatory starfish evert their cardiac stomach through the mouth onto prey, digesting externally before retracting. Sea urchins use Aristotle's lantern - five calcareous teeth in complex jaw apparatus - to scrape and tear food. Sea cucumbers extend sticky tentacles (modified tube feet) capturing particles then retracting them into the mouth. Brittle stars use arm movements to capture particles or prey. Ecological Impact: As consumers, oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινόςs influence community structure. Predatory species control prey populations affecting species distributions. Herbivorous species shape algal communities and influence habitat structure. Deposit feeders bioturbate sediments affecting oxygen penetration and nutrient cycling.Reproduction, Regeneration, and Life Cycle
Reproductive strategies of oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινόςs combine sexual and asexual mechanisms:
Sexual Reproduction: Most echinoderms are dioecious (separate sexes) though some are hermaphroditic. Gametes are released into water for external fertilization, often synchronized by environmental cues like temperature changes, phytoplankton blooms, or chemical signals from conspecifics. Mass spawning events increase fertilization success. Larval Development: Fertilized eggs develop into free-swimming larvae with bilateral symmetry. Common larval types include bipinnaria (asteroids), echinopluteus (echinoids), and auricularia (holothuroids). Larvae feed on phytoplankton while developing adult features. After weeks to months, larvae settle onto suitable substrate and metamorphose into juvenile form with pentaradial symmetry. Asexual Reproduction: Many species reproduce asexually through fission where individuals split and regenerate missing parts, or through autotomy where detached arms regenerate complete individuals if including sufficient central disc tissue. This creates clones and enables population expansion without finding mates. Regeneration: Remarkable regeneration abilities allow oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινόςs to survive predation, injury, and environmental stress. Lost arms regrow through cell proliferation and differentiation over weeks to months. Some species regenerate entire bodies from arm fragments. Regeneration capacity varies among species and depends on extent of damage and central disc preservation.Conservation Status and Threats
The conservation status of oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινόςs varies with growing concerns for some species:
Current Status
While many echinoderm species remain abundant, some face population declines from human activities and environmental changes. Commercially harvested species like sea urchins and sea cucumbers experience overfishing pressure. Habitat-dependent species suffer from reef degradation and coastal development.
Primary Threats
Major threats include overfishing for food markets (sea urchins, sea cucumbers), aquarium trade collection, habitat destruction from coastal development and destructive fishing, ocean acidification reducing calcium carbonate availability for skeleton formation, climate change altering temperature and current patterns, pollution including plastics and chemicals, and disease outbreaks decimating populations.
Conservation Initiatives
Protection strategies include establishing marine protected areas limiting harvest, regulating commercial collection through size limits and seasonal closures, habitat restoration protecting benthic environments, monitoring population trends for early warning, reducing pollution inputs, addressing climate change impacts, and aquaculture development reducing wild harvest pressure.
Ecological Importance and Ecosystem Services
The oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινός plays vital roles in marine ecosystem health and functionality:
Trophic Regulation: Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs occupy important positions in marine food webs. Predatory species control prey populations including commercially important mollusks. Herbivorous species regulate algal communities preventing overgrowth on reefs. All serve as prey for fish, sea otters, birds, and other predators linking trophic levels. Bioturbation and Sediment Processing: Deposit-feeding echinoderms rework vast amounts of sediment, aerating substrates, redistributing organic matter, and influencing nutrient cycling. Their activities affect sediment chemistry, microorganism communities, and oxygen penetration depth. Habitat Modification: Some species significantly modify habitats. Sea urchin grazing shapes algal community structure and can create 'urchin barrens' in kelp forests. Burrowing species create substrate complexity used by other organisms. Aggregations provide microhabitat for associated species. Keystone Species: Certain echinoderms function as keystone species disproportionately influencing community structure. Predatory starfish controlling mussel populations maintain biodiversity in intertidal zones. Sea urchin populations regulated by predators prevent algal dominance on coral reefs.Frequently Asked Questions About Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs
What is a Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινός?
The oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινός (Paracentrotus lividus (Lamarck, 1816)) is an echinoderm species belonging to the Parechinidae family and Camarodonta order. As a member of this distinctive phylum, it possesses pentaradial (five-part) symmetry, an internal calcareous skeleton, a unique water-vascular system for locomotion and feeding, and remarkable regenerative capabilities.
What is the scientific name of the Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινός?
