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Local knowledge, pattern and diversity of use of Sclerocarya birrea

Abstract

Background

Growing interest is on food tree species in general, and particularly indigenous fruit tree species in developing countries since they are inherent to most tropical landscapes and serve the dual function of local livelihood support and biodiversity conservation. It is therefore relevant to assess the level of integration of these species in local cultures and the factors affecting them. This study aims at assessing knowledge and uses of Sclerocarya birrea subsp. birrea and factors affecting the use values within and between communities.

Methods

This study combines quantitative and qualitative ethnobotanical approaches to investigate uses and factors affecting the use value of S. birrea subsp. birrea. Nine group discussions as well as 161 individual interviews were held in the dry and typical Sudanian zones. Seven different ethnic groups were involved and the survey focused on local uses and perception of factors affecting the dynamics of S. birrea.

Results

The species has a multitude of uses; all organs are used for more than 20 different purposes. The study highlights how gender, local availability, ethnicity and community location interact to influence the utilization value of the species. People living in drier areas with high occurrence of the S. birrea use it more than those living in wetter areas with low occurrence. While domestic and subsistence uses do not appear to threaten the species, carving, clearing and drought stand out as the major causes of its decline.

Conclusions

Many factors and their interactions influence the use pattern of the species within and between communities. When compared to the level of exploitation of S. birrea subsp. caffra in southern Africa, the subspecies birrea is at this point relatively underutilized. A high commercial potential exists due to its simple propagation ability and makes it an interesting agroforestry resource.

Background

Growing interest is on food tree species in general, and particularly indigenous fruit tree species in developing countries since they are inherent to most tropical landscapes and serve the dual function of local livelihood support and biodiversity conservation [1]. More information on these trees would enhance their value in agricultural landscapes by helping farmers improve their livelihoods and ensuring environmental sustainability. Therefore, there is a need to settle a general framework for the conservation of these tree species.

Understanding how a community uses a resource and what influences the level of its use is crucial for developing a framework for its sustainable use based on local demands [2]. Previous studies have revealed that both consumptive and non-consumptive values derived from plant species are influenced by many factors which can be of socio-cultural, economical or ecological importance [3–5]. These studies have come to the conclusion that factors such as gender, age, localization, ethnic affiliation, marketability and proximity with other ethnic groups can interact to influence the use value of a given plant species. Based on the hypothesis of "local apparency" [6] which considers plants as resource and herbivores as consumers, it was found that local availability of a plant can influence local consumers behavior [6, 7]. However, relationship between local availability and use values was found to be weak in others cases [2, 8]. Taking into account results from these previous studies which highlight that plant species are not valued equally by local communities, we have assumed that the patterns of use of Sclerocarya birrea would be influenced by the above-mentioned factors.

Sclerocarya birrea (A. Rich) Hochst is a species with multifaceted uses which is recognized as a commercially, medicinally and culturally important plant species in Africa [9, 10]. It has been identified as one of the five fruit tree species that should be integrated in the domestication process in farming systems in Africa to support nutritional, health and income security [11]. However, while there is a real initiative to exploit the subspecies caffra in the eastern and southern Africa, the subspecies birrea remains very much underutilized and less studied in western Africa. Previous researches have documented the population structure and abundance of the species in relation to land use and variation in chemical and phenotypic characteristics of its fruits in West Africa [12–14], but less is known on the pattern of use of S. birrea and how its use value varies among various ethnic groups throughout its distribution range in West Africa. We aim at combining quantitative and qualitative ethnobotanical approaches to assess knowledge and uses of Sclerocarya birrea subsp. birrea. Specifically, we aim at assessing i) the various uses and knowledge on the species ii) how local people perceive the decline of the species and iii) the factors affecting the use values within and between communities.

Methods

Study species

Sclerocarya birrea (A.Rich) Hochst belongs to the Anacardiaceae family. The genus Sclerocarya is a strictly African/Malagasy. S. birrea is a small to medium-sized, usually dioecious tree. It can reach up to 20 m in height and 1.2 m in diameter. The bole is usually short with ramifications from two to four metres height when isolated [14, 15]. Three subspecies of S. birrea are recognized throughout its distribution range [16]. This study focuses on S. birrea subsp. birrea, the western African taxon hereafter referred to as S. birrea.

Study area

This study was carried out in the northern part of the Republic of Benin, between 10°17-12°25N and 0°45-3°51 E, which represents the distribution range of the species in Benin [17]. The study site stretches from the dry Sudanian climate in the northern side to the typical Sudanian climate in the southern side. The climate in southern side has about seven-month dry period with a mean annual rainfall of 1,000 mm. The mean annual temperature is 28°C and the vegetation is composed mostly of open shrub and tree savannas. The northern side has a dry sudanian climate with seven to eight month dry period and a mean annual rainfall of 650 mm. The mean annual temperature is about 30°C and the vegetation is characterized by grasslands and open shrub lands with sparse trees. We will hereafter refer to northern and southern zones as the dry Sudanian and Sudanian zones. The population of dry Sudanian zone was composed of the following ethnic groups; Dendi (Zerma), Fulani, Gourmanche and the Sudanian zone contained the Wama, Berba, M'bermè and Gourmanche ethnic groups. Fulani were pastoralists, while other ethnic groups were mostly agriculturalists. The study area encompassed the two main wildlife reserves in Benin: Pendjari National Park and W National Park (Figure 1).

