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Local awareness of and attitudes towards the pygmy hippopotamus Choeropsis liberiensis in the Moa River Island Complex, Sierra Leone

Published online by Cambridge University Press:  13 March 2014

April L. Conway*
Affiliation:
Warnell School of Forestry and Natural Resources, University of Georgia, Athens, Georgia 30602USA.
Sonia M. Hernandez
Affiliation:
Warnell School of Forestry and Natural Resources, University of Georgia, Athens, Georgia 30602USA.
John P. Carroll
Affiliation:
School of Natural Resources, University of Nebraska, Lincoln, Nebraska 68583, USA
Gary T. Green
Affiliation:
Warnell School of Forestry and Natural Resources, University of Georgia, Athens, Georgia 30602USA.
Lincoln Larson
Affiliation:
Department of Natural Resources, Human Dimensions Research Unit, Cornell University, Ithaca, New York, USA
*
(Corresponding author) E-mail [email protected]
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Abstract

The pygmy hippopotamus Choeropsis liberiensis is an Endangered species found only in the Upper Guinea rainforests of West Africa. Using a two-phase approach, with initial semi-structured interviews followed by more extensive questionnaires, we examined local residents' awareness of and attitudes towards the pygmy hippopotamus along the Moa River near Tiwai Island Wildlife Sanctuary in Sierra Leone. The interviews and questionnaires addressed human–hippopotamus interactions, local knowledge and awareness of pygmy hippopotamus ecology and behaviour, and public attitudes towards hippopotamus conservation. Overall, 22% of questionnaire respondents acknowledged benefits related to hippopotamus conservation; factors affecting the perception of benefits included age, livestock ownership, distance from Tiwai Island and exposure to conservation programmes. The results of this study could be used to inform the conservation of the pygmy hippopotamus and highlight the critical role of local support in the management of threatened species in biodiversity hotspots.

Type
Papers
Copyright
Copyright © Fauna & Flora International 2014 

This paper contains supplementary material that can be found online at http://journals.cambridge.org

Introduction

Declines in biodiversity as a result of anthropogenic factors are a major concern in conservation hotspots (Pimm et al., Reference Pimm, Russell, Gittleman and Brooks1995). Human populations whose survival depends directly on local resource use and consumption often pose a threat to endemic species (Brockington et al., Reference Brockington, Igoe and Schmidt-Soltau2006). In this context the dynamic relationship between land and people creates a complex management environment where protection of threatened species is inextricably linked to human values and behaviour (Hackel, Reference Hackel1999). Conservation organizations working in biodiversity hotspots are increasingly challenged to balance biodiversity conservation with human development goals (Brockington et al., Reference Brockington, Igoe and Schmidt-Soltau2006). Input from local people at the outset can help conservation practitioners and land managers to adapt conservation programmes to benefit humans, wildlife and the unique ecosystems in which they reside. Conversely, limited participation in wildlife management by local communities may lead to negative perceptions of conservation and wildlife (Gillingham & Lee, Reference Gillingham and Lee1999). More research is needed to reveal the importance of a socially inclusive approach to the conservation of threatened species (Brewer, Reference Brewer2002), particularly those existing near protected areas in Africa (Hartter, Reference Hartter2010).

The Upper Guinea forests are a mosaic of tropical forests in West Africa identified as a biodiversity hotspot (Myers et al., Reference Myers, Mittermeier, Mittermeier, da Fonseca and Kent2000). The pygmy hippopotamus Choeropsis liberiensis (hereafter pygmy hippo) is native to these forests and current estimates indicate that 2,000–3,000 individuals remain in the wild (Lewison & Oliver, Reference Lewison and Oliver2012). The Zoological Society of London ranked the pygmy hippo 28th of 100 mammals that have received limited conservation attention, are evolutionarily unique and are in urgent need of conservation action (Isaac et al., Reference Isaac, Turvey, Collen, Waterman and Baillie2007). Habitat loss and fragmentation, poaching, and human–wildlife conflict are considered the major factors contributing to the decline of the pygmy hippo (Mallon et al., Reference Mallon, Wightman, De Ornellas, Collen and Ransom2011).

Little is known about this species, including the specific ecosystem functions it provides. Few people encounter pygmy hippos and local residents rarely see them (Eltringham, Reference Eltringham1999; Hillers & Muana, Reference Hillers and Muana2011). The species is admired for spiritual and aesthetic reasons and is part of the folklore of West African culture (Robinson, Reference Robinson1996; Hillers & Muana, Reference Hillers and Muana2011). Like the common hippopotamus Hippopotamus amphibius, pygmy hippos may affect natural ecosystems at multiple spatial scales by seeking higher-quality vegetation (Lewison & Carter, Reference Lewison and Carter2004) and functioning as seed dispersers and nutrient recyclers by spreading dung (Eltringham, Reference Eltringham1999). Furthermore, funds associated with research and tourism revenues generated by pygmy hippo conservation have the potential to stimulate economic growth, promoting support for conservation initiatives in surrounding communities (Gössling, Reference Gössling1999).

