Introduction
Competition for resources between wildlife and people is a widespread concern in places where they coexist (Woodroffe et al., Reference Woodroffe, Thirgood and Rabinowitz2005). Wild animals are an important part of the life and diet of many local people in developing countries (Hoffman & Cawthorn, Reference Hoffman and Cawthorn2012) but habitat loss, agricultural expansion (Maxwell et al., Reference Maxwell, Fuller, Brooks and Watson2016) and human encroachment into wildlife habitat are key drivers of wildlife population decline and even local extinctions (Van Vliet et al., Reference Van Vliet, Mertz, Heinimann, Langanke, Pascual and Schmook2012). In anthropogenic landscapes wildlife may be compelled to consume cultivated foods or prey on domesticated animals to survive (McLennan, Reference McLennan2008; Hockings et al., Reference Hockings, Anderson and Matsuzawa2009; Inskip & Zimmermann, Reference Inskip and Zimmermann2009). Competition between wildlife and people is problematic in areas where farmers depend solely or predominantly on subsistence agriculture and natural resources, as it can affect peoples’ livelihoods and their relationship with, and perceptions of, wildlife (Naughton-Treves, Reference Naughton-Treves1998; Webber & Hill, Reference Webber and Hill2014; Humle & Hill, Reference Humle, Hill, Wich and Marshall2016).
Sierra Leone is home to the western chimpanzee Pan troglodytes verus, which is categorized as Critically Endangered on the IUCN Red List (Humle et al., Reference Humle, Boesch, Campbell, Junker, Koops, Kuehl and Sop2016). In Côte d'Ivoire the wild chimpanzee population has declined by up to 90% in recent years (Campbell et al., Reference Campbell, Kuehl, N'Goran Kouamé and Boesch2008) and this highlights the importance of Sierra Leone for chimpanzee conservation in West Africa. However, chimpanzees face serious threats in Sierra Leone, including habitat loss, hunting, and retaliation as a result of competition with people for resources (Brncic et al., Reference Brncic, Amarasekaran and McKenna2010). The chimpanzee is protected by law across all range states where it occurs in the wild (Humle et al., Reference Humle, Boesch, Campbell, Junker, Koops, Kuehl and Sop2016). However, the laws protecting the species are often not enforced across most of its range, as evidenced by the continual influx of orphan chimpanzees into sanctuaries or rehabilitation centres, often by-products of bushmeat hunting (Faust et al., Reference Faust, Cress, Farmer, Ross and Beck2011) and the persistence of the illegal trade in live individuals (Stiles et al., Reference Stiles, Redmond, Cress, Nellemann and Formo2013). Conservation efforts are often focused on protecting areas of high value for biodiversity that contain threatened species of international concern. Most studies to date have therefore been carried out in or around protected areas, and comparatively few have investigated sympatry between chimpanzees and farmers in landscapes dominated by agriculture (e.g. Halloran et al., Reference Halloran, Cloutier and Sesay2013; McLennan & Hill, Reference McLennan, Hill, MacClancy and Fuentes2013; Hockings et al., Reference Hockings, McLennan, Carvalho, Ancrenaz, Bobe and Byrne2015).
Tacugama Chimpanzee Sanctuary coordinated the Sierra Leone National Chimpanzee Census Project during 2009–2010. The census estimated a total population of 5,580 chimpanzees (range 3,052–10,446) across the country, with >50% located outside protected areas (Brncic et al., Reference Brncic, Amarasekaran and McKenna2010). The findings highlighted the extent of human–chimpanzee competition for resources, with 88% of villages that reported local presence of chimpanzees mentioning that chimpanzees foraged on crops. The population and habitat viability assessment conducted following the census suggested the need for a better understanding of the costs and benefits of coexistence for both people and chimpanzees; the threats faced by chimpanzees in such landscapes; the attitudes and perceptions of the farmers regarding chimpanzees; and how and why these change over time (Carlsen et al., Reference Carlsen, Leus, Traylor-Holzer and McKenna2012).
