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Brief Summary

    Crab-eating macaque: Brief Summary
    provided by wikipedia

    The crab-eating macaque (Macaca fascicularis), also known as the long-tailed macaque, is a cercopithecine primate native to Southeast Asia. It is referred to as the cynomolgus monkey in laboratories. It has a long history alongside humans; they have been alternately seen as agricultural pests, sacred animals in some temples, and more recently, the subject of medical experiments. The crab-eating macaque lives in matrilineal social groups with a female dominance hierarchy, and male members leave the group when they reach puberty. They are opportunistic omnivores and have been documented using tools to obtain food in Thailand and Myanmar. The crab-eating macaque is a known invasive species and a threat to biodiversity in several locations, including Hong Kong and western New Guinea. The significant overlap in macaque and human living space has resulted in greater habitat loss, synanthropic living, and inter- and intraspecies conflicts over resources.

Comprehensive Description

    Crab-eating macaque
    provided by wikipedia

    The crab-eating macaque (Macaca fascicularis), also known as the long-tailed macaque, is a cercopithecine primate native to Southeast Asia. It is referred to as the cynomolgus monkey in laboratories.[1] It has a long history alongside humans;[6] they have been alternately seen as agricultural pests,[7] sacred animals in some temples,[8] and more recently, the subject of medical experiments.[6] The crab-eating macaque lives in matrilineal social groups with a female dominance hierarchy,[9] and male members leave the group when they reach puberty.[10] They are opportunistic omnivores[11] and have been documented using tools to obtain food in Thailand and Myanmar.[12] The crab-eating macaque is a known invasive species and a threat to biodiversity in several locations, including Hong Kong and western New Guinea.[1] The significant overlap in macaque and human living space has resulted in greater habitat loss,[6] synanthropic living, and inter- and intraspecies conflicts over resources.

    Etymology

    Macaca comes from the Portuguese word macaco, which was derived from makaku, a Fiot (West African language) word (kaku means monkey in Fiot).[13] The specific epithet fascicularis is Latin for a small band or stripe. Sir Thomas Raffles, who gave the animal its scientific name in 1821, did not specify what he meant by the use of this word.

    In Indonesia and Malaysia, M. fascicularis and other macaque species are known generically as kera, possibly because of their high-pitched cries.[14]

    The crab-eating macaque has several common names. It is often referred to as the long-tailed macaque due to its tail, which is often longer than its body.[15] The name crab-eating macaque refers to its being often seen foraging beaches for crabs. Another common name for M. fascicularis is the cynomolgus monkey, from the name of a race of humans with long hair and handsome beards who used dogs for hunting according to Aristophanes of Byzantium, who seemingly derived the etymology of the word cynomolgus from the Greek κύων, cyon: dog (Gen. cyno-s) and the verb ἀμέλγειν, amelgein: to milk (Adj. amolg-os), by claiming that they milked female dogs.[16] This name is commonly used in laboratory settings.

    In Thailand, the species is called "ลิงแสม" (Ling s̄æm; lit: "Mangrove monkeys") because it lives and forages in mangrove forests.[17]

    Taxonomy

    The 10 subspecies of M. fascicularis are:

    Physical characteristics

    The body length of the adult, which varies among subspecies, is 38–55 cm (15–22 in) with relatively short arms and legs. Males are considerably larger than females, weighing 5–9 kg (11–20 lb) compared to the 3–6 kg (6.6–13.2 lb) of females.[15] The tail is longer than the body, typically 40–65 cm (16–26 in), which is used for balance when they jump distances up to 5 m (16 ft).[15] The upper parts of the body are dark brown with light golden brown tips. The under parts are light grey with a dark grey/brown tail. Crab-eating macaques have backwards-directed crown hairs which sometimes form short crests on the midline. Their skin is black on their feet and ears, whereas the skin on the muzzle is a light grayish pink color. The eyelids often have prominent white markings and sometimes there are white spots on the ears. Males have a characteristic mustache and cheek whiskers, while females have only cheek whiskers. Crab-eating macaques have a cheek pouch which they use to store food while foraging. Females show no perineal swelling.[19]

    Behavior

    Group living

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    Crab-eating macaque baring its teeth - often an indication of aggression
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    Juvenile crab-eating macaque in Borneo
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    Juvenile crab-eating macaque in Borneo

    Macaques live in social groups that contain three to 20 females, their offspring, and one or many males. The groups usually have fewer males than females. In social groups of macaques, a clear dominance hierarchy is seen among females. These ranks remain stable throughout the female’s lifetime and also can be sustained through generations of matrilines. Females have their highest birth rates around 10 years of age and completely stop bearing young by age 24.[9]

    The social groups of macaques are female-bonded, meaning the males will disperse at the time of puberty. Thus, group relatedness on average appears to be lower than compared to matrilines. More difference in relatedness occurs when comparing high-ranking lineages to lower ranking lineages, with higher-ranking individuals being more closely related to one another. Additionally, groups of dispersing males born into the same social groups display a range of relatedness, at times appearing to be brothers, while at other times appearing to be unrelated.[10]

