Population size , habitat association and dietary composition of Boutourlini ’ s blue monkeys ( Cercopithecus mitis boutourlinii ) in Komto Protected Forest , Western Ethiopia

A study on the population size, habitat association and dietary composition of Boutourlini’s blue monkeys (Cercopithecus mitis boutourlinii) was carried out from January, 2015 to September, 2016 in Komto Protected Forest. Data was collected for a total of 58 days encompassing both the wet and dry seasons. Scan sampling method was used to collect data on the diet and foraging behaviour of Boutourlini’s blue monkeys. Population size was determined by total counting method. A total of two groups (natural and riverine forest) and 29 individuals of Boutourlini’s blue monkeys were recorded in the study area. Natural forest group was selected to study about the diet and foraging behaviour of Boutourlini’s blue monkeys. The overall dietary composition of Boutourlini’s blue monkeys was dominated by young leaves which accounted for 27.40% of the total diet. In addition, they fed on mature leaves (20.3%), fruits (15.38%), flowers (11.24%), shoots (8.99%), bark (6.91%), seeds (4.93%) and animal matter (3.37%). They consumed a total of 21 plant species belonging to 18 families. Syzygium guineense was the most consumed plant species and constituted 16.68% of Boutourlini’s blue monkey diet followed by Ficus sur (13.13%) and Prunus africana (12.01%). The most often utilized foraging method was capturing and manipulating food using both hands. This accounted for 47.97% of total foraging observations followed by grabbing (31.46%) and pulling (11.93%). Boutourlini’s blue monkeys were restricted to natural and riverine forest habitats in Komto Protected Forest. Preference of such taper ecological niche resulted from selective deforestation for timber and charcoal production, trampling of habitats by livestock and agricultural land expansion. To ensure future conservation of Boutourlini’s blue monkeys, habitat rehabilitation, enforcement of laws against deforestation for timber and charcoal production, and other appropriate management and conservation strategies should be designed.


INTRODUCTION
Blue monkeys (Cercopithecus mitis) are forest dwelling guenons belonging to the Old World monkeys (Kingdon, 1971;Estes, 1992).There are 17 subspecies of blue monkeys spreading in different habitat types and forests of south, east and Central Africa (Wolfheim, 1982).As a species, the conservation status of Blue monkeys is "least concern" with a decreasing population trend (Kingdon et al., 2008).Blue monkeys are mostly adapted to live in the forests and forage at 20 m above the ground (Tashiro, 2006).However, they intermittently move in open habitats and feed on the ground (Stuart, 1997).They are adapted in varieties of habitats such as rain forests, coastal mangrove forests, forest patches in savannah and evergreen semi-deciduous forests (Kingdon, 1971;Estes, 1992).The diets of blue monkeys are mostly flexible (Kingdon, 1971;Chapman et al., 2002;Twinomugisha et al., 2006).The flexibility of diet is associated with their large hindgut specialization to various types of food (Twinomugisha et al., 2006).Fruits were the most frequently used plant components though high amounts of leaves and invertebrates were consumed periodically (Cords, 2002).As an omnivore, blue monkeys mostly feed on fruits, leaves, invertebrates, flowers, seeds, bark and shoots (Estes, 1992).
Blue monkeys are frugivoure primates which are sensitive to the removal of forest as it reduces the availability of food (Cordeiro et al., 2004).Habitat loss due to commercial timber, agriculture and others means of human resource gathering threatens forest specialist primates (Chapman et al., 2006).Remnant forest patches are surrounded by encroachments, overgrazing and agricultural lands.This has caused a number of changes such as reduction of mammal populations, altered diets and foraging behaviours (Mbora and Meikle, 2004).Plant species composition and diversity is low in fragmented and disturbed forests.This in turn affects the availability of food for the species (Wong and Sicotte, 2006).Food supply is an important determinant factor that limits population abundance (Rode et al., 2006;Rovero and Struhsaker, 2007).Loss of food may increase competition between species.It is also the cause for aggressive interactions among animals thereby increasing stress and reduction of reproduction.Consequently, such habitat loss and fragmented habitats leads to local extinction of species (Mbora and McPeek, 2009).Most primates are forest specialists and thus vulnerable to habitat fragmentation (Chapman et al., 2007).As revealed by IUCN (2010), nearly half of the species are threatened with extinction due to habitat destruction and hunting.Most primate species and subspecies are threatened due to habitat loss and degradation in tropical regions (Cowlishaw, 1999;Chapman and Peres, 2001;Kerr and Deguise, 2004).To conserve such threatened species, information on the population size, diet selection and foraging behaviour of species is very important (Sutherland, 1998).Blue monkeys as a species are not threatened (Lawes, 1990).
However, the subspecies are highly localized and information on their basic biology, ecology and conservation is very limited (Oates, 1996;Kingdon et al., 2008).Boutourlini's blue monkeys (Cercopithecus mitis boutourlinii), is a forgotten subspecies endemic to the Southwestern Ethiopian Rift Valley between Lake Tana and Lake Turkana (Yalden et al., 1977;Butynski and Gippoliti, 2008).They had never been the subject of study, and thus their biology, ecology and social behaviour is unknown (Tesfaye et al., 2013).They are listed as Vulnerable by IUCN because of the severe destruction and fragmentation of forests (Butynski and Gippoliti, 2008).Currently, this subspecies is widely distributed in protected areas and remnant forest patches of the southwestern parts of Ethiopia.Studies on ecology, biology and behavioural patterns of Boutourlini's blue monkey are lacking.To ensure the efficiency of future conservation of Boutourlini's blue monkeys, it is important to study the ecology, biology and behaviour of this subspecies.The study of foraging behaviour is important to understand the adaptation of a species to its environment.The study of diet in particular can help to know population dynamics, habitat use and social organization of the species (Maruhashi, 1980).The present study, therefore, aimed to investigate the population size, habitat association and dietary composition of Boutourlini's blue monkey in Komto Protected Forest.