Local people who depend on natural resources often perceive conservation efforts to protect biodiversity as a threat to their livelihoods (Redpath et al., Reference Redpath, Young, Evely, Adams, Sutherland and Whitehouse2013; Madden & McQuinn, Reference Madden and McQuinn2014). However, not all wildlife causes the same amount of damage and farmers may hold biased perceptions of damage linked to species attributes such as size, temporal and spatial activity patterns, sociality and/or traditional and related cultural taboos and beliefs (Humle & Hill, Reference Humle, Hill, Wich and Marshall2016). Understanding local perceptions, attitudes and concerns regarding wildlife is crucial for appropriate conservation and management strategies, to reduce conflict and promote a sustainable coexistence between people and wildlife (Redpath et al., Reference Redpath, Young, Evely, Adams, Sutherland and Whitehouse2013; Madden & McQuinn, Reference Madden and McQuinn2014). Non-human primates are often cited as one of the main perpetrators of crop raiding in the geographical ranges where they occur (Humle & Hill, Reference Humle, Hill, Wich and Marshall2016). Foraging on crops by chimpanzees has also been reported across Africa (Hockings & Humle, Reference Hockings and Humle2009; McLennan & Hockings, Reference McLennan and Hockings2014). To date, studies have primarily focused on evaluating the crops targeted by chimpanzees and their dietary contribution relative to wild foods (Hockings et al., Reference Hockings, Anderson and Matsuzawa2009; Hockings & McLennan, Reference Hockings and McLennan2012; McLennan & Hockings, Reference McLennan and Hockings2014), as well as chimpanzees’ responses to interactions with people and associated infrastructure, such as roads (McLennan & Hill, Reference McLennan and Hill2010, Reference McLennan and Hill2012; Hockings, Reference Hockings, Matsuzawa, Humle and Sugiyama2011; Cibot et al., Reference Cibot, Bortolamiol, Seguya and Krief2015; McLennan & Asiimwe, Reference McLennan and Asiimwe2016). Although reports of fatal attacks by chimpanzees on people are rare, there has been an increasing number of accounts of chimpanzees behaving aggressively towards people (McLennan & Hockings, Reference McLennan, Hockings and Angelici2016). Even if often attributable to prior provocation by people (Hockings et al., Reference Hockings, Yamakoshi, Kabasawa and Matsuzawa2010), such instances can elicit or increase negative attitudes towards chimpanzees, generate resentment and accentuate the fear of attack (McLennan & Hockings, Reference McLennan, Hockings and Angelici2016). Nevertheless, few studies have explored people's perceptions and attitudes towards chimpanzees. It was found that chimpanzees in Tombali, Guinea-Bissau, were perceived as human-like and inedible but were also considered to be pests because of their crop foraging behaviour (Costa et al., Reference Costa, Casanova, Sousa and Lee2013). In this region, non-Muslims appeared to be more tolerant than Muslims, and men perceived chimpanzees more positively than women. In the Budongo forest of Uganda, farmers perceived chimpanzees more positively than other primates, such as baboons Papio spp., although some farmers indicated they were afraid of chimpanzees (Webber & Hill, Reference Webber and Hill2014). Farmers in Bulindi, Uganda, were found in general to have a positive perception of chimpanzees and tolerate occasional foraging of domestic fruits but not cash crops (McLennan & Hill, Reference McLennan and Hill2012). This latter study emphasized that alterations to the habitat and human encroachment can negatively affect chimpanzee behaviour towards people, thus ‘challenging residents’ traditionally benign attitude towards them’ (p. 219).
We selected four areas in unprotected landscapes with hardly any forest cover but with a high density of chimpanzees and with reported instances of human–chimpanzee competition for resources, based on national census data (Brncic et al., Reference Brncic, Amarasekaran and McKenna2010). Our aims were to identify the key challenges to agricultural productivity for people in these landscapes, assess the mitigation strategies currently used by farmers to protect their crops from wildlife, understand the farmers’ perceptions of chimpanzees and their current status in their locality, and evaluate the perceived impact of crop losses caused by chimpanzees relative to other wildlife in each study area.