Human–wildlife conflict can hinder conservation efforts, especially in developing countries (Gadd, Reference Gadd2005). Larger herbivores such as the common hippopotamus and the African elephant Loxodonta africana are among the most problematic species because of their ability to cause crop damage and because of the physical threat they pose to humans. For example, farmers in Malawi have negative attitudes towards common hippos because of crop raiding (Mkanda & Kumchedwa, Reference Mkanda and Kumchedwa1997) and respondents in Tanzania believed that elephants were dangerous and offered no benefits to local people (Hill, Reference Hill1998). Given the potential for similar conflicts with pygmy hippos it is imperative to characterize and account for local perceptions.

We investigated the awareness and attitudes of local residents towards pygmy hippos and their conservation in south-eastern Sierra Leone. Focusing on villages adjacent to pygmy hippo habitat in the vicinity of Tiwai Island Wildlife Sanctuary we aimed to (1) assess the nature and extent of human–hippo interactions, including local knowledge of pygmy hippo ecology and behaviour, and (2) characterize public attitudes towards hippo-related benefits and identify demographic and contextual factors influencing perceived benefits.

Study area

Tiwai Island (12 km2) lies in the Moa River, adjacent to the Gola Rainforest National Park (Fig. 1). Land cover on the island comprises bush fallow, palm swamps and secondary forest (Dasilva, Reference Dasilva1992). Near Tiwai Island the river splits into channels as a result of geographical faulting, giving rise to hundreds of islands (Eichenlaub et al., Reference Eichenlaub, Bereten, Oates, Sesay and Palmer1989). The surrounding mainland is a mosaic of secondary forests, upland bush fallow, lowland swamps and cultivated fields.

Fig. 1 Locations of communities along the Moa River, in the vicinity of Tiwai Island, Sierra Leone, where interviews and questionnaires were administered from January 2009 to December 2010. The rectangle on the inset shows the location of the main map in Sierra Leone.

Tiwai Island was designated a Wildlife Sanctuary in 1987 and is jointly owned by eight host communities in Barri and Koya Chiefdoms, who share annual tourism revenues from the island (Oates, Reference Oates1999). After a decade-long civil war ended in 2002 the Environmental Foundation for Africa established management of Tiwai Island by funding a visitor centre and research station and initiated several outreach programmes targeting the eight communities (EFA, 2011).

Residents in this region are primarily farmers who rely heavily on subsistence rice farming but also derive supplementary income from palm oil, cocoa and kola nut cash crops (Leach, Reference Leach1994). Fish is a major component of the diet but bushmeat is also an important source of protein (Davies & Richards, Reference Davies and Richards1991).

Methods

Our study involved two phases over a 2-year time span: semi-structured interviews and questionnaires. Following a pilot test in Kambama village in early January 2009, semi-structured interviews were conducted in the eight host villages during January–June 2009. In the first phase we interviewed 33 people, using a snowball sampling approach, which allowed respondents to recruit further subjects (Biernacki & Waldorf, Reference Biernacki and Waldorf1981). Interviews were conducted by the lead researcher (ALC) and a local research assistant, who translated questions into Mende. Conversations took place in private in people's homes during the early morning or late evening, and typically lasted 20–40 minutes. Interviews (2–9 per village; Table 1) focused on people who were at least moderately familiar with pygmy hippos, and were open-ended, focusing on number and location of encounters with pygmy hippos, knowledge of pygmy hippo ecology, and perceived benefits associated with Tiwai Island and pygmy hippos (Supplementary Material 1). Basic demographic information for interview respondents was recorded. Interviews were used to identify key concepts that informed the development of the broader questionnaire in phase two.

Table 1 Demographic characteristics of respondents in semi-structured interviews (January–June, 2009, n = 33) and questionnaire respondents (August–December, 2010, n = 522) in villages around the Tiwai Island Wildlife Sanctuary, Sierra Leone (Fig. 1).

1 Local people referred to Qur'anic schools or madrassa as Arabic school. We grouped them with primary school because in Sierra Leone the duration of education at both types of school is approximately the same.

2 A native was defined as someone who was born in the surveyed village or in a tributary village; an immigrant was defined as someone born outside these villages (Davies & Richards, Reference Davies and Richards1991).

Following interviews, an outreach programme was delivered in the eight host communities during January–April 2009. The programme complemented the environmental education programmes of the Environmental Foundation for Africa. During the programme we gave a presentation that outlined preliminary results of ongoing research on the pygmy hippo, with the objective of raising awareness of threatened species in the area. In subsequent discussions respondents had an opportunity to ask questions about the research programme and pygmy hippo conservation.