    In addition to the matrilineal dominance hierarchy, male dominance rankings also exist. Alpha males have a higher frequency of mating compared to their lower-ranking conspecifics. The increased success is due partially to his increased access to females and also due to female preference of an alpha male during periods of maximum fertility. Though females have a preference for alpha males, they do display promiscuous behavior. Through this behavior, females risk helping to rear a nonalpha offspring, yet benefit in two specific ways, both in regard to aggressive behavior. First, a decreased value is placed on one single copulation. Moreover, the risk of infanticide is decreased due to the uncertainty of paternity.[20]

    Increasing group size leads to increased competition and energy spent trying to forage for resources, and in particular, food. Further, social tensions build and the prevalence of tension-reducing interactions like social grooming fall with larger groups. Thus, group living appears to be maintained solely due to the safety against predation.[21]

    Conflict

    Group living in all species is dependent on tolerance of other group members. In crab-eating macaques, successful social group living maintains postconflict resolution must occur. Usually, less dominant individuals lose to a higher-ranking individual when conflict arises. After the conflict has taken place, lower-ranking individuals tend to fear the winner of the conflict to a greater degree. In one study, this was seen by the ability to drink water together. Postconflict observations showed a staggered time between when the dominant individual begins to drink and the subordinate. Long-term studies reveal the gap in drinking time closes as the conflict moves further into the past.[22]

    Grooming and support in conflict among primates is considered to be an act of reciprocal altruism. In crab-eating macaques, an experiment was performed in which individuals were given the opportunity to groom one another under three conditions: after being groomed by the other, after grooming the other, and without prior grooming. After a grooming took place, the individual that received the grooming was much more likely to support its groomer than one that had not previously groomed that individual. These results support the reciprocal altruism theory of grooming in long-tailed macaques.[23]

    Crab-eating macaques demonstrate two of the three forms of suggested postconflict behavior. In both captive and wild studies, the monkeys demonstrated reconciliation, or an affiliative interaction between former opponents, and redirection, or acting aggressively towards a third individual. Consolation was not seen in any study performed.[24]

    Postconflict anxiety has been reported in crab-eating macaques that have acted as the aggressor. After a conflict within a group, the aggressor appears to scratch itself at a higher rate than before the conflict. Though the scratching behavior cannot definitely be termed as an anxious behavior, evidence suggests this is the case. An aggressor’s scratching decreases significantly after reconciliation. This suggests reconciliation rather than a property of the conflict is the cause of reduction in scratching behavior. Though these results seem counterintuitive, the anxiety of the aggressor appears to have a basis in the risks of ruining cooperative relationships with the opponent.[25]

    Kin altruism and spite

    In a study, a group of crab-eating macaques was given ownership of a food object. Unsurprisingly, adult females favored their own offspring by passively, yet preferentially, allowing them to feed on the objects they held. When juveniles were in possession of an object, mothers robbed them and acted aggressively at an increased rate towards their own offspring compared to other juveniles. These observations suggest close proximity influences behavior in ownership, as a mother’s kin are closer to her on average. When given a nonfood object and two owners, one being a kin and one not, the rival will choose the older individual to attack regardless of kinship. Though the hypothesis remains that mother-juvenile relationships may facilitate social learning of ownership, the combined results clearly point to aggression towards the least-threatening individual.[26]

    A study was conducted in which food was given to 11 females. They were then given a choice to share the food with kin or nonkin. The kin altruism hypothesis suggests the mothers would preferentially give food to their own offspring. Yet eight of the 11 females did not discriminate between kin and nonkin. The remaining three did, in fact, give more food to their kin. The results suggest it was not kin selection, but instead spite that fueled feeding kin preferentially. This is due to the observation that food was given to kin for a significantly longer period of time than needed. The benefit to the mother is decreased due to less food availability for herself and the cost remains great for nonkin due to not receiving food. If these results are correct, crab-eating macaques are unique in the animal kingdom, as they appear not only to behave according to the kin selection theory, but also act spiteful toward one another.[27]

    Reproduction

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    Adult crab-eating macaque with a baby

    After a gestation period of 162–193 days, the female gives birth to one infant. The infant's weight at birth is about 320 g (11 oz).[11] Infants are born with black fur which will begin to turn to a yellow-green, grey-green, or reddish-brown shade (depending on the subspecies) after about three months of age.[15] This natal coat may indicate to others the status of the infant, and other group members treat infants with care and rush to their defense when distressed. Immigrant males sometimes kill infants not their own, and high-ranking females sometimes kidnap the infants of lower-ranking females. These kidnappings usually result in the death of the infants, as the other female is usually not lactating. A young juvenile stays mainly with its mother and relatives. As male juveniles get older, they become more peripheral to the group. Here they play together, forming crucial bonds that may help them when they leave their natal group. Males that emigrate with a partner are more successful than those that leave alone. Young females, though, stay with the group and become incorporated into the matriline into which they were born.[28]

    Male crab-eating macaques groom females to increase the chance of mating. A female is more likely to engage in sexual activity with a male that has recently groomed her than with one that has not.[29]

    Diet

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    A crab-eating macaque

    Despite their name, crab-eating macaques typically do not consume crabs as their main food source; rather, they are opportunistic omnivores, eating a variety of animals and plants. Although fruits and seeds make up 60 - 90% of their diet, they also eat leaves, flowers, roots, and bark.[11] They sometimes prey on vertebrates (including bird chicks, nesting female birds, lizards, frogs, and fish), invertebrates, and bird eggs. In Indonesia, the species has become a proficient swimmer and diver for crabs and other crustaceans in mangrove swamps.[30] A study in Bukit Timah, Singapore recorded a diet consisting of 44% fruit, 27% animal matter, 15% flowers and other plant matter, and 14% food provided by humans.[31]