Study areas
The study took place in four locations in Sierra Leone: Lawana and Moseilelo in the Moyamba district, and Port Loko South and Port Loko North in the Port Loko district (Fig. 1; Table 1). Active and fallow farms at various stages of growth dominate these four areas. Wild or feral oil palms Elaeis guineensis are the most frequently encountered tree species across these agricultural matrices, together with rough-skin plum trees Parinari excelsa (Plate 1). Oil palms are an important non-cultivated resource that people harvest locally for palm oil, palm wine, nuts and construction materials. However, the sites differ in several ways: Lawana is located between mangroves and swamp areas (Plate 1); Moseilelo harbours a small and highly degraded area of secondary forest, known as the Kasillah Hills; Port Loko North is dominated by grassland and woodland savannah, and also harbours small-scale oil palm plantations; whereas Port Loko South is more swampy and harbours a higher number of small-scale commercial oil palm plantations located primarily near human settlements. Both areas of Port Loko have multiple narrow riverine forests spanning the landscape. Moseilelo and both areas of Port Loko are also delimited by two large rivers, which form a fork and potentially act as a barrier to wildlife dispersal (Fig. 2). Both men and women are involved in farming activities in these areas, cultivating mainly seasonal crops (RMG, pers. obs.). Apart from the Sierra Leone National Chimpanzee Census Project (Brncic et al., Reference Brncic, Amarasekaran and McKenna2010) there had been no previous research on chimpanzees in these areas.
*Statistics Sierra Leone (2016)
Methods
Semi-structured interviews
We conducted 257 semi-structured interviews with farmers in 61 villages (23 in the Moyamba district and 38 in the Port Loko district) during December 2012–January 2014 (Table 1). The mean time taken to complete an interview was 27 ± SD 9 minutes (range 9–77). Among the participants, 80.2% were males and 19.8% were females. Given the significant sex-bias (Table 1), we refrained from conducting any analysis exploring gender differences. The mean age of the participants was 43 ± SD 14.08 years (range 19–90). The majority of the participants (93.9%) were farmers, and 3.8% of them combined farming with other occupations, including trading (n = 4), teaching (n = 3), fishing (n = 2) and pot making (n = 1). The dominant ethnicity varied across sites (Table 2); the majority (95.7%) described themselves as Muslim. Nearly two-thirds (63.4%) of the participants reported not having received any formal education (Table 2).
The study was approved by the Research Ethics Committee of the School of Anthropology and Conservation at the University of Kent, UK, and adhered to the code of best practices for field primatology issued by the International Society of Primatology. The interviews were anonymous and voluntary. We conducted one interview per household. We first asked permission from the village chief; interviewers then dispersed in various directions from the centre to the periphery of each village, selecting households at random. The interviews were conducted in the local language by four Sierra Leoneans from the Tacugama Chimpanzee Sanctuary field team, who had been trained by RMG. To cover a wide geographical area in each locality we conducted interviews in every second village as we passed through. The interviews were designed to determine (1) the socio-cultural profile of participants; (2) the types of crops cultivated locally and the causes of crop losses (this last question was inadvertently omitted in the questionnaire in the Moseilelo area, which was therefore not included in this analysis); (3) the local occurrence of wildlife, identified by means of a field guide, and the type of crops the identified wildlife were reported to consume; (4) which three species were considered to cause the most crop damage; (5) the measures of protection employed locally to deter wildlife from feeding on crops; and (6) people's perceptions of chimpanzees (i.e. do they perceive them to be dangerous and why, and how do they react when they encounter chimpanzees in the fields?) and the farmers’ perceptions of the changes in chimpanzee numbers since before the civil war, which occurred during 1991–2002.
The identification guide compiled for use in the interviews contained 43 drawings of West African mammal species (Kingdon, Reference Kingdon2001; Oates, Reference Oates2010). The selection of images was tested on a pilot group of 10 Sierra Leoneans before the start of the study to ensure that people could recognize the species portrayed. When participants identified a species they believed to exist in their area, we asked whether the species in question consumed crops, and which type. We then tallied the number of times each crop was reported as being consumed by each species to calculate percentages of reported crop foraging.