Figure 1
figure 1

Study sites with location of the two main protected areas.

Data collection

In the dry Sudanian zone, structured interviews were carried out with informants from representative socio-cultural groups: Dendi, Gourmanche, and Fulani. The sample included the major professional groups (farmers, traditional healers, cattle breeders, fishermen, and craftsmen) with respect to gender. Interviews were conducted either individually or in groups. Nine group discussions with a total of 107 participants as well as 161 individual interviews were conducted (Table 1). Participants in the group discussions were not chosen for individual interviews and vice versa. Some immigrant carvers from Niger (neighboring country of Benin) known to specifically seek S. birrea wood for carving in the dry seasons were included in the individual interviews. The survey focused on the investigation of local name of the species, which parts are used, the processing methods, the purpose of use, and how people perceived the decline of the species in time. To get an estimate of the presence index for the species in the survey area (mainly in farmland), each informant was asked whether he/she had at least one individual S. birrea tree on their farms and was asked to indicate the part of the plant that was used most frequently. In the Sudanian zone, the minimum sample size was calculated using exploratory analysis of data collected in the dry Sudanian zone. Pictures of the leaves and fruits of the species (Figure 2) were kept and shown to each informant as the species is less common in the Sudanian zone compared to the dry Sudanian zone. The objective was to dispel any confusion with other species. Interviews were conducted on an individual basis and were identical to those carried out in the first zone. Interviews were conducted in the local language (Table 1) through local translators.

Table 1 Different ethnic groups, local names of Sclerocarya birrea and details of sampling (individual and group interviews) in the study zones
Figure 2
figure 2

Pictures of leaves and fruits of Sclerocarya birrea used for quick recognition of the species by local people during the survey.

Data analysis

We used a multiple use curve [18] to check whether the essential part of the available information on the species had been collected. This curve plotted the cumulative number of new uses recorded against the number of informants. The value at which the curve became asymptotic was taken as the minimal sample size for data collection in the second phase of the study. Multiple use curves were also derived from the second phase data. The multiple-use curve reached its asymptotic value at 33 interviews in the dry Sudanian zone and 17 interviews in the Sudanian zone.

To analyze the use values of the species, we regrouped the uses into broad categories, where each category contained uses of a similar nature. In this way, four main categories were created, namely; food, medicine, carving and firewood. Food and medicinal categories refer to use by both humans and animals.

Recorded uses were also divided into three separate temporal groups: past, current, and potential. Past uses were defined as those that had been used in the past but are no longer in use. Potential uses were defined as those that had a potential for future use and current uses were defined as those known to still be in use.

The use importance of the species per zone and comparison among sites were assessed using the use value (UV) [6] defined as:

UV = ∑ UVi N

UVi represents the use value of the species for a single informant. UVi is obtained as the sum of the number of different uses mentioned by the informant i, where N the total number of informants. Only current uses were included in the calculation of the use values to reflect the realized value. In order to satisfy statistical independence requirement, participants interviewed during group discussions were not included. Use values were calculated for each category of use and for all categories pooled together. Use values were compared between study zones by means of non-parametric Mann-Whitney U tests. The overall gender specific use value was also computed and compared using the student t-test.

The answer rates per specific use defined as the fidelity level (FL) [19] in each study zone have been expressed as:

FL (%) = n N * 100

Where n is number of informants related to a specific use and N = total number of informants. We used the Fisher exact test (PROC FREQ in SAS) to test whether fidelity levels differed between study zones. The index of presence was taken as the percentage of informants having S. birrea on their farm.

Results

Ethnoecological knowledge on Sclerocarya birrea

Local names

Different local names were attributed to the species according to the ethnic groups (Table 1). The local name "Morou-Morou" in Dendi (Zerma) means sour and is descriptive of the taste of the fruits as perceived by local people. The name "Luley" was associated more with the kernel than to the entire fruit. In Gourmantché, the local names showed a distinction in the sex of the species: "Bunamangjabu" for male individuals and "Bunamanshiabu" for females.

Local perception of occurrence habitat and decline

S. birrea was reported to be present in open farmlands and in natural vegetation. When used for fence purposes, the species could regenerate in homesteads. Saplings were mainly reported to occur in fields left fallow. According to farmers, the species was scarce in quasi-permanently flooded areas, hills and gallery forest. The presence index of the species in agricultural farmlands was 74% in the dry Sudanian zone and 30% in the Sudanian zone.

