African elephant vs

Loxodonta africana compared with Clostridium botulinum

Key Differences

African elephant is Vulnerable while is Not Evaluated.

Taxonomic Classification

Rank	African elephant
Kingdom	Animalia (동물)	Bacteria (Bacteria)
Phylum	Chordata (척삭동물)	Firmicutes_A
Class	Mammalia (포유류)	Clostridia (클로스트리디움강)
Order	Proboscidea (장비목)	Clostridiales (클로스트리디움목)
Family	Elephantidae (Elephants)	Clostridiaceae
Genus	Loxodonta (African Elephants)	Clostridium
Species	Loxodonta africana	Clostridium botulinum

Conservation Status

African elephant

VU — Vulnerable

Population: ~415.0K

Trend: Decreasing ↓

NE — Not Evaluated

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

Habitat

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.

Range

Found in Kenya. Currently classified as Vulnerable on the IUCN Red List, this species faces significant conservation challenges across its range.

Habitat

Native to Europe, inhabiting ecosystems characteristic of the region.

Range

Found in Sweden.

African elephant

아프리카코끼리(Loxodonta africana)는 지구상에서 가장 큰 육상 동물로, 최대 7,000 kg에 달하며 사하라 이남 아프리카의 사바나, 삼림, 습지에 서식한다. 뛰어난 지능을 가지며, 모계를 중심으로 한 복잡한 사회 구조를 이루고 초저주파음, 울음소리, 촉각을 통해 의사소통한다. 나무를 쓰러뜨리고 물웅덩이를 파며 씨앗을 산포하는 생태계 엔지니어로, 현재 취약(VU) 종으로 분류되며 상아 밀렵과 서식지 손실로 인해 개체수가 감소하고 있다.

Clostridium botulinum is an anaerobic, endospore-forming bacterium in the family Clostridiaceae and the causative agent of botulism, a potentially fatal neuroparalytic illness caused by its potent botulinum neurotoxin — the most acutely toxic substance known. The neurotoxin acts by blocking acetylcholine release at neuromuscular junctions, causing flaccid paralysis and potentially respiratory failure. Seven serologically distinct toxin types (A through G) are produced by different strains, with types A, B, E, and F responsible for human botulism occurring through foodborne intoxication, wound infection, and infant intestinal colonization. C. botulinum spores are ubiquitous in soil and sediments worldwide, resisting boiling for extended periods and requiring autoclaving to destroy. Home-canned low-acid foods provide ideal anaerobic, low-acid conditions for germination and toxin production. Paradoxically, purified botulinum toxin has extensive medical applications, used clinically to treat spasticity, hyperhidrosis, chronic migraine, and cosmetically to reduce facial wrinkles (Botox). Strains are distributed globally and isolated from soils, sediments, and animal intestines across all continents.