Data analysis
We produced maps using ArcGIS 10.3 (ESRI, Redlands, USA) and analysed data using SPSS v. 23 (IBM, Armonk, USA). Chi-square tests were used to explore differences between sites in the types of crops grown, crop protection measures used, the perceived changes in the number of chimpanzees since before the civil war, people's perceptions of chimpanzees as being dangerous, and reports of how chimpanzees react when encountered in cultivated fields. For χ2 tests with more than a 2 × 2 contingency design, the z-scores based on the adjusted standardized residuals were used to assess the cell contribution to significant χ2 results with values ≥ 1.96 yielding statistical significance at P < 0.05.
Results
Crops cultivated and reported causes of crop losses
Farmers reported cultivating a variety of seasonal crops using intercropping practices. Unlike swamp fields, which were planted exclusively with rice, upland farms were cultivated with a mixture of crops simultaneously (Table 3). Seasonal crops were the most reported cultivars grown by farmers in all areas (82.7 ± SD 6.7%). There was a significant difference in the types of crops reported across sites (χ2 test: χ(6) = 41.163, P < 0.001), with the z-scores indicating a significantly higher frequency of domestic fruit crops and cash tree crops at Port Loko South relative to the other sites, and significantly fewer than expected cash tree crops in both Lawana and Moseilelo. However, there was no significant difference in the reporting of seasonal crops being cultivated across the four sites (Table 3). In all cases the harvests were used for subsistence, although 66.1% (170 of 257) of participants reported selling any surplus, with farmers in Lawana reporting selling the least (25.5%) compared to the other three sites (Moseilelo: 60.5%; Port Loko North: 78.9%; Port Loko South: 80.4%).
*Crops reported to be consumed by chimpanzees Pan troglodytes verus (this does not necessarily coincide with the crops people reported cultivating, as they sometimes omitted to mention domestic fruit such as mangoes, oranges and papaya).
In the Lawana area the reported challenges to agricultural productivity were crop foraging by wild mammals (76.5%), poor soil quality (51%), and plagues of grasshoppers Zonocerus variegatus (9.8%), whereas in the Port Loko district farmers reported crop foraging by wild mammals (Port Loko North: 98.6%; Port Loko South: 96.9%), grasshoppers (Port Loko North: 78.9%; Port Loko South: 83.5%), birds feeding on crops (Port Loko North: 7%; Port Loko South: 7.2%), poor soil quality (Port Loko North: 4.2%; Port Loko South: 14.4%) and lack of fertilizer (Port Loko North: 1.4%; Port Loko South: 4.1%). Foraging by domestic animals was mentioned as a problem only once, in Port Loko South.
Rice and cassava, the two most reported cultivated crops (Table 3), were also the most reported as being damaged by wild mammals. In contrast, sesame and sorghum were rarely reported as being consumed by wild mammals (Table 3). Other cultivars, such as chilli pepper and okra, attracted fewer species, with duikers Cephalophus and Philantomba spp. and bushbucks Tragelaphus spp. mentioned most often as feeding on the leaves. Domestic fruit crops comprised only 9.6 ± SD 2.9% of the cultivars reported to be cultivated across all four areas, and primates were considered to be the main consumers (75.6 ± SD 12.7%), with 32.8 ± SD 16.6% of consumption attributed to chimpanzees. Cash tree crops accounted for only 7.7 ± SD 3.9% of the total cultivars reported. Small, commercial oil palm plantations were common in both areas of Port Loko district but not in Lawana or Moseilelo. However, farmers in all four areas regarded losses of oil palm to wildlife as a serious problem, and oil palm was reported as the third most frequently raided crop in all areas except Moseilelo, where it was ranked fifth (Table 4). Chimpanzees were the most frequently mentioned culprits, although up to 30 species of fauna were reported to exploit oil palms.
Chimpanzees reportedly targeted 21 types of crops, but with a lower frequency compared to cane rats, which were reported to target up to 20 crops (Table 5). Cane rats were reported to feed mainly on rice and cassava, and to a lesser extent on maize and peanuts, damaging all stages of the plants’ growth. The giant-pouched rat Cricetomys emini, the green monkey Chlorocebus aethiops sabaeus and the fire-footed rope squirrel Funisciurus pyrropus consumed a similar number of crops (20–21), with a similar frequency. Green monkeys and sooty mangabeys Cercocebus atys were reported to target the same number of crops; however, sooty mangabeys were reported more frequently in Lawana and Moseilelo, and green monkeys in Port Loko. As a group, monkeys were reported to consume similar cultivars across all four study areas, primarily maize, rice, cassava and peanuts.