Study area
Komto Protected Forest is located in Western Ethiopia in Oromia Regional State of East Wollega Administrative Zone.It is situated between 9° 05' 10" to 9° 06' 35" N latitude and 036° 36' 47" to 036° 38' 10" E longitude with an elevation ranging from 2,135 to 2,482 m asl (Mosissa et al., 2011).Komto Protected Forest is part of the National Forest Priority Area called Komto Wacha Tsige Protected Forest which is currently fragmented from the other parts of the forest by increased expansion of agricultural lands, overgrazing, encroachments and commercial harvesting of both natural and plantation forests.Currently, it has a total area of 1888.09ha including both disturbed and undisturbed habitats (Figure 1).The study area falls within the southwestern and western unimodal rainfall region of Ethiopia with little or no rainfall in December, January and February.Rainfall gradually increases to peak from June to September.The mean annual rainfall of the area for 2002 to 2011 was 2143 mm.The mean minimal temperature was 12.1°C and the mean maximum was 28.1°C.

Description of habitats types
Komto Protected Forest is characterized by moist evergreen afromontane forest in which trees form an open canopy.The vegetation type of the study area consists mainly of natural and man-made forests.Komto Protected Forest consists of about 180 plant species belonging to 28 genera and 21 families.The forest contains about 18 plant species endemic to Ethiopia.Of all families, Fabaceae and Asteraceae dominant followed by Lamiaceae, Malvaceae and Poaceae (Fekadu et al., 2013).The species composition of plantation forest includes Eucalyptus spp., Cupressus lusitanica, Grevillea robusta and Pinus radiata.The study area was stratified into five habitat categories based on the vegetation types, structure and conservation status of the forest.These include: Natural forest, riverine forest, bushland, plantation and fragmented habitats.