The scientific name is Paracentrotus lividus (Lamarck, 1816). This binomial nomenclature follows the Linnaean classification system, where the first word indicates the genus and the second specifies the species.
Where do Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs live?
Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs are found in various ocean regions. Their distribution depends on water temperature, depth, substrate type, food availability, and salinity. Echinoderms are exclusively marine organisms inhabiting ocean floors from intertidal zones to deep sea trenches.
What do Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs eat?
The diet of oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινόςs varies by species and feeding strategy. Some are carnivorous predators consuming mollusks, other echinoderms, or fish; others are herbivorous grazers feeding on algae; some are detritivores consuming organic debris; and many are suspension feeders filtering plankton from water.
How big is a Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινός?
The size of oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινόςs varies considerably among species. Dimensions range from a few centimeters to over a meter in diameter for large starfish or sea urchins. Size depends on species, age, food availability, and environmental conditions.
How do Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs move?
Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs move using a unique water-vascular system - a network of fluid-filled canals connected to tube feet. By controlling water pressure through muscular contractions, they extend and retract tube feet creating coordinated movement. This hydraulic system also functions in feeding, respiration, and sensory perception.
Can Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs regenerate body parts?
Most oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινόςs possess remarkable regeneration abilities. They can regrow lost arms, spines, or other body parts over weeks to months. Some species can regenerate entire individuals from a single arm with part of the central disc, making regeneration both a survival mechanism and means of asexual reproduction.
How do Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs reproduce?
Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs reproduce both sexually and asexually. Sexual reproduction typically involves releasing eggs and sperm into water for external fertilization, producing free-swimming larvae that metamorphose into adult form. Asexual reproduction occurs through fission (splitting) or autotomy (self-amputation) followed by regeneration.
Do Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs have a skeleton?
Yes, oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινόςs possess an internal endoskeleton made of calcareous ossicles - small plates or spines of calcium carbonate embedded in their body wall. This skeleton provides structural support and protection while allowing flexibility. In sea urchins, ossicles fuse into a rigid test; in starfish, they remain articulated.
Are Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs threatened?
Conservation status varies among species. Some face threats from climate change, ocean acidification affecting skeleton formation, pollution, habitat destruction, overharvesting for food or aquarium trade, and disease outbreaks. Certain species are vulnerable while others remain abundant, though many require population monitoring.
Conclusion: Understanding and Protecting Oursin Violet; Rock Urchin; Steinseeigel; Boga Marina; Castaña De Mar; Châtaigne De Mer; Erizo De Mar Común; Eriçó De Roca; Ferrçori I Purpër; Garota De Roca; Iriqi I Purpurt I Detit; Ježinac Kamenjar; Ouriço Verde; Oursin Pierre; Oursin-Pierre; Purple Sea Urchin; Riccio Di Mare Comune; Riccio Di Mare Di Roccia; Riccio Femmina; Rock Sea Urchin; Rots Zee Egel; Stony Sea Urchin; Zeeappel; Κόκκινος Αχινόςs
The oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινός (Paracentrotus lividus (Lamarck, 1816)) represents the remarkable diversity and unique adaptations of echinoderms. As members of the Parechinidae family within the Camarodonta order, these organisms demonstrate evolutionary innovation through their water-vascular system and pentaradial symmetry in diverse marine habitats across various ocean regions worldwide.
Understanding the biology, behavior, and ecological roles of oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινόςs enhances our appreciation for marine biodiversity and emphasizes the importance of conservation for these ecologically significant animals.
Key Takeaways: - The oursin violet; rock urchin; steinseeigel; boga marina; castaña de mar; châtaigne de mer; erizo de mar común; eriçó de roca; ferrçori i purpër; garota de roca; iriqi i purpurt i detit; ježinac kamenjar; ouriço verde; oursin pierre; oursin-pierre; purple sea urchin; riccio di mare comune; riccio di mare di roccia; riccio femmina; rock sea urchin; rots zee egel; stony sea urchin; zeeappel; κόκκινος αχινός is scientifically classified as Paracentrotus lividus (Lamarck, 1816) - It belongs to the Parechinidae family and Camarodonta order - Possesses unique water-vascular system for hydraulic locomotion - Exhibits pentaradial symmetry and remarkable regeneration - Plays crucial ecological roles in marine ecosystems - Faces conservation challenges from overfishing and habitat loss