The mean number of animal species identified per interview was 11 ± SD 4.25 (range 2–26). Of the species considered to be crop foragers, cane rats, chimpanzees, giant pouched rats and fire-footed rope squirrels were the most mentioned (Fig. 3), and in all four areas farmers perceived that cane rats caused the most damage to crops (Fig. 4). Overall, chimpanzees ranked as the fourth most destructive mammal; however, there was some variation across sites. In Lawana chimpanzees were ranked second, and in Moseilelo fourth, whereas they were ranked seventh in Port Loko North and fifth in Port Loko South. One regular complaint of the farmers in the two Port Loko sites was the destruction of crops by grasshoppers, which was not mentioned at either of the sites in the Moyamba district (Fig. 4).
Crop protection measures
All but eight of the participants (249 of 257) reported using one or more mitigation measures against crop foraging by wild animals. More mitigation measures were reported at the Port Loko sites than at Lawana and Moseilelo (Table 6). Fencing (223 of 249) and traps (208 of 249) were the most common deterrents used to prevent wildlife from entering cultivated farms. Usually fences were hand-made with palm leaves and/or sticks interspersed with snares. Hunting with dogs was more common in the Port Loko district, with 49.4% (81 of 164) reporting use compared to only 7% (6 of 85) in the Moyamba district. However, if each measure is categorized as (potentially) lethal or non-lethal (Table 6), there were no differences among sites (χ2 test: χ(3) = 2.243, P = 0.523).
Farmers’ perceptions of chimpanzees
Nearly all of the participants (253 of 257; 98%) stated that chimpanzees used to enter their farms before the civil war (1991–2002) and 63% (160 of 253) perceived that there were fewer chimpanzees now than before the war, mostly as a result of deforestation and hunting (118 of 160). Only 36.4% (92 of 253) thought there were more chimpanzees now and the only reason stated in 45% (41 of 92) of the responses was that they were not hunted. No other reasons were given. Whether farmers perceived there were more or fewer chimpanzees since before the civil war differed significantly among sites (χ2 test: χ(3) = 82.255, P < 0.001). Based on the z-scores, in Lawana significantly more people than expected thought there were more chimpanzees than before the civil war, whereas there was no significant difference for Moseilelo. However at both Port Loko sites people thought there were significantly fewer chimpanzees than before the civil war.
Eighty seven percent (224 of 257) of respondents considered chimpanzees to be dangerous, the most common reason being that they destroy crops (48.7%, 109 of 224). They were also considered to be dangerous because they are destructive and frightening (5.8%, 13 of 224), frightening (28.1%, 63 of 224) or aggressive (2.7%, 6 of 224). There was no significant difference among sites regarding whether people perceived chimpanzees to be dangerous or not (χ2 test: χ(3) = 2.601, P = 0.457).
Ninety four percent (241 of 257) of participants reported currently encountering chimpanzees in their fields, with little variation across study areas (Lawana: 96%; Moseilelo: 94.7%; Port Loko North: 90.1%; Port Loko South: 96.9%). When asked how the chimpanzees respond when they are encountered, 81.7% (197 of 241) reported that chimpanzees run away, and 12.9% (31 of 241) reported that they threaten people. There was a significant difference in responses among sites (χ2: χ(3) = 9.702, P = 0.021). Although there was no significant difference in reports of chimpanzees running away, fewer people reported chimpanzees threatening people in Lawana, and significantly more in Port Loko South.
Discussion
We found that cane rats were perceived to be the most problematic mammal for farmers in the study areas. Other studies have reported the cane rat to be a problem species (Naughton-Treves & Treves, Reference Naughton-Treves, Treves, Woodroffe, Thirgood and Rabinowitz2005), and it was found to cause the most severe damage to crops around a forest reserve in Cameroon (Arlet & Molleman, Reference Arlet and Molleman2007). Cane rats are nocturnal, dependent on water, have high reproductive rates and thrive in areas with abundant grasses (Hoffmann, Reference Hoffmann2008); the agricultural habitat present at our study sites is well suited to their needs.