Phase two of the study, in the following year, involved a questionnaire administered across a broader geographical area, extending 32 km from Tiwai Island. Villages further than this along the Moa River did not report the presence of pygmy hippos and logistical constraints made further exploration inappropriate. During this phase we selected 27 villages, including the communities surveyed in phase 1, to participate in face-to-face intercept questionnaires. Villages were selected based on a reconnaissance survey that ranked villages according to willingness to participate and logistical suitability. Respondents were chosen opportunistically, whether or not they were familiar with pygmy hippos, as the research team moved through the village. We visited villages closer to Tiwai Island between late August and early October 2010 and villages > 10 km away between late October and December 2010. Questions about encounters with pygmy hippos, crop damage, and bushmeat consumption included both dichotomous and open-ended items (Supplementary Material 2). Respondents were allowed to give multiple answers to questions about the benefits of pygmy hippos. Items assessing attitudes towards pygmy hippos and hippo conservation were measured on a three-point scale: −1, disagree; 0, unsure; 1, agree. We recorded demographic characteristics, including age, gender, level of education, and resident status.

There were 522 respondents to the phase-two questionnaire. Participation rates were comparable across all sites (12–30 respondents per village), with c. 5% of the estimated population chosen to obtain adequate representation for statistical inferences (Vaske, Reference Vaske2008). Given the lack of official census data, village authorities were asked to provide estimates of village populations. Questionnaires were administered in Mende by three local residents trained in the administration process, each of whom collected c. one-third of the questionnaires.

Data analyses

Responses to semi-structured interview questions were not statistically analysed beyond descriptive frequency results because of the small sample size and the qualitative nature of the data. However, basic descriptive information, including demographics, hippo sightings and general themes of hippo–human interactions that emerged were used to inform the design of the phase-two questionnaire.

We analysed the phase-two data, using SPSS v. 19.0 (SPSS, Chicago, USA). Using χ2 tests of independence we examined differences among individuals in the 27 villages, based on their demographic characteristics. We developed a binary logistic regression model to evaluate the relative influence of multiple predictors, including demographic variables, distance from Tiwai Island and exposure to conservation education programmes, on respondents’ recognition of benefits associated with the conservation of pygmy hippos around Tiwai Island. The outcome variable was a discrete choice between two response options: respondents either recognized benefits associated with pygmy hippos (n = 112) or expressed uncertainty or scepticism regarding hippo-related benefits (n = 406). Cases with missing values on at least one item for the predictors of interest (3.8%) were excluded from the analysis. The question of whether pygmy hippos damage crops was asked using two different methods for cross-validation purposes. Odds ratios were used to compare the probabilities of the respondents’ perceptions based on demographic factors.

Results

Demographic overview

Semi-structured interviews in phase one were primarily conducted with males (94%); when we approached females they were often reluctant to speak, stating they knew nothing of the topic or were unavailable. The mean age of respondents was 41.8 ± SE 13.5 years. In phase two there was a more even distribution between the genders and the mean age was 44.8 ± SE 16.4 years. The level of education was generally low; only 10.1% of respondents had received secondary schooling. Most respondents owned livestock, including sheep, goats and chickens. Mean household size was 7.60 ± SE 4.37 individuals. Demographic ratios within the sample did not differ significantly as distance from Tiwai Island increased and, based on anecdotal evidence from the area, sample characteristics seemed to reflect accurately the population throughout the region.

Pygmy hippo ecology and human–hippo interactions

In semi-structured interviews all respondents reported seeing at least one pygmy hippo in their lifetime, although one respondent saw only a dead hippo. Few (27.2%) had seen a pygmy hippo within the previous year and two had not seen a hippo since the civil war ended in 2002. Of the most recent encounters, most (68.8%) occurred on the mainland, with only 6.3% on Tiwai Island and 15.6% on the smaller islands south of Tiwai Island. Three respondents (9.4%) could not recall where they had seen the hippos.

In response to the questionnaire 35.1% of respondents claimed to have seen at least one pygmy hippo since the previous rainy season, in May 2009, with a mean of 2 ± SE 1.3 hippo sightings per person. Sightings were more commonly reported by respondents within 2.0 km of Tiwai Island than by respondents who were > 15 km away (χ2 = 3.4, df = 1, P = 0.06; Fig. 2). However, distance from the Moa River had no significant influence on the number of sightings of pygmy hippo. Gender was the only significant demographic variable, with males more likely than females to have seen a pygmy hippo since the previous rainy season (χ2 = 30.8, df = 1, P < 0.001).

Fig. 2 Percentage of questionnaire respondents (n = 522) who reported sightings of pygmy hippopotamus Choeropsis liberiensis since the previous rainy season (September 2009), depending on distance from Tiwai Island Wildlife Sanctuary. Questionnaires were administered during August–December 2010. Error bars indicate standard errors.

Respondents in semi-structured interviews provided insight into the foraging behaviour of pygmy hippos. The majority of respondents (93.9%) believed that pygmy hippos consumed crops. Several respondents stated that although pygmy hippos did not often eat crops, their movement through a field in search of okra or sweet potato damaged rice crops. When asked whether it was possible to prevent a pygmy hippo from entering the farm, six respondents believed that building a fence could help but several believed that pygmy hippos could break most fences.