Data collection
Due to low density of Boutourlini's blue monkeys in the area, total counting method was used to determine their population size (Norton-Griffiths, 1978).The open nature and fragmentation of the forest made total counting Boutourlini's blue monkey easier.Five habitat categories were identified (natural forest, riverine forest, plantation, fragmented habitats and bushland) to assess Boutourlini's blue monkeys in the area.To ensure total counts, four individuals living adjacent to the forest were trained and assigned to each habitat type to simultaneously assess the locations of Boutourlini's blue monkey both during the dry and wet seasons.Assessment was conducted from 07:00 to 11:00 in the morning and 14:00 to 17:30 p.m. in the afternoon.The presence of Boutourlini's blue monkeys were detected only in natural and riverine forests.Detected troops were named as natural forest group (NF Group) and riverine forest group (RF Group).To minimize underestimation of population size, five transect lines were additionally used in the surrounding remnant forest patches.However, no Boutourlini's blue monkey troops were detected in the surrounding areas during both seasons.Accordingly, counting of Boutourlini's blue monkeys was carried out in the two habitats.During counting, individuals located at distances of between 20 and 30 m from one another were considered as one group.To study the foraging behaviour of Boutourlini's blue monkeys, the natural forest group was selected for detailed study.The group was selected because they are easily accessed compared to the riverine forest group.The riverine group was excluded due to inconveniences of steep slope of the area to follow the group.The groups were identified by their habitat types and total number of individuals that made the troop.In addition, the groups were about 300 m part from each other.
Dietary data were collected for 58 days covering both the dry (January-March, 2015) and wet (July September, 2015) seasons.Scan sampling method (Altmann, 1974) was used to collect data on the foraging behaviour of multiple group members.Scan sampling was conducted at 15 min intervals between 07:00 a.m. and 11:00 with an observation period lasting for 5 min.Observation of all visible adults and sub-adults in the focal groups were carried out early in the mooring starting from their roosting sites until they disappeared from sight.Scanning was carried out interchangeably from left to right for the first scan and then from right to left for the second to minimize the risk of recording the same animal twice or being biased by recording the most obvious animals (Abernethy, 2000).Close habituation to the focal group was not successful as humans had chased them during illegal logging over longer periods.Due to this, the troop was partially habituated and scan sampling was conducted using unaided eyes and or binoculars from a distance of approximately 30 to 40 m during the wet and dry seasons, respectively.Foraging is defined as ingesting food items, manipulating (with the hands or mouth), carrying (in the mouth) and searching for food items using visual scanning in combination with grasping or searching with arms (Bunce et al., 2011).Food capturing techniques of monkeys were mainly classified as grabbing (quickly and easily capturing the prey or food with one hand), catching (grasping and or holding food with two hands and eating), pulling (exerting strong force to cause movement of food towards itself) and mouth grabbing (removing food items with mouth alone) (Baum, 2005;Nekaris, 2005).Monkeys used these methods of food extraction depending on the distance, types and strength of branches where food items were located (Baum, 2005).Capturing as food acquisition techniques was mostly used when the monkeys have appropriate sit at the middle of tree branches whereas grabbing was used when they are found closer to the terminal branches.Grabbing with mouth was used as food acquisition techniques when monkeys sat in many branches with thick foliages.However, pulling was mostly used when they feed attempts to feed on strong and unreached tree branches.Therefore, during scan sampling, mechanisms of food extractions (grabbing, catching, pulling and mouth grabbing) were recorded only from the adults and sub-adults assuming that juveniles and infants often learn from adults and sub-adults (Baum, 2005).In addition, food items and types of plant species consumed were recorded.Food items were recorded as young leaves, mature leaves, flowers, fruits, seeds, shoots, barks and unknown (when unknown plant parts or animal matters were consumed) (Fairgrieve and Muhumuza, 2003;Di Fiore, 2004).Identification of most plant species in the forest was easier as the species composition of the forest was studied (Fekadu et al., 2013).However, unidentified plant species, during the study periods, were collected and identified by an expert.Consumption of animal matters were recorded when a monkey was observed scratching tree barks and searching, and exposing curled leaves or ingesting invertebrates (Dietz et al., 1997).

Data analysis
Diet composition was evaluated by calculating the proportion of different food items and species consumed by the monkeys.The daily food items and type of species consumed by the groups was summed to calculate seasonal proportion of food items and food types consumed (Abernethy, 2000).The relative proportion of plant species used as food was calculated from the seasonal percentage contribution of different species (Fashing, 2001;Di Fiore, 2004).To get the percentage of food item foraged from each plant species, each foraged plant species and food item was summed per species.And, the percentage of each food item was calculated related to all food items per individual plant species.To determine the percentage utilization of a species, the total number of sightings of feeding on a forage species was divided by the total number of sightings for all species eaten (Abernethy, 2000).The total number of observations and frequencies were calculated for food extraction methods.Chi-Square analyses were used with SPSS V17.0 with probability set at the 0.05 level of significance.