No respondents ranked chimpanzees as the most destructive mammal species, and other species, such as the cane rat, the red river hog Potamochoerus porcus, monkeys and grasshoppers, were perceived as causing most damage. Nevertheless, there was variation across sites in the ranking of chimpanzees, possibly linked to variation in the occurrence and abundance of other destructive wildlife species and people's perceptions across sites. However, our results also suggest that farmers’ perceptions vary depending on the crops grown and their dependence on agriculture for subsistence. Chimpanzees were ranked higher in Lawana and Moseilelo, where farmers mentioned growing more seasonal crops and fewer cash crops, and reported selling less surplus, indicating a higher dependency on seasonal cultivation for subsistence. The degree to which farmers viewed chimpanzees as a threat to their agricultural yield may also be related to the extent of overlap between the chimpanzees’ home range and farmlands in the landscape, the contribution of various crop species to chimpanzees’ diet locally (McLennan & Hill, Reference McLennan and Hill2012), whether farmers had direct experience of chimpanzee crop foraging (although there was no reported variation across sites in this study), and their level of tolerance of chimpanzee offtake (although chimpanzees were reportedly less likely to threaten people at Lawana, which indicates that perhaps farmers were more tolerant of chimpanzee crop foraging at this site; Webber & Hill, Reference Webber and Hill2014). These alternative explanations warrant further investigation to reveal patterns of similarity or difference across sites.
We recorded significant evidence of chimpanzees using oil palms across all four study areas. The most visible and common use by chimpanzees was for nesting. Commercial oil palms are predominantly cultivated in the two Port Loko areas (Table 3) but during our time in the field we did not record any evidence of chimpanzees using them. Usually these plantations are cultivated near human settlements, potentially reducing their accessibility to chimpanzees. Based on our in situ observations, competition for oil palm mainly concerns wild oil palms, which are widespread and are an important resource to farmers. Chimpanzees at other sites have also demonstrated extensive reliance on oil palms for food and nesting (e.g. Bossou, Guinea: Humle & Matsuzawa, Reference Humle and Matsuzawa2004; Guinea-Bissau: Sousa et al., Reference Sousa, Barata, Sousa, Casanova and Vicente2011; Bessa et al., Reference Bessa, Sousa and Hockings2015). Further research is needed to assess the extent to which chimpanzees across various landscapes depend on the oil palm for food and nesting.
Hockings & McLennan (Reference Hockings and McLennan2012) found that cassava was not widely eaten by chimpanzees across their range and that they preferred sugar fruits. In our study, chimpanzees were reported to forage frequently on cassava, probably because of its wider and easier availability compared to other cultivars, such as banana, mango, pineapple or papaya. Domestic fruit crops comprised < 10% of the crops cultivated in all four areas, although farmers tended to underreport these (Table 3). Chimpanzees may avoid coming close to the villages, preferring to consume cassava from the more distant fields. Despite occasional reports in Moseilelo and Port Loko South of farmers seeing chimpanzees near their villages, foraging on domestic fruit trees, such events were rarely reported. It is possible that farmers were more likely to report chimpanzee foraging on a valuable staple crop such as cassava than domestic fruits, which are typically grown around individual households and harvested mainly for self-consumption. A similar situation was described in Uganda (McLennan & Hill, Reference McLennan and Hill2012), where farmers tolerated chimpanzees consuming fruits such as guavas but not cash crops such as sugarcane, cocoa or bananas. Farmers in our study areas reported domestic fruits as being targeted especially by chimpanzees and monkeys. Monkeys seem to be more daring in approaching villages to feed on domestic fruit trees than chimpanzees, as we witnessed on several occasions during our field work. In Guinea and Uganda, however, chimpanzees have been reported entering villages to consume domestic fruits (Hockings & Humle, Reference Hockings and Humle2009; McLennan, Reference McLennan2013). This daring behaviour is potentially linked to people's tolerance of and behaviour towards chimpanzees and the extent to which they can meet their dietary requirements with wild food; habituation could also play a role in influencing the prevalence of such a behaviour (Naughton-Treves et al., Reference Naughton-Treves, Treves, Chapman and Wrangham1998; Hockings et al., Reference Hockings, Anderson and Matsuzawa2009; McLennan, Reference McLennan2013), although it is not a precondition (McLennan & Hill, Reference McLennan and Hill2010). Sesame, which was widely cultivated across all four areas, and sorghum in Lawana and Moseilelo, were rarely reported as being consumed by wild mammals. This suggests that these may be low-conflict crops (Hockings & McLennan, Reference Hockings and McLennan2012; Hockings & Sousa, Reference Hockings and Sousa2012) or else farmers may be more tolerant of these crops being consumed by wildlife. The intercropping system used in Sierra Leone provides wildlife with a choice of crops to feed on, and further assessment is required to identify differences between real and perceived damage in mixed vs mono-cultivated fields.
