vs
Coelosphaerium minutissimum compared with Coelosphaerium subarcticum
Taxonomic Classification
| Rank | ||
|---|---|---|
| Kingdom same | Bacteria (Bacteria) | Bacteria (Bacteria) |
| Phylum same | Cyanobacteria (남조류) | Cyanobacteria (남조류) |
| Class same | Cyanobacteriia | Cyanobacteriia |
| Order same | Cyanobacteriales | Cyanobacteriales |
| Family same | Microcystaceae | Microcystaceae |
| Genus same | Coelosphaerium | Coelosphaerium |
| Species | Coelosphaerium minutissimum | Coelosphaerium subarcticum |
Evolutionary Relationship
and share a common ancestor at the Genus level: Coelosphaerium.
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 Denmark, Norway, and Sweden.
Native to Europe, inhabiting ecosystems characteristic of the region.
Distributed across Norway and Sweden.
Coelosphaerium minutissimum은 주변부에 배열된 세포로 구성된 속이 빈 구형 군체를 형성하는 매우 작은 군체성 남세균입니다. 담수 플랑크톤 군집에서 발견되며 수생 일차 생산에 기여합니다. 보전 상태는 평가되지 않았습니다.
Coelosphaerium subarcticum is a colonial planktonic cyanobacterium in the family Merismopediaceae, as its epithet suggests, with distribution records concentrated in subarctic and boreal freshwater environments of Scandinavia, specifically Norway and Sweden. The species forms spherical mucilaginous colonies with peripheral cell arrangement typical of the genus, and its adaptation to cold water temperatures distinguishes it ecologically from congeners that prefer warmer, more eutrophic conditions. Subarctic lakes and ponds are characterised by low temperatures, ice cover for much of the year, and typically oligotrophic to mesotrophic conditions with relatively low nutrient levels. In such settings, cyanobacteria including Coelosphaerium subarcticum contribute to primary production during the ice-free summer season when available light and temperatures support photosynthesis. Gas vesicles in the cells enable buoyancy regulation, allowing colonies to rise toward surface light layers during calm conditions. Arctic and subarctic freshwater ecosystems are among the environments most sensitive to climate-driven changes, with warming temperatures extending the growing season, altering ice regimes, and potentially enabling southerly species to expand northward while cold-adapted taxa face range contraction. No formal IUCN conservation evaluation has been conducted for this species, as is typical for planktonic microorganisms at this taxonomic level.
Related Comparisons
Nature FYI Family
Explore more of the natural world across our sister sites.
Part of the Nature FYI family — FYIPedia