RESULTS
A total of two groups and 29 Boutourlini's blue monkeys were recorded in Komto Protected Forest (Table 1).Among these 17 individuals were recorded in natural forest and the remaining 12 were recorded in the riverine forest.The difference in the number of individuals observed between the two habitats was not significant (χ 2 =0.18, df=1, P>005).From a total of 29 Boutourlini's blue monkeys recorded in the area, females and males constituted about 48.28 and 37.93%, respectively.Adult females comprised (41.38%) followed by sub-adult males which accounted for 17.24% of the total population.Adult males and infants of unknown sex comprised 10.34 and 13.79%, respectively.
The comparative use of different habitat types by Boutourlini's blue monkeys in Komto Protected Forest was indicated by the number of individuals observed in each habitat type.Natural forest was utilized both during the dry (60%) and wet (58.62%) seasons.Riverine forest was the second habitat type utilized during both seasons.However, Boutourlini's blue monkeys did not use bushland, plantation and fragmented habitats.The variation in the number of Boutourlini's blue monkeys observed in different habitats types was significant (χ 2= 82.86, df=4, P<0.05).
A total of 1157 feeding observations were recorded from a total of 2320 scan samples carried out during the two seasons.A total of 21 plant species, animal matters and unknown food items were consumed by Boutourlini's blue monkeys.The majority of feeding were recorded for young leaves (27.40%) followed by matured leaves (20.30%) and fruits (15.38%).About 3.37% of the total consumed food constituted by animal matters.Some food items were recorded as unknown (1.47%) as consumed items were not easily recognized.Feeding recorded for the male and female individuals accounted for 55.22% (N=639) and 44.77% (N=518), respectively.The total feeding recorded for Boutourlini's blue monkey during the dry season (N=605) 49.96% was slightly greater than the wet season (N=552) 49.35%.But there is no significant variation in the number of feeding observation recorded between seasons (χ 2= 0.15, df=1, P>0.05) but the difference was significant between males and females (χ 2= 12.65, df=1, P<0.05).Among plant parts consumed as food, the percentage of feeding on matured leaves (21.16%), fruits (17.36%), seeds (5.79%), barks (8.10%) and shoots (12.07%) were higher during the dry than the wet season, 19.38, 13.22, 3.99, 5.62 and 5.62%, respectively.However, the percentages of feeding recorded for young leaves (24.13%) and flowers 8.15% were low during the dry season but increased to 30.98 and 15.40% during the wet season, respectively (Figure 2).Feeding recorded for animal matters are also slightly greater during the wet season (3.99%) than the dry season (2.81%).Stems and roots were not observed being consumed during any of the feedings.There was no significant difference in the utilization of young leaves (χ 2= 1.97, df=1, P>0.05), matured leaves (χ 2= 1.88, df=1, P>0.05), seeds (χ 2= 2.96, df=1, P>0.05) and animal matters (χ 2= 0.64, df=1, P>0.05) between seasons.However, the utilization of bark (χ 2= 4.05, df=1, P<0.05), shoots (χ 2= 16.96, df=1, P<0.05), fruits (χ 2= 5.75, df=1, P<0.05) and flowers (χ 2= 12.31, df=1, P<0.05) showed significant difference between seasons.Boutourlini's blue monkeys consumed a total of 21 plant species belonging to 18 families.Among the total consumed species, 61.90% belong to trees and the remaining species were shrubs (19.05%), climbers (9.52%) and epiphytes (4.76%).Boutourlini's blue monkey mostly relied on young leaves, mature leaves and fruits.Young leaves were the principal food item consumed by this species.Family Rosaceae contributed 4 species for the diet whereas the remaining families were represented by one species each (Table 2).
The top ten most consumed plant species accounted for 79.85% of the overall diet of Boutourlini's blue monkeys (Figure 3).Syzygium guineense was the most consumed plant species which accounted for 16.68% of their diet followed by Ficus sur (13.13%) and Prunus africana (12.01%).Among the top ten species, six of them belong to trees.The remaining three and one species belong to shrubs and climbers, respectively.The most utilized shrub species accounted for 30% of top ten consumed plant species.
Among different types of foraging behaviour of Boutourlini's blue monkeys, the most utilized method was capturing and manipulating food with the aid of two hands.This method exhibited 47.97% of total feedings records (N=555) out of which males accounted for 50.23 % (N=321) and females 45.17 %( N=234).Grabbing foods 31.46%(N=364) and acquiring food by pulling accounted for 11.93% (N=138) which were the second and third food acquisition techniques, respectively.There was significant difference between the four types of food acquisition techniques by Boutourlini's blue monkeys (χ 2 =387.57,df=3, P<0.05).However, there was no