    This species exhibits particularly low tolerance for swallowing seeds. Despite their inability to digest seeds, many primates of similar size swallow large seeds, up to 25 mm (0.98 in), and simply defecate them whole. The crab-eating macaque, though, spits seeds out if they are larger than 3–4 mm (0.12–0.16 in). This decision to spit seeds is thought to be adaptive; it avoids filling the monkey’s stomach with wasteful bulky seeds that cannot be used for energy.[32] It also can help the plants by distributing seeds to new areas: Crab-eating macaques eat durians such as Durio graveolens and D. zibethinus, and are a major seed disperor for the latter species.[33]

    Although the species is ecologically well-adapted and poses no threat to population stability of prey species in its native range, in areas where the crab-eating macaque is not native, it can pose a substantial threat to biodiversity.[34] Some believe the crab-eating macaque is responsible for the extinction of forest birds by threatening critical breeding areas [35] as well as eating the eggs and chicks of endangered forest birds.[19]

    The crab-eating macaque can become a synanthrope, living off human resources. They are known to feed in cultivated fields on young dry rice, cassava leaves, rubber fruit, taro plants, coconuts, mangos, and other crops, often causing significant losses to local farmers.[7] In villages, towns, and cities, they frequently take food from garbage cans and refuse piles.[7] The species can become unafraid of humans in these conditions, which can lead to macaques directly taking food from people, both passively and aggressively.

    Tool use

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    Stone tool usage by crab-eating macaques in Laem Son National Park in Thailand

    In Thailand and Myanmar, crab-eating macaques use stone tools to open nuts, oysters, and other bivalves, and various types of sea snails (nerites, muricids, trochids, etc.) along the Andaman sea coast and offshore islands.[12]

    Another instance of tool use is washing and rubbing foods such as sweet potatoes, cassava roots, and papaya leaves before consumption. Crab-eating macaques either soak these foods in water or rub them through their hands as if to clean them. They also peel the sweet potatoes, using their incisors and canine teeth. Adolescents appear to acquire these behaviors by observational learning of older individuals.[36]

    Distribution and habitat

    The crab-eating macaque lives in a wide variety of habitats, including primary lowland rainforests, disturbed and secondary rainforests, shrubland, and riverine and coastal forests of nipa palm and mangrove. They also easily adjust to human settlements; they are considered sacred at some Hindu temples and on some small islands,[8] but are pests around farms and villages. Typically, they prefer disturbed habitats and forest periphery. The native range of this species includes most of mainland Southeast Asia, from extreme southeastern Bangladesh south through Malaysia, and the Maritime Southeast Asia islands of Sumatra, Java, and Borneo, offshore islands, the islands of the Philippines, and the Nicobar Islands in the Bay of Bengal. This primate is a rare example of a terrestrial mammal that violates the Wallace line.[19]

    Introduced range

    M. fascicularis is an introduced alien species in several locations, including Hong Kong, Taiwan, Irian Jaya, Papua New Guinea, New Britain, New Ireland, New Caledonia, Solomon Islands, Fiji, Tonga, Samoa, Nauru, Vanuatu, Pohnpei, Anggaur Island in Palau, and Mauritius.[37] Where it is not a native species, particularly on island ecosystems whose species often evolved in isolation from large predators, M. fascicularis is a documented threat to many native species.[19] This has led the World Conservation Union (IUCN) to list M. fascicularis as one of the "100 worst invasive alien species".[38] M. fascicularis is not a threat to biodiversity in its native range.

    The immunovaccine porcine zona pellucida (PZP), which causes infertility in females, is currently being tested in Hong Kong to investigate its use as potential population control.[19]

    Relationship with humans

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    A crab-eating macaque living in a human vicinity, with a stolen asthma inhaler

    Crab-eating macaques extensively overlap with humans across their range in Southeast Asia. Consequently, they live together in many locations. Some of these areas are associated with religious sites and local customs, such as the temples of Bali in Indonesia, Thailand, and Cambodia, while other areas are characterized by conflict as a result of habitat loss and competition over food and space.[6] Humans and crab-eating macaques have shared environments since prehistoric times, and both tend to frequent forest and river edge habitats. Crab-eating macaques are occasionally used as a food source for some indigenous forest-dwelling peoples. In Mauritius, they are captured and sold to the pharmaceutical industry, and in Angaur and Palau, they are sold as pets.[19] Macaques feed on sugarcane and other crops, affecting agriculture and livelihoods, and can be aggressive towards humans. Macaques may carry potentially fatal human diseases, including herpes B virus.[19]

    In scientific research

    M. fascicularis is also used extensively in medical experiments, in particular those connected with neuroscience and disease. Due to their close physiology, they can share infections with humans. Some cases of concern have been an isolated event of Reston ebolavirus found in a captive-bred population shipped to the US from the Philippines, which was later found to be a strain of Ebola that has no known pathological consequences in humans, unlike the African strains.[6] Furthermore, they are a known carrier of monkey B virus (Herpesvirus simiae), a virus which has produced disease in some lab workers working mainly with rhesus macaques (M. mulatta).[6] Nafovanny, the largest facility for the captive breeding of nonhuman primates in the world, houses 30,000 macaques .[citation needed] The crab-eating macaque is one of the species used as space test flight animals.[citation needed] Plasmodium knowlesi, which causes malaria in M. fascicularis, can also infect humans. A few cases have been documented in humans, but for how long humans have been getting infections of this malarial strain is unknown. It is, therefore, not possible to assess if this is a newly emerging health threat, or if just newly discovered due to improved malarial detection techniques.[6] Given the long history of humans and macaques living together in Southeast Asia, it is likely the latter.

