Search results
Results from the WOW.Com Content Network
This species of shallow-water algae grows in clumps on rocks and rubble, featuring rigid, finely branched filaments. Many aquarists believe it is a nuisance since it will become hard to remove after establishing itself. However, microinvertebrates enjoy living within the algae, such as starfish. May also be called Green bush, Moss ball, and Sea ...
Houttuynia cordata is a herbaceous perennial plant that can grow to 0.6–1 m (2 ft 0 in – 3 ft 3 in), spreading up to 1 m (3 ft 3 in). [2] [1] The proximal part of the stem is trailing and produces adventitious roots, while the distal part of the stem grows vertically.
Aquatic plants are used to give the freshwater aquarium a natural appearance, oxygenate the water, absorb ammonia, and provide habitat for fish, especially fry (babies) and for invertebrates. Some aquarium fish and invertebrates also eat live plants. Hobbyists use aquatic plants for aquascaping, of several aesthetic styles.
Nematanthus gregarius, also called the clog plant [2] or goldfish plant, [3] is a species of flowering plant from Brazil in the gesneriad family, Gesneriaceae, making it a relative of such genera as Streptocarpus (African violets) and Aeschynanthus (lipstick plants).
The plant has a trailing, branching, and spreading habit; it is generally an epiphyte in nature and a hanging-basket plant in cultivation. The flower has fused petals. In some species, the flower has a "pouch" at the bottom. The fancied resemblance of such flowers to a goldfish gives these plants the common name goldfish plant or guppy plant.
Fish and Wildlife confirmed that there is no physical evidence of any living bighead carp or silver carp to date. The environmental agency has been working since 2015 to find invasive carp in new ...
Bamboo Shrimp need stable water conditions, and they do best in well-established aquariums, like one of the best tropical fish tanks, that have lots of plants and places to hide. 16. Mystery Snails
In aquatic plants diffuse boundary layers (DBLs) around submerged leaves and photosynthetic stems vary based on the leaves' thickness, shape and density and are the main factor responsible for the greatly reduced rate of gaseous transport across the leaf/water boundary and therefore greatly inhibit transport of carbon dioxide. [16]