Although the majority of respondents in semi-structured interviews reported that pygmy hippos consumed crops, only 27.8% of the questionnaire respondents believed that pygmy hippos caused crop damage and 7.3% were unsure. Ten people believed pygmy hippos were the most destructive crop pest, far fewer than those implicating cane rats Thryonomys swinderianus and red river hogs Potamochoerus porcus. Reports of hippo-related crop damage differed significantly with distance from Tiwai Island, with crop damage reported more often among villagers further from Tiwai Island (χ2 = 8.5, df = 2, P = 0.01). However, reports of hippo-related crop damage decreased significantly as distance from the Moa River increased (χ2 = 22.5, df = 6, P < 0.01). Males were significantly more likely to report hippo-related crop damage than females (χ2 = 9.8, df = 2, P = 0.007).

When respondents in semi-structured interviews were asked about consumption of hippo meat 14 people (42%) responded they had tried pygmy hippo meat at least once in their lifetime, and respondents acknowledged the sweetness or deliciousness of the meat. However, of 518 questionnaire respondents who answered the question ‘Which wild meat do people catch most often in traps?’ none reported pygmy hippo, and only two people listed pygmy hippo as a preferred source of meat.

Local perceptions of the benefits of pygmy hippo conservation

Many of the respondents in semi-structured interviews (69.7%) believed pygmy hippos offered benefits, including attracting researchers and visitors to the area (30.3%). Four respondents replied that pygmy hippos were valuable for aesthetic purposes as they had physical characteristics, such as smooth skin and neck rolls, similar to human babies and beautiful women. Another respondent believed pygmy hippos brought good luck and two farmers believed that the presence of pygmy hippos could deter agricultural pests such as the cane rat. Several respondents were unsure of direct benefits, but one stated ‘[Pygmy hippos] bring many people like the BBC. If pygmy hippos have no benefit, why would people come from London to search for them?’ Three respondents mentioned that pygmy hippo faeces could be used as fertilizer for their gardens. However, 21.2% of respondents believed that meat was the primary benefit provided by hippos. As one respondent noted: ‘I never get benefit from the pygmy hippo unless…I kill it.’

Overall, only 21.6% of questionnaire respondents recognized benefits to local communities and 9.1% were unsure. In villages near Tiwai Island (n = 368) the most commonly cited benefit was that the pygmy hippos attracted researchers and tourists to the area (Fig. 3). Further from Tiwai Island the only respondent who recognized any benefit from hippos valued only the meat. The most common reasons cited for why pygmy hippos were not beneficial included their relative inutility, the potential danger they posed and the damage they caused to crops.

Fig. 3 Percentage of questionnaire respondents (n = 518) in 27 villages surrounding Tiwai Island Wildlife Sanctuary with positive or negative perceptions of the pygmy hippopotamus. Questionnaires were administered during August–December 2010.

The logistic regression model revealed multiple variables predicting the likelihood of respondents’ recognition of benefits associated with pygmy hippos (Nagelkerke r2 = 0.50), and the relative influence of multiple predictors on respondents’ recognition of benefits related to pygmy hippos (Table 2). Parameter estimates (β) and odds ratios showed that the distance of the respondent from Tiwai Island and exposure to conservation education were the strongest predictors of awareness of hippo-related benefits. Respondents in villages far from Tiwai Island were less likely to recognize benefits associated with hippo conservation than those who lived closer to the island (β = -0.89, df = 1, P < 0.001; Fig. 4). Respondents in villages exposed to conservation education programmes were > 10 times more likely to recognize benefits associated with hippo conservation (β = 2.36, df = 1, P < 0.001). For example, 65.3% of respondents from villages involved in outreach efforts by the Environmental Foundation for Africa and our research team thought that pygmy hippos were beneficial to local communities, compared to 7.9% of respondents in other villages (χ2 = 183.7, df = 1, P < 0.001). Older residents were 1.3 times more likely (β = 0.23, df = 1, P = 0.04) and livestock owners were twice as likely (β = 0.83, df = 1, P = 0.04) to recognize benefits associated with pygmy hippo conservation.

Fig. 4 Percentage of questionnaire respondents (n = 518) in 27 villages with positive or negative perceptions of the pygmy hippopotamus, according to distance from Tiwai Island Wildlife Sanctuary. Questionnaires were administered during August–December 2010.

Table 2 Parameter estimates and odds ratios of the binary logistic regression model for the influence of nine independent variables on the awareness of questionnaire respondents (n = 518) of pygmy hippo-related benefits near Tiwai Island Wildlife Sanctuary (Fig. 1). Tests for multicollinearity among independent predictor variables indicated appropriateness for analysis (tolerance ≥ 0.71, VIF ≤ 1.46). Full model, χ2 = 201.1, df = 9, P < 0.001. A Hosmer and Lemeshow goodness-of-fit test indicated that the observed and predicted group assignments did not differ, χ2 = 5.8, df = 8, P = 0.70.