    The use of crab-eating macaques and other nonhuman primates in experimentation is controversial with critics charging that the experiments are cruel, unnecessary and lead to dubious findings.[39] One of the most well known examples of experiments on crab-eating macaques is the 1981 Silver Spring monkeys case.[40]

    In 2014, 21,768 crab-eating macaques were imported in the United States to be used in experimentation.[41]

    Conservation status

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    Female and juvenile crab-eating macaques at Djuanda Forest Park, West Java, Indonesia

    The crab-eating macaque has the third-largest range of any primate species, behind only humans and rhesus macaques. The IUCN Red List categorizes the species as Least Concern, and CITES lists them as Appendix II ("not necessarily threatened with extinction", in which trade must be controlled to avoid use incompatible with their survival). A recent review of their populations suggests a need for better monitoring of populations due to increased wild trade and rising levels of human-macaque conflict, which are reducing overall population levels despite the species being widely distributed.[42]

    Each subspecies faces differing levels of threats, and too little information is available on some subspecies to assess their conditions. The M. f. umbrosa subspecies is likely of important biological significance and has been recommended as a candidate for protection in the Nicobar Islands, where its small, native population has been seriously fragmented,[43] and is listed as vulnerable on the IUCN Red List.[1] The Philippine long-tailed macaque (M. f. philippensis) is listed as near threatened, and M. f. condorensis is vulnerable.[1] All other subspecies are listed as data deficient and need further study;[1] although recent work is showing M. f. aurea and M. f. karimondjawae need increased protection.[43] One concern for conservation is, in areas where M. fascicularis is not native, their populations need to be monitored and managed to reduce their impact on native flora and fauna.[43]

    Genome

    Genomic informationNCBI genome ID 776Ploidy diploidGenome size 2,946.84 MbNumber of chromosomes 21 pairs

    The genome of the crab-eating macaque has been sequenced.

    Clones

    On 24 January 2018, scientists in China reported in the journal Cell the creation of two crab-eating macaque clones, named Zhong Zhong and Hua Hua, using the complex DNA transfer method that produced Dolly the sheep.[44][45][46][47][48] This makes Zhong Zhong and Hua Hua the first primates to be cloned using the somatic cell nuclear transfer method.

