vs
Chrysochromulina acantha compared with Chrysochromulina rotalis
Taxonomic Classification
| Rank | ||
|---|---|---|
| Kingdom same | Chromista (クロミスタ) | Chromista (クロミスタ) |
| Phylum same | Haptophyta (ハプト藻) | Haptophyta (ハプト藻) |
| Class same | Prymnesiophyceae (Prymnesiophyceae) | Prymnesiophyceae (Prymnesiophyceae) |
| Order same | Prymnesiales (Prymnesiales) | Prymnesiales (Prymnesiales) |
| Family same | Chrysochromulinaceae | Chrysochromulinaceae |
| Genus same | Chrysochromulina | Chrysochromulina |
| Species | Chrysochromulina acantha | Chrysochromulina rotalis |
Evolutionary Relationship
and share a common ancestor at the Genus level: Chrysochromulina.
Conservation Status
Physical Characteristics
| Attribute | ||
|---|---|---|
| Diet | — | — |
| Average Lifespan | — | — |
| Average Length | — | — |
| Average Weight | — | — |
Habitat & Geographic Range
Native to Europe, inhabiting ecosystems characteristic of the region.
Distributed across Norway and Sweden.
Native to Europe, inhabiting ecosystems characteristic of the region.
Distributed across Norway and Sweden.
Chrysochromulina acanthaは細胞表面に長い棘状の鱗片を持ち、独特の刺々しい外観を呈する単細胞ハプト植物藻類だ。温帯および冷水海洋水域の海洋浮遊環境に生息する。この混合栄養微細藻類は光合成を行うとともに、補足的な栄養として細菌を貪食することもできる。
Chrysochromulina rotalis is a marine haptophyte alga in the family Prymnesiaceae. Its specific epithet may reference the circular or rotating arrangement of scales observed on the cell surface. Like all Chrysochromulina species, cells are biflagellate and equipped with a haptonema — the coiling, three-membrane appendage unique to haptophytes. Organic scales of species-specific morphology cover the outer cell surface, constituting the primary taxonomic diagnostic feature for species identification within this morphologically similar genus. C. rotalis inhabits the photic zone of coastal marine and shelf waters, particularly in temperate and subarctic seas. The genus as a whole is a dominant component of the haptophyte nanoplankton community in North Atlantic and Arctic waters. Some congeners are capable of sustained bloom formation under conditions of thermal stratification and elevated nutrient availability. Chrysochromulina blooms have ecological consequences for marine food webs and, in the case of toxic species, for fisheries and aquaculture. The IUCN has not assessed the conservation status of C. rotalis, and the species remains Not Evaluated. Its ecology, physiology, and population genetics across oceanic regions are incompletely documented.
Related Comparisons
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