1 *P < 0.05, **P < 0.01

2 A measure of association between the dependent variable and each independent variable; Cox & Snell r2 = 0.32; Nagelkerke r2 = 0.50

Discussion

Pygmy hippo ecology and human–hippo interactions

Our results suggest that local people are an important source of information regarding pygmy hippo ecology and behaviour. The frequency of sightings of pygmy hippos was inversely related to the distance of respondents from Tiwai Island, which may be attributable to the animal's dependence on the availability of water because of its highly vascular skin, which is prone to dehydration (Eltringham, Reference Eltringham1999). The primary source of water near Tiwai Island is the Moa River and pygmy hippos use many of the smaller islands as refuge (A. Conway, unpubl. data). Therefore pygmy hippos may be more abundant in villages closer to the river, resulting in more frequent sightings. More male respondents encountered pygmy hippos than females, which may be a result of societal activities; men spend more time fishing in the river at dawn and dusk, when pygmy hippos are most active, whereas women fish in social groups in streams and swamps in the middle of the day (Leach, Reference Leach1994).

Although hippos were not viewed as crop pests by local residents, as also found by Hillers & Muana (Reference Hillers and Muana2011), the affinity of pygmy hippos for vegetation in agricultural fields has the potential to result in human–wildlife conflict (Mallon et al., Reference Mallon, Wightman, De Ornellas, Collen and Ransom2011). Crop damage caused by pygmy hippos appeared to be most prevalent closer to the Moa River, which mirrors findings for the common hippopotamus, which is more likely to raid farms near rivers and hippo access points (Kendall, Reference Kendall2011). Negative attitudes towards hippos are often associated with crop damage. For example, farmers in Malawi were intolerant of crop grazing by common hippos and killed or wounded 600 hippos in 4 years (Mkanda & Kumchedwa, Reference Mkanda and Kumchedwa1997). However, lethal control was not an effective preventative method for common hippos (Mkanda, Reference Mkanda1994) and it is an even less acceptable management strategy for pygmy hippos in Sierra Leone, given the species’ Endangered status. However, as forests and swamps are converted to farmland and pygmy hippo habitat is destroyed, human–hippo conflicts may intensify (Norris et al., Reference Norris, Asase, Collen, Gockowksi, Mason, Phalan and Wade2010).

In Sierra Leone wild-caught meat is an important source of income and protein as well as a means of reducing crop damage (Davies & Brown, Reference Davies and Brown2007). Koster et al. (Reference Koster, Hodgen, Venegas and Copeland2010) found that hunters target animals with rich flavour, high fat content and large body mass, characteristics that would predispose pygmy hippos to hunting pressure. Although few respondents claimed to have eaten pygmy hippo meat, there was agreement among all those who had that the meat was delicious. Our surveys may have underestimated the intensity of hunting of the pygmy hippo as respondents may have been hesitant to admit to illegal activities. During our preliminary visits to villages, three of the 27 villages reported recent hunting of the pygmy hippopotamus. The Wildlife Conservation Law of 1972 prohibits hunting of threatened species but does not offer adequate support for implementation and enforcement (USAID, 2007). Although there have been reports of pygmy hippo meat for sale in markets in range countries, the extent of poaching is still unclear (Mallon et al., Reference Mallon, Wightman, De Ornellas, Collen and Ransom2011). Therefore hunting of hippos across all range countries should continue to be monitored.

Local perceptions of the benefits of pygmy hippo conservation

Most study respondents, and particularly those living further from Tiwai Island, did not recognize benefits associated with pygmy hippos. This finding represents a major barrier to pygmy hippo conservation efforts. When residents do not place a positive value on wildlife, perceptions of negative interactions such as crop damage can be exaggerated (Gillingham & Lee, Reference Gillingham and Lee2003). That respondents further away from Tiwai Island were also more likely to report hippos as crop pests could be a reflection of negative attitudes. Nevertheless, we identified certain factors that may increase the likelihood of local support. Livestock owners were generally more positive and were twice as likely to perceive benefits associated with pygmy hippos. Gadd (Reference Gadd2005) reported similar results in a study of elephants in Kenya, noting that pastoralists were more tolerant of large herbivores than farmers whose livelihoods depended solely on agriculture. In the Tiwai area livestock owners generally have supplemental income, which improves their livelihoods, and this could influence their tolerance of wildlife such as hippos (Davies & Richards, Reference Davies and Richards1991; Randolph et al., Reference Randolph, Schelling, Grace, Nicholson, Leroy and Cole2007).

Older residents were more likely to recognize hippo-related benefits, perhaps because they remember the era before the civil war, when numerous foreign researchers were involved in large, multi-year research projects and they experienced a positive association between conservation and foreign investment. These differences highlight the effects of changes in political stability over time on ecotourism and wildlife conservation. For example, nearly twice as many tourists visited Sierra Leone in 1986 compared to 2009 (Shakya, Reference Shakya2009). With fewer visitors reaching Tiwai Island the younger generation has not experienced the economic benefits of conservation. However, anecdotal evidence suggests that recent tourists are attracted by the possibility of seeing pygmy hippos and guidebooks promote the island as a valuable refuge for threatened species (Manson & Knight, Reference Manson and Knight2012).