    See also

    References

    1. ^ a b c d e f Ong, P. & Richardson, M. (2008). "Macaca fuscicularis". IUCN Red List of Threatened Species. Version 2008. International Union for Conservation of Nature. Retrieved 4 January 2009..mw-parser-output cite.citation{font-style:inherit}.mw-parser-output q{quotes:"""""'"'"}.mw-parser-output code.cs1-code{color:inherit;background:inherit;border:inherit;padding:inherit}.mw-parser-output .cs1-lock-free a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/6/65/Lock-green.svg/9px-Lock-green.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-lock-limited a,.mw-parser-output .cs1-lock-registration a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/d/d6/Lock-gray-alt-2.svg/9px-Lock-gray-alt-2.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-lock-subscription a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/a/aa/Lock-red-alt-2.svg/9px-Lock-red-alt-2.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration{color:#555}.mw-parser-output .cs1-subscription span,.mw-parser-output .cs1-registration span{border-bottom:1px dotted;cursor:help}.mw-parser-output .cs1-hidden-error{display:none;font-size:100%}.mw-parser-output .cs1-visible-error{font-size:100%}.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration,.mw-parser-output .cs1-format{font-size:95%}.mw-parser-output .cs1-kern-left,.mw-parser-output .cs1-kern-wl-left{padding-left:0.2em}.mw-parser-output .cs1-kern-right,.mw-parser-output .cs1-kern-wl-right{padding-right:0.2em}
    2. ^ P H Napier; C P Groves (July 1983). "Simia fascicularis Raffles, 1821 (Mammalia, Primates): request for the suppression under the plenary powers of Simia aygula Linnaeus, 1758, a senior synonym. Z.N.(S.) 2399". Bulletin of Zoological Nomenclature. 40 (2): 117–118. ISSN 0007-5167. Retrieved 19 November 2012. Simia aygula is quite clearly the Crab-eating or Long-tailed Macaque, as Buffon opined as early as 1766.
    3. ^ J. D. D. Smith (2001). "Supplement 1986-2000" (PDF). Official List and Indexes of Names and Works in Zoology. International Trust for Zoological Nomenclature. p. 8. Retrieved 19 November 2012. Suppressed under the plenary power for the purposes of the Principle of Priority, but not for those of the Principle of Homonymy
    4. ^ Wilson, D.E.; Reeder, D.M., eds. (2005). "Macaca fascicularis fascicularis". Mammal Species of the World: A Taxonomic and Geographic Reference (3rd ed.). Johns Hopkins University Press. ISBN 978-0-8018-8221-0. OCLC 62265494.
    5. ^ Linnaeus, Carl (1758). Systema naturæ. Regnum animale (10th ed.). p. 27. Retrieved 19 November 2012.
    6. ^ a b c d e f g Gumert, MD; Fuentes A; Jones-Engel, L. (2011). Monkeys on the Edge: Ecology and Management of Long-tailed Macaques and their Interface with Humans. Cambridge University Press.
    7. ^ a b c Long, John (2003). Introduced Mammals of the World: Their History, Distribution, and Influence. Australia: CSIRO Publishing. p. 74. ISBN 0643067140.
    8. ^ a b "Island of the Monkey God". Off the Fence. Archived from the original on 2013-09-28. Retrieved 2013-09-25.
    9. ^ a b van Noordwijk, M.; van Schaik, C. (1999). "The Effects of Dominance Rank and Group Size on Female Lifetime Reproductive Success in Wild Long-tailed Macaques, Macaca fascicularis". Primates. 40: 105–130. doi:10.1007/bf02557705.
    10. ^ a b de Ruiter, Jan; Eli Geffen (1998). "Relatedness of matrilines, dispersing males and social groups in long-tailed macaques (Macaca fascicularis)". Proceedings of the Royal Society B. 265 (1391): 79–87. doi:10.1098/rspb.1998.0267. PMC 1688868. PMID 9474793.
    11. ^ a b c Bonadio, C. (2000). "Macaca fascicularis". Animal Diversity Web. Retrieved 26 September 2013.
    12. ^ a b Gumert, MD; Kluck, M.; Malaivijitnond, S. (2009). "The physical characteristics and usage patterns of stone axe and pounding hammers used by long-tailed macaques in the Andaman Sea region of Thailand". American Journal of Primatology. 71 (7): 594–608. doi:10.1002/ajp.20694. PMID 19405083.
    13. ^ Zimmer, Benjamin. "Makaku, macaco, macaque, macaca". Language Log. Retrieved 2013-09-26.
    14. ^ Raffles, Thomas Stamford (1821). "Descriptive Catalogue of a Zoological Collection, made on account of the Honourable East India Company, in the Island of Sumatra and its Vicinity, under the Direction of Sir Thomas Stamford Raffles, Lieutenant-Governor of Fort Marlborough". Transactions of the Linnean Society of London. 13 (1): 246–247. doi:10.1111/j.1095-8339.1821.tb00064.x. Retrieved 26 September 2013.
    15. ^ a b c d Cawthon Lang, Kristina. "Primate Factsheets: Long-tailed macaque (Macaca fascicularis) Taxonomy, Morphology, & Ecology". Primate Info Net. Retrieved 25 September 2013.
    16. ^ Aristophanes of Byzantium, Tῶν Ἀριστοτέλους περί ζώων ἐπιτομή. ΑΠΑΝΤΑ Ι, 2.59. ΚΑΚΤΟΣ 1998.
    17. ^ DL (2013-02-15). "ลิงแสมในป่าชายเลนที่เราต้องเจอ". Oknation (in Thai). Retrieved 2017-06-07.
    18. ^ Wilson, Don E.; Reeder, DeeAnn M., eds. (2005). "Macaca fascicularis". Mammal species of the world : a taxonomic and geographic reference (3rd ed.). Baltimore: Johns Hopkins University Press. ISBN 978-0-8018-8221-0.
    19. ^ a b c d e f g Carter, Steve. "Global Invasive Species Database". Macaca fascicularis (mammal). Invasive Species Specialist Group. Retrieved 26 September 2013.
