Family Both African elephant species live in family units comprising several adult cows, their daughters and their subadult sons. Each family unit is led by an older cow known as the
matriarch. Elephants use
some vocalisations that are beyond the hearing range of humans, to communicate across large distances. Elephant mating rituals include the gentle entwining of trunks. Bulls were believed to be solitary animals, becoming independent once reaching maturity. New research suggests that bulls maintain ecological knowledge for the herd, facilitating survival when searching for food and water, which also benefits the young bulls who associate with them. Bulls only return to the herd to breed or to socialize; they do not provide parental care to their offspring or raise them, but rather play a fatherly role in general to younger bulls to show dominance.
Territorial behavior and space use African elephants are not strictly territorial but they display various types of patterns of space use which are influenced by social structure, seasonal and climate variation, and resource availability. Herds usually live in
home ranges that vary from several hundred to several thousand square kilometers depending on the resource availability and habitat conditions; herds follow migratory routes and movement patters which connects protected areas and other suitable habitats that play an important role on maintaining population connectivity and access to critical resources such as vegetation and water. Additional factors such as social dominance and environmental factors like rainfall and vegetation productivity also influences spatial segregation among groups within the same region. During the period where male African elephant undergo musth, they display characteristic behavior which includes temporal gland secretion, urine dribbling, and certain postures which explains their condition to other individuals. During drier season, they mainly consume woody vegetation when grasses are limited. The large size and hindgut of the African elephant also allows for the digestion of various plant parts, including fibrous stems, bark and roots. African elephants aid in germination of seeds thanks to their large stomachs; as they are able to cover a large area within one day, they spread seeds from different trees rapidly. The elephants graze on the trees and consume seeds from them, and then, with the seed passing through the
gastrointestinal tract and then secreted out, the seeds are fertilized and ready to grow. The germination via elephants prevents plant competition and removes the requirement for some seeds to be wind-blown to grow, or the process of random germination. The diversity of plants and trees that can grow through this process also increases because the dung piles can contain upwards of 10 different tree species, with some containing traces of 50 trees and above.
Ecosystem role African elephants play a critical role as ecosystem engineers, significantly shaping the structure and function of the environments they inhabit. Through their feeding behavior, elephants modify vegetation by knocking down trees, stripping bark, and consuming large quantities of plant material. These activities can convert woodland into grassland, promoting biodiversity by creating habitats for other species. They are also important seed dispersers, particularly in forest ecosystems. Seeds consumed in fruits are transported over long distances and deposited in nutrient-rich dung, enhancing germination and plant distribution. In arid and semi-arid environments, they influence water availability by digging for groundwater, creating water holes that are used by other animals during dry periods. In terms of social cognition, African elephants exhibits behaviors such as empathy, cooperation, and strong social bonding within their groups. Observations indicate that they are able to respond to distressed individuals, assist injured members, and maintain long-term social relationships especially within matriarchal herds.
Intelligence African elephants are highly intelligent. They have a very large and highly convoluted
neocortex, a trait they share with
humans and other
apes, as well as some
dolphin species. They are among the world's most intelligent species. With a mass of just over , the
elephant brain is larger than that of any other terrestrial animal. The elephant's brain is similar to a
human brain in terms of structure and complexity; the elephant's
cortex has as many
neurons as that of a human brain, suggesting
convergent evolution. Elephants exhibit a wide variety of behaviours, including those associated with
grief,
learning,
mimicry,
art,
play, a sense of
humor,
altruism, use of
tools,
compassion,
cooperation,
self-awareness,
memory and possibly
language. All of these behaviors point to a highly intelligent species that is thought to be equal to
cetaceans and
primates. The calves are cared for by their mother and other young females in the group, known as
allomothering. Post sexual maturity, males begin to experience
musth, a physical and behavioral condition that is characterized by elevated testosterone, aggression and more sexual activity. Musth also serves a purpose of calling attention to the females that they are of good quality, and it cannot be mimicked as certain calls or noises may be. Males sire few offspring in periods when they are not in musth. During the middle of estrus, female elephants look for males in musth to guard them. The females will yell, in a loud, low way to attract males from far away. Male elephants can also smell the hormones of a female ready for breeding. This leads males to compete with each other to mate, which results in the females mating with older, healthier males. Females choose to a point who they mate with, since they are the ones who try to get males to compete to guard them. However, females are not guarded in the early and late stages of estrus, which may permit mating by younger males not in musth. Wild males begin breeding in their thirties when they are at a size and weight that is competitive with other adult males. Male reproductive success is maximal in mid-adulthood and then begins to decline. However, this can depend on the ranking of the male within their group, as higher-ranking males maintain a higher rate of reproduction. Most observed matings are by males in musth over 35 years of age. Twenty-two long observations showed that age and musth are extremely important factors; "… older males had markedly elevated paternity success compared with younger males, suggesting the possibility of sexual selection for longevity in this species." == Threats ==