Delfin Kabir vs
Tursiops truncatus compared with Kariarchaeum pelagius
Key Differences
- Delfin Kabir is Least Concern while is Not Evaluated.
Taxonomic Classification
| Rank | Delfin Kabir | |
|---|---|---|
| Kingdom | Animalia (حيوانات) | Archaea (Archaea) |
| Phylum | Chordata (حبليات) | Asgardarchaeota (Asgardarchaeota) |
| Class | Mammalia (ثدييات) | Heimdallarchaeia (Heimdallarchaeia) |
| Order | Cetacea (Whales & Dolphins) | UBA460 |
| Family | Delphinidae (Oceanic Dolphins) | Kariarchaeaceae |
| Genus | Tursiops (Bottlenose Dolphins) | Kariarchaeum |
| Species | Tursiops truncatus | Kariarchaeum pelagius |
Conservation Status
Delfin Kabir
LC — Least ConcernPopulation: ~600.0K
Trend: Stable →
Physical Characteristics
| Attribute | Delfin Kabir | |
|---|---|---|
| Diet | Carnivore | — |
| Average Lifespan | 45 years | — |
| Average Length | 3.0 m | — |
| Average Weight | 300.0 kg | — |
Habitat & Geographic Range
Delfin Kabir
Found across multiple habitat types including tropical and subtropical moist broadleaf forests, tropical and subtropical dry broadleaf forests, and tropical and subtropical grasslands and savannas, among 12 distinct biome types. Populations are also found in montane and highland environments at higher elevations.
Widely distributed across Asia (Taiwan), Europe (6 countries), and South America (Colombia, Ecuador, Venezuela).
Delfin Kabir
The most studied and recognized dolphin species, bottlenose dolphins inhabit warm and temperate oceans worldwide, from coastal shallows to the open sea. Highly intelligent with large brains relative to body size, they demonstrate self-recognition, complex communication, and social learning. They live in fluid fission-fusion societies and cooperate to herd fish. A keystone indicator species for marine ecosystem health.
Kariarchaeum pelagius is a member of the DPANN archaea group, representing ultra-small, genomically streamlined organisms found in pelagic marine environments. Like other DPANN archaea, it likely relies on metabolic partnerships with other microorganisms due to its reduced biosynthetic capabilities. Its discovery in open ocean waters extended knowledge of DPANN archaeal diversity beyond sediment and acidic environments.
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