Yellow/Red/Orange Sponge - Halichondria species Taxonomy:
Yellow/Red/Orange Sponge belongs to the Kingdom Animalia, Phylum Porifera, Class Demospongiae, Order Halichondrida, Family Halichondriidae and Genus Halichondria. Scientific names:
The scientific name of Yellow/Red/Orange Sponge is Halichondria species. Other common names:
Yellow/Red/Orange Sponge is also commonly known as Orange Frilly. Origin or natural range:
The Halichondria species originates from the tropical marine water bodies. Color:
Yellow/Red/Orange Sponge occurs in Yellow, Red and Orange colors. Aggression:
The Halichondria species is non-aggressive towards the marine aquarium invertebrates. Compatibility:
Yellow/Red/Orange Sponge is reef compatible. Venom status:
The Halichondria species is non poisonous in nature. Habit & Habitat:
Yellow/Red/Orange Sponge encrusts on rocks, rock caves, reefs or anything that comes in its way, including the other sessile marine aquarium invertebrates. Morphology:
- The appearance of the Halichondria species varies according to its environmental conditions.
- The body of Yellow/Red/Orange Sponge is quite soft and elastic.
- The base of the Halichondria species resembles a trunk and is perforated.
- The dorsal surface of Yellow/Red/Orange Sponge may be smooth to marginally rough due to projecting osculae.
- The largest ones of all the openings on the body surface of the Halichondria species expel out the body waste.
- Internally, the body of Yellow/Red/Orange Sponge has a central cavity in which the water, sucked in through the pores, is circulated and the waste water and food particles are expelled.
- The skeleton of the Halichondria species is composed of Protein Fibers and Spicules made of Calcium or Silicon.
- Yellow/Red/Orange Sponge is bisexual or hermaphrodite, that is, both male and female sex organs are present on the same sponge body.
- Breeding: <
- The Halichondria species reproduces sexually.
- Though hermaphrodite but, Yellow/Red/Orange Sponge does not self fertilize owing to the different maturity timings of the sperms and the eggs.
- For fertilization, sperms are released into the water by a Yellow/Red/Orange Sponge. The sperms reach another Yellow/Red/Orange Sponge having mature eggs and fertilize them.
- The fertilized eggs hatch into free swimming larvae. Upon getting a suitable substrate, the larvae settle down to produce new Halichondria species.
- Growth enabling environment in your marine aquarium:
Your marine aquarium must meet the following environmental specifications to successfully nurture Yellow/Red/Orange Sponge in it:
Aquarium habit & habitat:
- Tank type: To host the Halichondria species, you should have a Reef Type Marine Aquarium.
- Water flow in the aquarium: Yellow/Red/Orange Sponge requires moderate to strong water flow in the reef tank hosting it.
- Temperature of water: The temperature of your aquariumÍs water must be maintained between seventy-two and seventy-eight degrees Fahrenheit.
- Specific gravity of water: The specific gravity of your tankÍs water should range within 1.023 to 1.025.
- pH of water: The pH value of your aquariumÍs water should scale between 8.10 and 8.40.
- Illumination: Yellow/Red/Orange Sponge requires low lighting in the reef tank it inhabits.
- Placement: Place the Halichondria species at a place in your marine aquarium where the sponge receives indirect but moderately strong water current.
Feeding & Nutrition:
- Diet: Yellow/Red/Orange Sponge is Omnivorous in feeding habit.
- Food content: When open, the Halichondria species filter feeds daily on Brine Shrimp, the meaty bits of marine invertebrates, zooplankton and phytoplankton.
Benefits: The dead body of Yellow/Red/Orange Sponge gets converted into a basic fibrous skeletal framework due to the rest of its body parts getting dissolved. This remaining fibrous skeleton is used as bath sponge. Care:
- The Halichondria species is difficult to maintain in a marine aquarium.
- Exposing Yellow/Red/Orange Sponge to air may prove lethal for it. The inner lining of the body of the Halichondria species has cell matrix which traps the air. As a result, the air bubble blocks the passage of food from reaching the body cells and ultimately, the sponge dies.