Ecotourism has been shown to have a positive effect on the attitudes of local people towards conservation in countries such as India (Sekhar, Reference Sekhar2003) and Kenya (Gadd, Reference Gadd2005). These effects are often enhanced by concerted efforts to focus on umbrella species of ecological and socio-economic significance (Walpole & Leader-Williams, Reference Walpole and Leader-Williams2002). Pygmy hippos have international appeal, cultural value and charismatic appearance, which would allow them to function in this capacity, but Sierra Leone's infrastructural limitations are a major barrier to ecotourism. For instance, annual returns from research and tourism at Tiwai Island are c. USD 4,000, which is barely enough to cover basic maintenance costs (EFA, 2011). Although opportunity for improvement exists, research in other areas suggests that people may revert to previous consumptive behaviours when potential economic gains are not realized (Pretty & Smith, Reference Pretty and Smith2004). Reports by community members also indicate that poaching and diamond mining on Tiwai Island are increasing. With little law enforcement and minimal conservation revenue, these activities may escalate and continue to threaten the sustainability of Tiwai Island as a protected area.

Our results indicate that conservation education programmes by the Environmental Foundation for Africa during 2006–2010 and the additional programmes provided by our team generated support for conservation of pygmy hippos around Tiwai Island. Formal education is uncommon in the study area and, when it does occur, little attention is given to the environment (Skuce, Reference Skuce2002). Alternative delivery mechanisms should therefore be considered, particularly those with a core message that resonates with local stakeholders, such as an ecosystem benefits approach (Mertz et al., Reference Mertz, Ravnborg, Lövei, Nielsen and Konijnendijk2007). Furthermore, because pygmy hippo habitat extends well beyond the boundaries of Tiwai Island, support for conservation efforts from stakeholders outside the sanctuary is critical. Pygmy hippos would probably benefit from a collaborative initiative by conservation and governmental organizations in Sierra Leone to expand management objectives and outreach efforts further away from protected areas, integrating socio-cultural considerations and human dimensions into landscape-level conservation practices (Mallon et al., Reference Mallon, Wightman, De Ornellas, Collen and Ransom2011).

Implications

The results from our study are being disseminated to stakeholders in Sierra Leone and across pygmy hippo range countries via newsletters, peer-reviewed articles and conferences. The Environmental Foundation for Africa received funding for environmental education outreach focused on pygmy hippos in the Tiwai Island area and ongoing research and education-oriented programmes in other range countries are also contributing to the growing knowledge base (e.g. Gola Forest Programme in Sierra Leone, the Zoological Society of London and Fauna & Flora International in Liberia, Sylvatrop in Guinea and IBREAM in Côte d'Ivoire). At a meeting for the creation of the IUCN Conservation Strategy for the Pygmy Hippopotamus in 2010, stakeholders, conservation organizations, researchers and government officials assembled to determine the threats to the pygmy hippo and the conservation actions required (Mallon et al., Reference Mallon, Wightman, De Ornellas, Collen and Ransom2011). Since this multinational meeting researchers from several organizations have collaborated on the first national pygmy hippopotamus conservation strategy in Liberia, which details the conservation status, current threats and activities to address these issues (Hodgkinson et al., Reference Hodgkinson, Mallon, Vogt and Ransom2013). On-going research programmes are being conducted by these organizations in Sapo National Park in Liberia, Tai National Park in Côte d'Ivoire, and Gola Rainforest National Park in Sierra Leone to further assess conservation needs and population status. Building on our research on the pygmy hippopotamus in Sierra Leone, future research should continue to explore the dynamic ways engagement with local people can enhance or detract from the conservation of threatened species in biodiversity hotpots.

Acknowledgements

Funding was provided by the University of Georgia, Conservation International, Mohamed bin Zayed Species Conservation Fund, the Fulbright Program, Riverbanks Zoo Conservation Support Fund, Columbus Zoo and Aquarium Conservation Fund, Oregon Zoo Future for Wildlife grants programme, the Oklahoma Zoo Conservation Action Now small grant programme, IUCN/SSC Hippo Specialist SubGroup, and Minnesota Zoo Ulysses S. Seal Fund. We would also like to acknowledge the Environmental Foundation for Africa and the Tiwai Island Administrative Committee for their logistical support, and the Ministry of Agriculture, Forestry and Food Security for their permission and support for the project. We thank the survey administrators, Kenewa Koroma I and II, Sulaiman Feika, Mohamed Lahai, Mohamed Koroma, Bockary Koroma and Minah Conteh for their assistance with data collection, and the residents of Barri, Koya, Gallinas Peri and Dama Chiefdoms for their hospitality and cooperation.

Biographical sketches

April Conway's research interests include human–wildlife interactions adjacent to protected areas and international issues in the conservation of threatened species. Sonia Hernandez's research interests include how pathogens affect wildlife populations, communities and ecosystems, primarily with an applied perspective. John Carroll's interests include how wildlife is affected by human management of environments, and international issues in wildlife conservation. Gary Green's research focuses on the use and protection of natural resources and public lands, especially the effects of recreational activities on natural resources. Lincoln Larson's research interests focus on social science issues in conservation, including environmental education and human dimensions of natural resource management.