DISCUSSION
The remnant forest patches around mountainous and riverine forests of Western Ethiopia serve as a good refuge for Boutourlini's blue monkeys.However, the biology, ecology and behaviour of this subspecies have not been studied (Tesfay et al., 2013).Hence, the findings of this study are mostly compared with other guenons and similar subspecies studied in other African countries.Boutourlini's blue monkeys were recorded only in the natural and riverine forests of Komto Protected Forest.As described by Leighton (1993), they prefer matured forest due to the existence of sufficient fruit and structural features that assists arboreal movement.The number of Boutourlini's blue monkeys recorded increased from 15 to 17 in the natural forest and from 10 to 12 in the riverine forest.This increment was attributed to birth during the wet season.Similar finding was reported from Jibat Forest, Ethiopia by Tesfaye et al. (2013).The population size of Boutourlini's blue monkey recorded during the present study was very low which might be attributed to anthropogenic activities that resulted in reduction of food sources in the area.As reveled by Kempe (2008), frugivorous primates are shown to be very sensitive to forest clearings as it may reduce the population due to scarcity of food.According to Chapman and Chapman (2002) and Wallace et al. (1998), the abundance and density of primates were related to food quality and availability.Similarly, continuing decline in the number of blue monkey has been observed in the Kibale National Park, Uganda due to large timber cuttings (Chapman et al., 2000).Blue monkey was unable to cope with the increasing rate of deforestation and habitat fragmentation in Africa (Lawes and Chapman, 2003).
Though blue monkey are adapted to live in varieties of forest habitats (Kingdon, 1971;Estes, 1992), they are occasionally observed foraging on the ground across open habitats (Stuart, 1997).However, they reject bushland, fragmented habitats and plantation forests in Komto Protected Forest.This might be linked with the severe disturbance, poor shelter and scarce food in these habitats.In addition, Boutourlini's blue monkey might avoid open habitats due to attacks of predators as witnessed by Jaffe and Isbell (2007).Blue monkey can be found in forest fragments if and only if they are survival groups originating from periods with larger forests rather than newly immigrated animals (Kempe, 2008).The diet of blue monkeys comprises a few plant species (Fairgrieve and Muhumuza, 2003).This is also the case during the present study in which most food items were consumed from a few plant species.Among the 21 plant species consumed by Boutourlini's Blue monkeys, the top ten consumed plant species accounted for 79.85% of their overall diet.This might be linked to the preference of larger trees for sheltering and predator avoidance as humans frequently visit the forest for Geleta and Bekele 265 timber production.Syzygium guineense is the most foraged plant species in the study area.This is because the tree possesses dense and evergreen foliage throughout the year with more foliage observed during the dry season.Ficus sur is the second most preferred plant species in the study area.Similarly, C. m. stuhlmanni utilized Ficus species in Masai Mara National Reserve in Kenya (Kempe, 2008).To the contrary, feeding on shrubs, herbs and climbers was insignificant because the area was under high human pressure due to various anthropogenic activities.In addition, such plant species are closer to the ground, and might expose them to predation.As stated by Kempe (2008), large trees were used by monkeys both for foraging and positioning high above the ground to protect potential predators.
The sources of food for guenons are as diverse as their habitats though they are selective feeders (Cords, 1986;Kaplin and Moermond, 2000).Blue monkeys are mainly frugivours but also eat leaves, flowers and insects based on availability (Cords, 2002;Fairgrieve and Muhumuza, 2003).However, Boutourlini's blue monkeys mostly utilize young leaves, mature leaves and fruits in Komto Protected Forest.Young and matured leaves have low cellulose and secondary toxic compounds that makes digestion easier (Cords, 1987).In addition, young and matured leaves provide a high percentage of crude protein and calcium, respectively (Rudran, 1978).Blue monkeys at Komto Protected Forest use young leaves, matured leaves and flowers more as food compared to other Cercopithecus spp.(Table 3).However, the amount of feeding recorded for fruits was less among the genus Cercopithecus.The reduction of fruits in the diet of Boutourlini's blue monkeys might be attributed to the shortage of fruits in the forest.In addition, the availability of leaves might be better than fruits in the study area.As stated by Kempe (2008), when fruits are less available in the habitat, they switch to feed on foliar foods.In addition, the foliar diets of frugivours monkeys is an indicator of adaptive lifestyle and periodic fluctuations of food resources.
Dietary flexibility can be resulted from habitat variation, relative abundance of food and food preference of blue monkeys (Rudran, 1978;Chapman et al., 2002).Boutourlini's blue monkey also consumed considerable amounts of fruits, seeds and flowers.Flowers were consumed more during the wet season.This might be linked to the increased production of flowers along within the rainy season.Flowers are generally high in sugar content, providing energy (Wasserman and Chapman, 2003).Seeds and fruits were consumed more during the dry season because flowers produced during the wet season produce fruits and seeds during the dry season.The three food items were seasonal and not available throughout the year.To the contrary, bark, shoots, mature leaves and animal matters were consumed more during the dry season than the wet season.As described by Linderoth (2008), the consumption of more bark during the dry season might be attributed to shortage of food.Shoots were utilized more during the dry season because of the low availability of foliage forcing them to feed on shoots.Matured leaves were also consumed more during the dry season though they are less palatable and assumed to have high secondary compounds (Rudran, 1978).This might be an adaptation of Boutourlini's blue monkeys to compensate for food and foliage shortage encountered during the dry season.As stated by Smith (1959), the use of a wide variety of food items is very important to maximize total food consumption.Animal matters such as insects and other invertebrates were used more during the wet season than the dry season.This might be due to the increased number of invertebrates and insects during the wet season.During the present study, males engaged in feeding slightly more than females on average.This might be due to the periodic exclusion of males from the group to live solitarily which decreases time wasted in socialization but increases time of feeding.
Young and matured leaves were utilized more than fruits which coincide with the diets of guenon monkeys being highly flexible, depending upon various conditions (Chapman et al., 2002;Fairgrieve and Muhumuza, 2003).Monkeys used different foraging strategies when feeding on plant parts or animal matters.Among the different methods of acquiring food, preference was shown by Boutourlini's blue monkeys to grasp and or holding food with two hands and then chewing.This accounted for 47.97% of the total feeding observation.The method might be used by the monkey to easily manipulate food items from branches.Catching method was used more by males than females because the hands of females are busy in handling young.The results of this study suggested that the forearms of females are relatively busy in handling infants, grooming and juvenile feedings.Grabbing was used when the food items are easier and closer to handle with one hand alone.Pulling as a foraging method is used when food items are difficult to reach, and need to pull branches holding food items towards them.Mouth grabbing is used as food acquisition technique when monkeys are positioning in branches having dense foliages closer to the mouth.