In our study areas, chimpanzees share the habitat with people but are not habituated; usually they run away during encounters with farmers. The absence or limited presence of forest cover at these sites potentially explains why wildlife is dependent upon cultivated and/or abandoned crops for their survival. Local farmers cannot recall seeing large tracts of forest in their area, suggesting that these landscapes were cleared many decades ago. The remaining wild fauna, including chimpanzees, appear to have adapted to this anthropogenic environment. We remain unsure why chimpanzees still persist in these degraded areas; future studies should help us identify more precisely the conditions favouring their persistence.
Almost all farmers interviewed reported adopting crop protection measures. The most common included snares, traps and fences. Fences are erected to prevent larger herbivores from entering cultivated fields, and snares and traps target small mammals. The traps are made of sticks and thin rope or wire. The use of mitigation measures was more prevalent at the Port Loko sites, where most farmers reported selling any harvest surplus, potentially indicating a relationship between monetary income and the ability to protect crops, corroborating findings elsewhere in Africa (Hill & Wallace, Reference Hill and Wallace2012) and South-east Asia (Campbell-Smith et al., Reference Campbell-Smith, Sembiring and Linkie2012). Although some mammals, especially chimpanzees, may be able to escape by dislodging the wire from the trap, the wire could remain tight around the trapped limb and cause severe injury (Quiatt et al., Reference Quiatt, Reynolds and Stokes2002). The impact of wire traps on chimpanzees and other wildlife in our study areas has yet to be assessed. Farmers also reported occasionally hiring hunters to get rid of pests feeding on their crops, typically monkeys, as they are more difficult to catch with snares. Encouraging sustainable and more species-specific hunting practices using more specialized devices to capture rodents could not only decrease crop feeding but could also help improve yields and protect chimpanzees and other mammal species, whilst providing a supplementary source of protein to local people. Cane rats are a favoured and nutritious food source (Hoffman & Cawthorn, Reference Hoffman and Cawthorn2012).
Farmers from both study areas in Port Loko reported that plagues of grasshoppers were a significant challenge, destroying entire fields of cassava and potatoes. A biological insecticide called Green Muscle (Becker Underwood, South Africa) is available from the central government but a lack of resources to implement the project is preventing the product from reaching farmers across the country. Finding solutions for the distribution and implementation of this preventive crop protection measure could help farmers obtain better yields, which could promote greater tolerance of farmers towards key species, such as chimpanzees. However, a heightened expectation of preventability of crop loss could also backfire, lowering farmers’ tolerance of damage caused by other species (Knight, Reference Knight and Knight2000), and therefore implementation will require careful monitoring of farmers’ tolerance levels. Furthermore, human population growth, which translates into a higher demand for resources (Barnes, Reference Barnes2002), forces farmers to shorten fallow periods, which results in impoverished soil and affects future agricultural productivity (Gaiser et al., Reference Gaiser, Judex, Igué, Paeth and Hiepe2011). Altogether, such agricultural practices are detrimental to human well-being, as people rely on natural resources provided by the forests, and habitat conversion can cause a decrease in the abundance and diversity of wildlife, which people also depend on for protein (Fa & Brown, Reference Fa and Brown2009). In three of the four study areas farmers stated that chimpanzee numbers had decreased in the previous 2 decades as a result of deforestation and hunting. To protect wild chimpanzees under such habitat conditions there is a need to work closely with the local communities to help them develop more efficient and sustainable farming techniques to improve their yields, maintain soil fertility and minimize habitat loss as a result of slash-and-burn agriculture.
