The rhesus macaque is
diurnal, and both
arboreal and
terrestrial. It is
quadrupedal and, when on the ground, it walks
digitigrade and
plantigrade. It is mostly
herbivorous, feeding mainly on
fruit, but also eating
seeds,
roots,
buds,
bark, and
cereals. It is estimated to consume around 99 different plant species in 46 families. During the
monsoon season, it gets much of its water from ripe and succulent fruit. Rhesus macaques living far from water sources lick dewdrops from leaves and drink rainwater accumulated in tree hollows. They have also been observed eating
termites,
grasshoppers,
ants, and
beetles. Other foods include adult and larval insects, spiders, lice, honeycombs, crabs and bird eggs. When food is abundant, they are distributed in patches, and forage throughout the day in their home ranges. They drink water when foraging, and gather around streams and rivers. With an increase in anthropogenic land changes, the rhesus macaque has evolved alongside intense and rapid environmental disturbance associated with human agriculture and urbanization resulting in proportions of their diet to be altered. In
psychological research, rhesus macaques have demonstrated a variety of complex
cognitive abilities, including the ability to make same–different judgments, understand simple rules, and monitor their own mental states. They have even been shown to demonstrate
self-agency, an important type of self-awareness. In 2014, onlookers at a train station in Kanpur, India, documented a rhesus monkey, knocked unconscious by overhead power lines, that was revived by another rhesus that systematically administered a series of resuscitative actions.
Group structure Like other macaques, rhesus troops comprise a mixture of 20–200 males and females. Females may outnumber the males by a ratio of 4:1. Males and females have separate hierarchies. Female
philopatry, common among social mammals, has been extensively studied in rhesus macaques. Females tend not to leave the social group, and have highly stable
matrilineal hierarchies in which a female's rank is dependent on the rank of her mother. In addition, a single group may have multiple matrilineal lines existing in a hierarchy, and a female outranks any unrelated females that rank lower than her mother. Rhesus macaques are unusual in that the youngest females tend to outrank their older sisters. This is likely because young females are more fit and fertile. Mothers seem to prevent the older daughters from forming coalitions against her. The youngest daughter is the most dependent on the mother, and would have nothing to gain from helping her siblings in overthrowing their mother. Since each daughter has a high rank in her early years, rebelling against her mother is discouraged. Juvenile male macaques also exist in matrilineal lines, but once they reach four to five years of age, they are driven out of their natal groups by the dominant male. Thus, adult males gain dominance by age and experience. In the group, macaques position themselves based on rank. The "central male subgroup" contains the two or three oldest and most dominant males which are codominant, along with females, their infants, and juveniles. This subgroup occupies the center of the group and determines the movements, foraging, and other routines. Rhesus social behaviour has been described as despotic, in that high-ranking individuals often show little tolerance, and frequently become aggressive towards non-kin. Top-ranking female rhesus monkeys are known to sexually coerce unreceptive males and also physically injure them, biting off digits and damaging their genitals. Rhesus macaques have been observed engaging in interspecies grooming with
Hanuman langurs and with
sambar deer.
Communication Rhesus macaques interact using a variety of facial expressions, vocalizations, body postures, and gestures. Perhaps the most common facial expression the macaque makes is the "silent bared teeth" face. This is made between individuals of different social ranks, with the lower-ranking one giving the expression to its superior. A less-dominant individual also makes a "fear grimace", accompanied by a scream, to appease or redirect aggression. Another submissive behavior is the "present rump", where an individual raises its tail and exposes its genitals to the dominant one. During movements, macaques make coos and grunts. These are also made during affiliative interactions, and approaches before grooming. When they find rare food of high quality, macaques emit warbles, harmonic arches, or chirps. When in threatening situations, macaques emit a single loud, high-pitched sound called a shrill bark. Screeches, screams, squeaks, pant-threats, growls, and barks are used during aggressive interactions.
Reproduction Adult male macaques try to maximize their reproductive success by entering into
sex with females both in and outside the
breeding period. Females prefer to mate with males that are not familiar to them. Outsider males who are not members of the female's own troop are preferred over higher-ranking males. Outside of the consortship period, males and females return the prior behavior of not exhibiting preferential treatment or any special relationship. The breeding period can last up to eleven days, and a female usually mates with numerous males during that time. Male rhesus macaques have been observed to fight for access to sexually receptive females, and they suffer more wounds during the mating season. Female macaques first breed when they are four years old and reach
menopause at around twenty-five years of age. Male macaques generally play no role in raising the young but do have peaceful relationships with the offspring of their consort pairs. Mothers with one or more immature daughters in addition to their infants are in contact with their infants less than those with no older immature daughters, because the mothers may pass the parenting responsibilities to their daughters. High-ranking mothers with older immature daughters also reject their infants significantly more than those without older daughters and tend to begin mating earlier in the mating season than expected based on their dates of
parturition the preceding birth season. Infants farther from the center of the groups are more vulnerable to
infanticide from outside groups. Primatologist
Robert Goy discovered that adult rhesus macaques will take care of an unrelated infant in captivity. A male rhesus macaque will ignore an infant as long as a female rhesus macaque is around. If a male rhesus macaque is the only option for parental care, they will tend to an unrelated infant as a female would.
Aging The rhesus monkey has been used as a model for studying aging of the
ovaries of primate females. Ovarian aging was found to be associated with increased
DNA double strand breaks and reduced
DNA repair in
granulosa cells, that is,
somatic cells closely associated with developing
oocytes.
Human–rhesus conflict The macaque–human relationships is complex and culturally specific, ranging from relatively peaceful coexistence to extreme levels of conflict. Conflicts tend to result from rapidly changing agricultural practices, increasing urbanisation, and clearing of woodlands and other territory, pushing macaques into human settlements in the search for resources. A 2021 study stated that human-macaque conflict is one of the most critical challenges faced by wildlife managers in the South- and Southeast-Asian regions. Crop raiding is one of the biggest visible effects of human-rhesus conflict. The estimated financial cost to individual farmer households of macaque corn and rice raiding is approximately US$14.9 or 4.2% of their yearly income. but only having 8% of such suitable area being protected national parks. with such conflict being a source of contentious debate in political scenarios, resentment and polarization amongst agriculturalists and wildlife conservationists. Towards the end of March 2018, it was reported that a monkey had entered a house in the village of Talabasta,
Odisha, India and kidnapped a baby. The baby was later found dead in a well. Though monkeys are known to attack people, enter homes and damage property, this reported behaviour was unusual.
Population management tools Crop-raiding is seen as one of the most important behaviours to change to reduce conflicts. One example is the implementation of guards in agricultural settings to chase off intruding monkeys using dogs, slingshots, and firecrackers. This method is non-lethal and can alter behavioural patterns of crop-raiding monkeys. Another strategy that farmers can employ is to plant alternative, buffer crops which are unattractive to monkeys in high-conflict zones, such as along the edges of macaque habitats. In urban settings, planting food trees within city periphery and country parks aim to discourage macaques from entering nearby residential areas for food. In areas of tourism, human behaviour change is necessary to prevent conflict. An important aspect is enforcing no feed regulations that only allow provisioning by trained staff at scheduled times. Regulating visitor behaviours that provoke aggressive responses from macaques, including noise regulation, greatly benefits conflict reduction.
translocation of problem macaques in urban rhesus communities in India has been employed as a non-lethal solution to human–macaque conflicts. Fertility control is also feasible for reducing human–macaque conflict because it avoids killing costs and problems associated with translocation. == In science ==