    20. ^ de Ruiter, Jan; Jan van Hooff & Wolfgang Scheffrahn (June 1995). "Social and Genetic Aspects of Paternity in Wild Long-Tailed Macaques (Macaca fascicularis)". Behaviour. 129 (3): 203–224. doi:10.1163/156853994x00613.
    21. ^ Schaik, Carel; Maria Noordwijk; Rob Boer & Isolde Tonkelaar (1983). "The effect of group size on time budgets and social behavior in wild long-tailed macaques". Behavioral Ecology and Sociobiology. 13 (3): 173–181. doi:10.1007/bf00299920.
    22. ^ Cords, Marina (1992). "Post-conflict reunions and reconciliation in long-tailed macaques". Animal Behaviour. 44: 57–61. doi:10.1016/s0003-3472(05)80754-7.
    23. ^ Hemelrijk, Charlotte (1994). "Support for being groomed in long-tailed macaques, Macaca fascicularis". Animal Behaviour. 48 (2): 479–481. doi:10.1006/anbe.1994.1264.
    24. ^ Aureli, Filippo (June 1992). "Post-conflict behaviour among wild long-tailed macaques, (Macaca fascicularis)". Behavioral Ecology and Sociobiology. 31 (5): 329–337. doi:10.1007/bf00177773.
    25. ^ Das, Marjolijn; Zsuzsa Penke & Jan van Hoof (1998). "Potconflict Affiliation and Stress-Related Behavior of Long-Tailed Macaque Aggressors". International Journal of Primatology. 19: 53–71. doi:10.1023/A:1020354826422.
    26. ^ Kummer, Hans; Marina Cords (1991). "Cues of ownership in long-tailed macaques, Macaca fascicularis". Animal Behaviour. 42 (4): 529–549. doi:10.1016/s0003-3472(05)80238-6.
    27. ^ Schaub, Hanspeter (1996). "Testing Kin Altruism in Long-Tailed Macaques (Macaca fascicularis) in a Food-sharing Experiment". International Journal of Primatology. 17 (3): 445–467. doi:10.1007/bf02736631.
    28. ^ Cawthon Lang, Kristina. > "Primate Factsheets: Long-tailed macaque (Macaca fascicularis) Behavior". Primate Info Net. Retrieved 26 September 2013.
    29. ^ Gumert, Michael D. (December 2007). "Payment for sex in a macaque mating market". Animal Behaviour. 74 (6): 1655–1667. doi:10.1016/j.anbehav.2007.03.009.
    30. ^ "Archived copy". Archived from the original on 2013-08-28. Retrieved 2013-09-29.CS1 maint: Archived copy as title (link)
    31. ^ Lucas, P.W. "Long-tailed Macaques". The Gardens' Bulletin Singapore Supplement No. 3 (PDF). Singapore Botanic Gardens: National Parks Board. pp. 107–112. ISSN 0374-7859. Retrieved 2015-08-14.
    32. ^ Corlett, R.T.; P.W. Lucas (1990). "Alternative Seed-Handling Strategies in Primates: Seed-Spitting by Long-Tailed Macaques (Macaca fascicularis)". Oecologia. 82 (2): 166–171. Bibcode:1990Oecol..82..166C. doi:10.1007/bf00323531. JSTOR 4219219. PMID 28312661.
    33. ^ Nakashima, Yoshihiro; Lagan, Peter; Kitayama, Kanehiro (March 2008). "A Study of Fruit–Frugivore Interactions in Two Species of Durian (Durio, Bombacaceae) in Sabah, Malaysia" (PDF). Biotropica. John Wiley & Sons. 40 (2): 255–258. doi:10.1111/j.1744-7429.2007.00335.x. ISSN 1744-7429. OCLC 5155811169. Retrieved 21 November 2017.
    34. ^ Richer, Nathan. "Wild Facts". Wild Fact #834 – The Perfect Gift – Crab-Eating Macaque. Retrieved 26 September 2013.
    35. ^ Hazan, Tracy. "Introduced Species Summary Project". Crab-eating Macaque (Macaca fascicularis). Columbia University. Retrieved 26 September 2013.
    36. ^ Wheatley, Bruce (1988). "Cultural behavior and extractive foraging in Macaca Fascicularis". Current Anthropology. 29 (3): 516–519. doi:10.1086/203670. JSTOR 2743474.
    37. ^ Long, J. L. (2003). Introduced Mammals of the World: Their History, Distribution and Influence. Csiro Publishing, Collingwood, Australia. ISBN 9780643099166
    38. ^ Lowe, S. "100 Of The World's Worst Invasive Species" (PDF). Invasive Species Specialist Group. Retrieved 26 September 2013.
    39. ^ Linzy, Andrew; Linzy, Clair (2015). Normalising the Unthinkable: The Ethics of Using Animals in Research. Working group of the Oxford Centre for Animal Ethics. Retrieved 6 August 2015.
    40. ^ Blum, Deborah (13 October 1994). The Monkey Wars. Oxford University Press. ISBN 978-0195094121.
    41. ^ "U.S. primate import statistics for 2014". International Primate Protection League. Retrieved 6 August 2015.
    42. ^ Eudey, Ardith (2008). "The crab-eating macaque (Macaca fascicularis) widespread and rapidly declining". Primate conservation. 23: 129–132. doi:10.1896/052.023.0115.
    43. ^ a b c Umapathy, G.; Singh M.; Mohnot, S.M. (2003). "Status and Distribution of Macaca fascicularis umbrosa in the Nicobar Islands, India". International Journal of Primatology. 24 (2): 281–293. doi:10.1023/A:1023045132009.
    44. ^ Liu, Zhen; et al. (24 January 2018). "Cloning of Macaque Monkeys by Somatic Cell Nuclear Transfer". Cell. doi:10.1016/j.cell.2018.01.020. Retrieved 24 January 2018.CS1 maint: Explicit use of et al. (link)
    45. ^ Normile, Dennis (24 January 2018). "These monkey twins are the first primate clones made by the method that developed Dolly". Science. doi:10.1126/science.aa1066. Retrieved 24 January 2018.
    46. ^ Cyranoski, David (24 January 2018). "First monkeys cloned with technique that made Dolly the sheep - Chinese scientists create cloned primates that could revolutionize studies of human disease". Nature. 553: 387–388. Bibcode:2018Natur.553..387C. doi:10.1038/d41586-018-01027-z. Retrieved 24 January 2018.
    47. ^ Briggs, Helen (24 January 2018). "First monkey clones created in Chinese laboratory". BBC News. Retrieved 24 January 2018.
    48. ^ Associated Press (24 January 2018). "Scientists Successfully Clone Monkeys; Are Humans Up Next?". The New York Times. Retrieved 24 January 2018.