References

Biernacki, P. & Waldorf, D. (1981) Snowball sampling: problems and techniques of chain referral sampling. Sociological Methods & Research, 10, 141163.CrossRefGoogle Scholar
Brewer, C. (2002) Outreach and partnership programmes for conservation education where endangered species conservation and research occur. Conservation Biology, 16, 46.Google Scholar
Brockington, D., Igoe, J. & Schmidt-Soltau, K. (2006) Conservation, human rights, and poverty reduction. Conservation Biology, 20, 250252.Google Scholar
Dasilva, G.L. (1992) The western black-and-white colobus as a low-energy strategist: activity budgets, energy expenditure and energy intake. Journal of Animal Ecology, 61, 7991.CrossRefGoogle Scholar
Davies, A.G. & Richards, P. (1991) Rain Forest in Mende Life: Resources and Subsistence Strategies in Rural Communities Around the Gola North Forest Reserve (Sierra Leone). Overseas Development Administration, Freetown, Sierra Leone.Google Scholar
Davies, G. & Brown, D. (eds) (2007) Bushmeat and Livelihoods: Wildlife Management and Poverty Reduction. Blackwell Publishing, Oxford, UK.CrossRefGoogle Scholar
EFA (Environmental Foundation for Africa) (2011) The Environmental Foundation for Africa: Projects and Activities Report. Environmental Foundation for Africa, Freetown, Sierra Leone.Google Scholar
Eichenlaub, B., Bereten, M., Oates, J.F., Sesay, A. & Palmer, P. (1989) Tiwai Island Wildlife Sanctuary Statement for Management. Unpublished report. Tiwai Island Administrative Committee. Freetown, Sierra Leone.Google Scholar
Eltringham, S.K. (1999) The Hippos: Natural History and Conservation. Princeton University Press, Princeton, USA.Google Scholar
Gadd, M.E. (2005) Conservation outside of parks: attitudes of local people in Laikipia, Kenya. Environmental Conservation, 32, 5063.Google Scholar
Gillingham, S. & Lee, P.C. (1999) The impact of wildlife-related benefits on the conservation attitudes of local people around the Selous Game Reserve, Tanzania. Environmental Conservation, 26, 218228.Google Scholar
Gillingham, S. & Lee, P.C. (2003) People and protected areas: a study of local perceptions of wildlife crop-damage conflict in an area bordering the Selous Game Reserve, Tanzania. Oryx, 37, 316325.Google Scholar
Gössling, S. (1999) Ecotourism: a means to safeguard biodiversity and ecosystem functions? Ecological Economics, 29, 303320.Google Scholar
Hackel, J.D. (1999) Community conservation and the future of Africa's wildlife. Conservation Biology, 13, 726734.Google Scholar
Hartter, J. (2010) Resource use and ecosystem services in a forest park landscape. Society & Natural Resources, 23, 207223.Google Scholar
Hill, C.M. (1998) Conflicting attitudes towards elephants around the Budongo Forest Reserve, Uganda. Environmental Conservation, 25, 244250.Google Scholar
Hillers, A. & Muana, A. (2011) Across the River—a Transboundary Peace Park for Sierra Leone and Liberia. ARTP, Kenema, Sierra Leone.Google Scholar
Hodgkinson, C., Mallon, D., Vogt, T. & Ransom, C. (2013) First national conservation strategy for the pygmy hippopotamus in Liberia. Oryx, 47, 479.Google Scholar
Isaac, N.J., Turvey, S.T., Collen, B., Waterman, C. & Baillie, J.E. (2007) Mammals on the EDGE: Conservation priorities based on threat and phylogeny. PLoS ONE, 3, e296.CrossRefGoogle Scholar
Kendall, C.J. (2011) The spatial and agricultural basis of crop raiding by the Vulnerable common hippopotamus Hippopotamus amphibius around Ruaha National Park, Tanzania. Oryx, 45, 2834.CrossRefGoogle Scholar
Koster, J., Hodgen, J., Venegas, M. & Copeland, T. (2010) Is meat flavor a factor in hunters' prey choice decisions? Human Nature, 21, 219242.Google Scholar
Leach, M. (1994) Rainforest Relations: Gender and Resource use Among the Mende of Gola, Sierra Leone. Edinburgh University Press, Edinburgh, UK.Google Scholar
Lewison, R.L. & Carter, J. (2004) Exploring behaviour of an unusual megaherbivore: a spatially explicit foraging model of the hippopotamus. Ecological Modelling, 171, 127138.Google Scholar
Lewison, R. & Oliver, W. (2012) Choeropsis liberiensis. In IUCN Red List of Threatened Species v. 2012.1. Http://www.iucnredlist.org [accessed 17 August 2012].Google Scholar
Mallon, D., Wightman, C., De Ornellas, P., Collen, B. & Ransom, C. (2011) Conservation Strategy for the Pygmy Hippopotamus. IUCN Species Survival Commission, Gland, Switzerland, and Cambridge, UK.Google Scholar
Manson, K. & Knight, J. (2012) Sierra Leone, 2nd edition. Bradt Travel Guides, Chalfont St Peter, UK.Google Scholar
Mertz, O., Ravnborg, H.M., Lövei, G.L., Nielsen, I. & Konijnendijk, C.C. (2007) Ecosystem services and biodiversity in developing countries. Biodiversity and Conservation, 16, 27292737.CrossRefGoogle Scholar
Mkanda, F. (1994) Conflicts between hippopotamus (Hippopotamus amphibius (L.)) and man in Malawi. African Journal of Ecology, 32, 7579.Google Scholar
Mkanda, F. & Kumchedwa, B. (1997) Relationship between crop damage by hippopotamus (Hippopotamus amphibius L.) and farmer complaints in the Elephant Marsh. Journal of African Zoology, 111, 2738.Google Scholar
Myers, N., Mittermeier, R.A., Mittermeier, C.G., da Fonseca, G.A.B. & Kent, J. (2000) Biodiversity hotspots for conservation priorities. Nature, 403, 853858.Google Scholar
Norris, K., Asase, A., Collen, B., Gockowksi, J., Mason, J., Phalan, B. & Wade, A. (2010) Biodiversity in a forest–agriculture mosaic—the changing face of West African rainforests. Biological Conservation, 143, 23412350.Google Scholar
Oates, J.F. (1999) Myth and Reality in the Rain Forest: How Conservation Strategies are Failing in West Africa. University of California Press, Berkeley, USA.Google Scholar
Pimm, S.L., Russell, G.J., Gittleman, J.L. & Brooks, T.M. (1995) The future of biodiversity. Science, 269, 347350.Google Scholar
Pretty, J. & Smith, D. (2004) Social capital in biodiversity conservation and management. Conservation Biology, 18, 631638.Google Scholar
Randolph, T.F., Schelling, E., Grace, D., Nicholson, C.F., Leroy, J.L., Cole, D.C. et al. (2007) Invited review: Role of livestock in human nutrition and health for poverty reduction in developing countries. Journal of Animal Science, 85, 27882800.Google Scholar
Robinson, P.T. (1996) River horses and water cows. In The Pepper Bird, pp. 56. Society for the Renewal of Nature Conservation in Liberia–USA, San Diego, USA.Google Scholar
Sekhar, N.U. (2003) Local people's attitudes towards conservation and wildlife tourism around Sariska Tiger Reserve, India. Journal of Environmental Management, 69, 339347.Google Scholar
Shakya, M. (2009) Competitiveness assessment of tourism in Sierra Leone: a cluster-based approach. Policy research working paper. The World Bank, Washington, DC, USA.Google Scholar
Skuce, N. (2002) Rebuilding after war: environmental education in Sierra Leone. Green Teacher, 69, 4143.Google Scholar
USAID (United States Agency for International Development) (2007) Biodiversity and Tropical Forest Assessment for Sierra Leone. Http://www.encapafrica.org/documents/biofor/Sierra_Leone_118_119_July_2007.pdf [accessed 28 November 2011].Google Scholar
Vaske, J.J. (2008) Survey Research and Analysis: Applications in Parks, Recreation and Human Dimensions. Venture Publishing, State College, USA.Google Scholar
Walpole, M.J. & Leader-Williams, N. (2002) Tourism and flagship species in conservation. Biodiversity and Conservation, 11, 543547.Google Scholar
Figure 0

