African elephant vs
Loxodonta africana compared with Coelosphaerium subarcticum
Key Differences
- African elephant is Vulnerable while is Not Evaluated.
Taxonomic Classification
| Rank | African elephant | |
|---|---|---|
| Kingdom | Animalia (动物界) | Bacteria (Bacteria) |
| Phylum | Chordata (脊索动物门) | Cyanobacteria (藍菌門) |
| Class | Mammalia (哺乳動物) | Cyanobacteriia |
| Order | Proboscidea (长鼻目) | Cyanobacteriales (蓝菌目) |
| Family | Elephantidae (Elephants) | Microcystaceae |
| Genus | Loxodonta (African Elephants) | Coelosphaerium |
| Species | Loxodonta africana | Coelosphaerium subarcticum |
Conservation Status
African elephant
VU — VulnerablePopulation: ~415.0K
Trend: Decreasing ↓
Physical Characteristics
| Attribute | African elephant | |
|---|---|---|
| Diet | Herbivore | — |
| Average Lifespan | 65 years | — |
| Average Length | 6.0 m | — |
| Average Weight | 6.0 t | — |
Habitat & Geographic Range
African elephant
Found across multiple habitat types including tropical and subtropical moist broadleaf forests, tropical and subtropical grasslands and savannas, and flooded grasslands and savannas, among 5 distinct biome types within the Afrotropic biogeographic realm. Populations are also found in montane and highland environments at higher elevations.
Found in Kenya. Currently classified as Vulnerable on the IUCN Red List, this species faces significant conservation challenges across its range.
Native to Europe, inhabiting ecosystems characteristic of the region.
Distributed across Norway and Sweden.
African elephant
非洲象是地球上体型最大的陆地动物,体重可达7,000千克,栖息于撒哈拉以南非洲的草原、稀树草原和森林中。作为关键种,它们通过挖掘水源、传播种子和改变植被结构,深刻塑造了其栖息地的生态系统。受栖息地丧失和象牙盗猎威胁,非洲象的保护至关重要。
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.
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