    Lifespan, longevity, and ageing
    provided by AnAge articles
    Maximum longevity: 39 years (captivity) Observations: One wild born male lived 37.1 years in captivity, making it as old as 39 when he died (Richard Weigl 2005).

Distribution

    Distribution
    provided by Animal Diversity Web

    Long tailed or crab eating macaques (Macaca fascicularis) are found in southeast Asia from Burma to the Philippines and southward through Indochina, Malaysia, and Indonesia. They are found as far east as the Timor Islands.

    Biogeographic Regions: oriental (Native )

Morphology

    Morphology
    provided by Animal Diversity Web

    The body fur of long-tailed macaques tends to be grey-brown to reddish brown. These colors are always paler ventrally. The face is brownish-grey with cheek whiskers. The eyes are directed forward for binocular vision. The nose is flat and the nostrils are narrow and close together (catarrhine condition). Long-tailed macaques have shovel-shaped incisors, conspicuous canines, and bilophodont molars. The tooth formula is I 2/2, C 1/1, PM 2/2, and M 3/3.

    The body length, not including the tail, is 40 to 47 cm. The greyish- brown or reddish colored tail is 50 to 60 cm. Long-tailed macaques exhibit sexual dimorphism in size. The average weight for males is 4.8 to 7 kg and 3 to 4 kg for females, approximately 69% of average male weight.

    Range mass: 3 to 7 kg.

    Range length: 40 to 47 cm.

    Other Physical Features: endothermic ; homoiothermic; bilateral symmetry

    Sexual Dimorphism: male larger

Habitat

    Habitat
    provided by Animal Diversity Web

    Long-tailed macaques are "ecologically diverse." Some of the habitats in which they have been found are primary forests, disturbed and secondary forests, and riverine and coastal forests of nipa palm and mangrove. Long-tailed macaques live most successfully in disturbed habitats and on the periphery of forests.

    In Sumatra, they achieve their highest population densities in mixed mangrove swamps, secondary hill forests, and riverine forests. Some were also observed in freshwater swamps, scrub grassland, lowland primary forests, and rubber groves.

    In Thailand, long-tailed macaques occur in evergreen forests, bamboo forests, and in deciduous forests.

    In Malaysia, they are abundant in coastal lowland forests.

    This species has been observed drinking much water and eating crabs, they often live near bodies of water. Of the various habitats occupied by long-tailed macaques, the swamp forests seem to have the highest density of them.

    In recent years, habitat alteration has expanded the range of some populations of long-tailed macaques. In Malaysia, cleared land, such as plantation areas, has been colonized by this species. It has been observed that some disturbed habitats have higher troop and population sizes than some pristine forests.

    This species has the highest degree of arboreality of all macaque species. One study of long-tailed macaque behavior reported that they never came to the ground except within 5 m of the edge of a river near their tree. The population densities of this diurnal species vary from 10 to 400 per squared kilometer.

    Habitat Regions: tropical ; terrestrial

    Terrestrial Biomes: forest ; rainforest ; scrub forest

    Aquatic Biomes: coastal ; brackish water

    Wetlands: swamp

    Other Habitat Features: agricultural ; riparian

Trophic Strategy

    Trophic Strategy
    provided by Animal Diversity Web

    Long-tailed macaques are omnivores, and exploit many different food types, reflecting the diversity of habitats they can utilize. The average length of feeding bouts is 18.3 minutes. There may be on average of twenty bouts per day. They eat a wide variety of foods such as fruits, crabs, flowers, insects, leaves, fungi, grasses, and clay. Clay may be eaten for the potassium found in it, although the potassium levels in the clay are low. However, 96% of the feeding time per day is spent eating fruit. Some limited observations suggest that long-tailed macaques select fruit based on ripeness, which is based on color.

    Animal Foods: insects; aquatic crustaceans

    Plant Foods: leaves; fruit; flowers

    Other Foods: fungus

    Primary Diet: omnivore

Associations

    Associations
    provided by Animal Diversity Web

    To the extent that these animals are prey for other species, they may affect populations of those species. Macaca fascicularis may be an important predator in its ecosystem, and may have some impact on prey species.

    Associations
    provided by Animal Diversity Web

    The predators of this species have not been reported.

Behavior

    Behavior
    provided by Animal Diversity Web

    As in other species of the genus Macaca, it is likely that these animals use a combination of visual (facial expression, body postures), auditory (vocalizations), physical (grooming, play, mating, aggression) and possible chemical (olfactory) signals as a part of their repertoire of communication.

    Communication Channels: visual ; tactile ; acoustic ; chemical

    Perception Channels: visual ; tactile ; acoustic ; chemical

Life Expectancy

    Life Expectancy
    provided by Animal Diversity Web

    Although the lifespan of this species has not been reported, it is likely to resemble that of other members of the genus, which seem able to obtain an maximum age of around 30 years in captivity.

    Average lifespan
    Sex: female
    Status: captivity:
    25.0 years.

    Average lifespan
    Status: captivity:
    38.0 years.

    Average lifespan
    Status: captivity:
    37.1 years.