Threats
Destruction of trees for timber production, agricultural land expansions, encroachments, trampling and grazing pressure by livestock are serious threats for future existence of Boutourlini's blue monkeys and other mammals in Komto Protected Forest.Illegal charcoal and commercial timber production are the main threats for wildlife in Komto Protected Forest.Continuous removal of natural forest for timber, charcoal and construction materials will result in a sudden collapse of the forest and local extinction of Boutourlini's blue monkey.Over the last ten years, plantations of seedlings have been carried out in Komto Protected Forest with no evident positive change on the status of the forest.This is because seedlings planted around the edge of the forest have very low survival rate due to trampling by livestock.Community information reveals that the numbers of Boutourlini's blue monkeys in Komto Protected forest are dwindling.Currently, Boutourlini's blue monkeys are restricted to natural and riverine forests.Such restricted preference of narrow ecological niches might lead Boutourlini's blue monkeys to local extinction in Komto Protected Forest.Large trees are selectively harvested for illegal timber production in Komto Protected Forest.This will directly affect Boutourlini's blue monkeys as large trees are preferred for roosting, feeding and predator avoidance.The current status of Komto Protected Forest is not promising for the future survival of mammals in general and Boutourlini's blue monkeys in particulars unless special conservation action is designed to conserve Komto Protected Forest.

Figure 2 .
Figure 2. Percentage of food consumed by Boutourlini's blue monkeys during the wet and dry seasons.

Table 1 .
Population size of Boutourlini's blue monkeys in Komto protected forest.

Table 2 .
Plant species and parts consumed by Boutourlini's blue monkeys in Komto protected forest.

Table 3 .
Percent of feeding records on different food items by members of the genus Cercopithecus in Africa.