common bottlenose dolphin vs

Tursiops truncatus compared with Methanococcus voltae

Key Differences

common bottlenose dolphin is Least Concern while is Not Evaluated.

Taxonomic Classification

Rank	common bottlenose dolphin
Kingdom	Animalia (สัตว์)	Archaea (Archaea)
Phylum	Chordata (สัตว์มีแกนสันหลัง)	Methanobacteriota_A
Class	Mammalia (สัตว์เลี้ยงลูกด้วยน้ำนม)	Methanococci (Methanococci)
Order	Cetacea (Whales & Dolphins)	Methanococcales (Methanococcales)
Family	Delphinidae (Oceanic Dolphins)	Methanococcaceae
Genus	Tursiops (Bottlenose Dolphins)	Methanococcus
Species	Tursiops truncatus	Methanococcus voltae

Conservation Status

common bottlenose dolphin

LC — Least Concern

Population: ~600.0K

Trend: Stable →

NE — Not Evaluated

Physical Characteristics

Attribute	common bottlenose dolphin
Diet	Carnivore	—
Average Lifespan	45 years	—
Average Length	3.0 m	—
Average Weight	300.0 kg	—

Habitat & Geographic Range

common bottlenose dolphin

Habitat

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.

Range

Widely distributed across Asia (Taiwan), Europe (6 countries), and South America (Colombia, Ecuador, Venezuela).

common bottlenose dolphin

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.

Methanococcus voltae is a mesophilic methanogenic archaeon in the family Methanococcaceae, notable for being one of the first methanogens for which genetic transformation was developed. It inhabits marine sediments and produces methane by reducing carbon dioxide with hydrogen as the electron donor. Its model organism status has made it instrumental in unraveling fundamental aspects of archaeal cell biology and genetics.