Reproduction

    Reproduction
    provided by Animal Diversity Web

    In Sumatra, each social group of these monkeys contains an average of 5.7 males and 9.9 adult females. Although females outnumber males, indicating that males have more mates available to them than do females, both sexes may mate with multiple partners. However, the alpha male, or highest ranking male, of the group has the greatest access to mates of any males, and probably sires the most offspring.

    Mating System: polygynous ; polygynandrous (promiscuous)

    Males reach sexual maturity at approximately 6 years of age, whereas females mature by about 4 years of age. Higher-ranking females become reproductively mature before lower-ranking females. The offspring of these higher-ranking females have a greater chance of survival than do the offspring of lower-ranking females. Both of these phenomena are related to the greater food availability and decreased amount of aggression experienced by the higher ranking females.

    Female long-tailed macaques show a conspicuous cyclicity of sexual behavior during their menstrual cycle. As they approach ovulation, females experience a swelling of the skin in the perineal region. However, there has been no direct correlation between the frequency of copulation and the degree of swelling of genital tissues. This concealment of ovulation could exist in order to persuade consorting males to stay with females longer.

    As a side effect of the prolonged estrus period and concealment of ovulation, it is difficult for humans to estimate the length of gestation. However, it seems likely that the gestation averages approximately 162 days. The average interbirth intervasl is approximately 390 days, indicating that females can produce young each year if high ranking, and every other year otherwise.

    Young are nursed until they are approximately 420 days of age. The average interbirth interval is reported to be 390 days, which is less than the average time until weaning. Both the length of nursing and the interbirth interval may be affected by the rank of the mother.

    It is known that the births in this species peak from May to July, corresponding with the rainy season.

    Breeding interval: Females have an average interbirth interval of 390 days.

    Average number of offspring: 1.

    Average gestation period: 162 days.

    Average weaning age: 420 days.

    Average age at sexual or reproductive maturity (female): 4 years.

    Average age at sexual or reproductive maturity (male): 6 years.

    Key Reproductive Features: iteroparous ; seasonal breeding ; gonochoric/gonochoristic/dioecious (sexes separate); sexual ; viviparous

    Average birth mass: 320 g.

    Average gestation period: 165 days.

    Average number of offspring: 1.

    Average age at sexual or reproductive maturity (male)
    Sex: male:
    1544 days.

    Average age at sexual or reproductive maturity (female)
    Sex: female:
    1238 days.

    As in all primates, there is an extended period of juvenile dependence. Females provide the bulk of the care for offspring. The young receive nourishment, encouragement, grooming, protection, and teaching from the mother. Young females are likely to remain in the troup into which they were born, whereas males are likely to emmigrate at or near sexual maturity.

    Parental Investment: altricial ; pre-fertilization (Provisioning, Protecting: Female); pre-hatching/birth (Provisioning: Female, Protecting: Female); pre-weaning/fledging (Provisioning: Female, Protecting: Female); post-independence association with parents; extended period of juvenile learning; inherits maternal/paternal territory; maternal position in the dominance hierarchy affects status of young

Conservation Status

    Conservation Status
    provided by Animal Diversity Web

    There are nine national parks, nine reserves, and two sanctuaries in which some long-tailed macaques reside. Regardless of the type of habitat, there must be at least 500 squared kilometers of habitat necessary to support a viable population of 5,000 long-tailed macaques. This is the minimum size for a reserve for this species.

    Long-tailed macaques receive some protection in temple ruins in Thailand and protection and food in temples in Bali. In Malaysia, long-tailed macaques are legally protected, and they are fed and protected in urban forests and parks. In the Philippines, there is much interest in protecting this species. In Indonesia, the species is well-protected, but some of the reserves are being considered for oil drilling and harvesting. Some people in Bali, in fact, consider these primates to be sacred. This may increase the chances of their survival in these reserves. In Thailand, long-tailed macaques may be hunted, captured, or kept in captivity only under license. The export of this species is regulated by a quota system.

    Although there are some sanctuaries for long-tailed macaques, hunting is still a problem. In Thailand and Borneo, they are hunted for food. This species is also killed because it is a pest to agriculture. The fact that these macaques destroy crops has prevented some governments from making serious conservation efforts. Long-tailed macaques are collected for medical research. They are one of the five most used primate species in medical research. Many of these macaques were exported to the United States and Great Britian. Habitat loss in these organisms is occurring due to extensive logging operations.

    US Federal List: no special status

    CITES: appendix ii

    IUCN Red List of Threatened Species: least concern

Benefits

    Benefits
    provided by Animal Diversity Web

    Long-tailed macaques have been known to feed in cultivated fields on such items as young dry rice, cassava leaves, rubber fruit, taro plants, and other crops. They also take food from graveyards, garbage cans, and garbage pits. They have also become involved in aggresive interactions with people.

    Negative Impacts: injures humans (carries human disease); crop pest

    Benefits
    provided by Animal Diversity Web

    Long-tailed macaques, along with other species of macaques, have benefited humans through their use as research models in immunology, surgery, toxicology, and pharmacology. They are also important members of ecosystems and may serve as a basis for ecotourism ventures. They are sometimes still hunted for food.

    Positive Impacts: food ; ecotourism ; research and education

Other Articles

    Untitled
    provided by Animal Diversity Web

    The long-tailed macaque is also called the crab-eating macaque, or the cynomolgus or 'java' monkey.