Fig. 1 Locations of communities along the Moa River, in the vicinity of Tiwai Island, Sierra Leone, where interviews and questionnaires were administered from January 2009 to December 2010. The rectangle on the inset shows the location of the main map in Sierra Leone.

Figure 1

Table 1 Demographic characteristics of respondents in semi-structured interviews (January–June, 2009, n = 33) and questionnaire respondents (August–December, 2010, n = 522) in villages around the Tiwai Island Wildlife Sanctuary, Sierra Leone (Fig. 1).

Figure 2

Fig. 2 Percentage of questionnaire respondents (n = 522) who reported sightings of pygmy hippopotamus Choeropsis liberiensis since the previous rainy season (September 2009), depending on distance from Tiwai Island Wildlife Sanctuary. Questionnaires were administered during August–December 2010. Error bars indicate standard errors.

Figure 3

Fig. 3 Percentage of questionnaire respondents (n = 518) in 27 villages surrounding Tiwai Island Wildlife Sanctuary with positive or negative perceptions of the pygmy hippopotamus. Questionnaires were administered during August–December 2010.

Figure 4

Fig. 4 Percentage of questionnaire respondents (n = 518) in 27 villages with positive or negative perceptions of the pygmy hippopotamus, according to distance from Tiwai Island Wildlife Sanctuary. Questionnaires were administered during August–December 2010.

Figure 5

Table 2 Parameter estimates and odds ratios of the binary logistic regression model for the influence of nine independent variables on the awareness of questionnaire respondents (n = 518) of pygmy hippo-related benefits near Tiwai Island Wildlife Sanctuary (Fig. 1). Tests for multicollinearity among independent predictor variables indicated appropriateness for analysis (tolerance ≥ 0.71, VIF ≤ 1.46). Full model, χ2 = 201.1, df = 9, P < 0.001. A Hosmer and Lemeshow goodness-of-fit test indicated that the observed and predicted group assignments did not differ, χ2 = 5.8, df = 8, P = 0.70.

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