Almost all participants (94%) claimed to have seen chimpanzees in their fields. Farmers predominantly stated that chimpanzees run away when encountered in the fields, although some stated that chimpanzees can threaten people because they are not afraid, and could cause injury or death. However, only four participants reported incidents of physical aggression towards people (one in Lawana and three in Port Loko South), adults in all cases, in contrast to Bossou, Guinea, where such attacks mainly involved children (Hockings et al., Reference Hockings, Yamakoshi, Kabasawa and Matsuzawa2010). Each of these participants felt that chimpanzees were dangerous. Differences between sites may be related to differences in encounter rates between people and chimpanzees (McLennan & Hockings, Reference McLennan, Hockings and Angelici2016) and/or people's behaviour towards chimpanzees (Hockings et al., Reference Hockings, Yamakoshi, Kabasawa and Matsuzawa2010), and chimpanzees’ perception of risk within their environment (Humle & Hill, Reference Humle, Hill, Wich and Marshall2016). Most participants (87%) considered chimpanzees to be dangerous. However, almost half argued that it was because chimpanzees were destructive of the crops rather than frightening or aggressive. Nearly two thirds (63%) of participants also perceived that there were fewer chimpanzees now than before the war; however, in Lawana farmers thought there were more chimpanzees now. This could reflect a local increase in chimpanzee numbers, or higher rates of chimpanzee crop foraging and sighting of chimpanzees in this area compared to other sites.
Although we focused on a subset of locations within Sierra Leone, our findings provide us with a better understanding of human–wildlife coexistence in agricultural landscapes and the factors influencing variability in sympatric relations between people, chimpanzees and other wildlife. Our results highlight variations across study areas, probably linked to differences in habitat types and crops cultivated, and historical patterns of habitat loss. We argue that conservation actions need to be context-specific based on an understanding of local people's perceptions, concerns and attitudes, as well as chimpanzee ecology and distribution in these landscapes. Conservation strategies should benefit and support farmers while promoting a positive coexistence between people and chimpanzees, thus favouring their protection and long-term survival. However, we still need to develop and assess with local and national stakeholders which actions can most effectively improve coexistence between people and chimpanzees, and tolerance levels towards crop-foraging.
Acknowledgements
We are grateful to the Ministry of Agriculture, Forestry and Food Security of the Sierra Leone Government for granting us permission to conduct this research. This work would not have been possible without the collaboration of the people in the study communities who volunteered to partake in our interviews. We also thank the outreach and management teams at the Tacugama Chimpanzee Sanctuary, in particular Yirah Koroma, Joseph Marah, David Momoh and Konkofa Marah for their assistance in the field. We acknowledge Fundació Barcelona Zoo, the Rufford Small Grants Foundation, the Mohamed bin Zayed Species Conservation Fund and the Tacugama Chimpanzee Sanctuary for the financial support provided to conduct this research, and we thank Matthew McLennan and an anonymous reviewer for their helpful comments.
Author contributions
RMG, BA and TH conceived and designed the research, which was conducted by RMG. RMG and TH analysed the data and wrote the article, and IM and ECD contributed revisions.
Biographical sketches
Rosa Garriga is a wildlife veterinarian and conservation researcher; her work is focused on chimpanzee conservation in Sierra Leone. Ignasi Marco is interested in wildlife ecology and diseases, with a particular interest in diseases at the human–livestock–wildlife interface. Encarna Casas is a veterinarian working in wildlife management, and has an interest in animal stress evaluation. Bala Amarasekaran is the founder and director of the Tacugama Chimpanzee Sanctuary, and has spent the last 30 years working to protect and conserve chimpanzees and their habitats in Sierra Leone. Tatyana Humle is a primatologist and chimpanzee expert, who embraces an interdisciplinary approach to exploring coexistence issues between wildlife and people.