Almost all (98%) informants stated that the population of S. birrea has declined in recent times both in abundance and in distribution. The factors purportedly responsible for this decline were both anthropogenic (agriculture, felling for carving and grazing) and natural (decrease in soil fertility, natural death and drought) (Figure 3).

Figure 3
figure 3

Factors responsible of the decline in the population of Sclerocarya birrea according to local users.

Agricultural factors contributing towards the decline included the destruction of natural habitat for conversion into cultivated land and by burning, ring-barking and removing S. birrea seedlings and saplings during farming activities.

Diversity and pattern of use

Past, current and potential uses

Although about 36 specific uses were recorded for the species throughout its distribution range, 21 of these were found to be significant (FL > 5%). The number of significant uses was greater in dry Sudanian zone (20 uses) than in the Sudanian zone (14 uses). The four defined use categories (food, medicine, firewood and carving) were represented in both studies zones. S. birrea was a multipurpose species with almost all organs used. The proportion of use of each plant organ varied per study zone. The bark, the wood and the leaves had multiple forms of use but the fidelity levels were rarely above 50%. The bark was the most frequently used organ, being used to treat ailments which are mostly bacteria-related (stomach aches, diarrhea, wounds, coughs) (Table 2). The fruits and kernels, on the contrary, were used almost exclusively for a single purpose and showed the highest fidelity level (up to 100%). The processing form, the use form, and the specific purpose of uses were fairly similar across study zones but there was a significant difference in the fidelity level of uses across study zones (Figure 4; Table 2).

Table 2 Different plant organs used, processing methods, forms of uses, purpose of use and fidelity level (FL) of uses of Sclerocarya birrea per study zone
Figure 4
figure 4

Number of significant uses made of each organ of Sclerocarya birrea.

Carvings of items such as spoons, plates and even shoes were reported to be used in the past but no longer in the dry Sudanian zone. The use of juice for making alcoholic beverages was no longer in practice in the Sudanian zone, whereas it was considered as potential use for S. birrea in the dry Sudanian zone.

Use value of Sclerocarya birrea

There was a significant difference in the overall use value and use values per category between study zones (Table 3). The highest overall use value was recorded in the dry Sudanian zone, which also displayed the greatest food, carving and medicinal use values. There was no significant gender-based difference in the overall use value of the species between the two zones. However, women use the species for firewood significantly more than men. In contrast, men cited uses for carving more often than women.

Table 3 Use value of Sclerocarya birrea per study zone in Benin

Utilization of organs such as fruits, kernels and leaves were seasonal while the bark, the wood and roots could be used year-round. Although the cultural or worship value was not widespread, the wood of S. birrea was used frequently during funeral ceremonies in the dry Sudanian zone. S. birrea also plays an important role in animal rearing in both study zones. Leaves were often used as forage for livestock (sheep and goats) mainly at the beginning of rainy seasons when animals are penned to prevent the destruction of newly sowed crops.

Discussion

Uses and ethnoecological knowledge

S. birrea showed a multiple use pattern. Most of the recorded uses have been reported for the subspecies caffra (Marula) throughout its range [16]. However, the use of the species as a means for stimulating milk production in nursing women (galactagogue effect) appears to be a new finding in this study.

Some ethnic-specific names convey the way in which the species is perceived by local people and can be an indicator of how integrated the species is in their culture. The uses of S. birrea are currently only for subsistence purposes. The fruit and kernel have high commercial potential, though they are actually being underutilized. They are used almost only for a single subsistence purpose (Figure 4) while they are already commercially exploited in Southern Africa [16]. The low number of potential uses cited by informants indicates the limited awareness of the species' potential by local people. Our results show that some types of uses have become redundant (past uses), because the items formerly made by hand (spoons, plates, and rosaries) using the wood of S.birrea have been replaced by other items made from plastic or steel. This explains how specific knowledge about plant uses can be lost over time.

The majority of interviewees acknowledged that the S. birrea population has declined over time. The main reported causes by local people concur with others findings, where the decrease in rainfall and human pressure are well known causes of the decline in tree species in the sub or semi arid regions of West Africa [20]. Anthropogenic threats particularly land clearance for agricultural purposes stands as one of the main causes of the decline in both study zones. Moreover, these threats are enhanced in the semi-arid region by the use of the S. birrea for carving purposes.

Use value difference within and between study zones

Our study revealed that the highest use values of the species were found in the dry Sudanian zone which also corresponds to where the species had the highest abundance in agroforestry systems. This suggests a positive relationship between plant abundance and use. These findings corroborate the "apparency hypothesis" which describes dominant, large and more abundant plant species as having the highest use values. This is not necessarily because of their inherent value, but because they are more visible or available to communities [6, 7]. Populations in the Sudanian zone have alternative plant species which can meet their needs. S. birrea was replaced as a source of wood to be carved by another woody species more resistant and more suitable for some craft items (mortars, pestles) such as Prosopis africana. On the contrary, in the dry Sudanian zone, S. birrea is one of the most readily available, largest and most dominant trees found in agroforestry systems [14] and is used a lot in carving activities.

S. birrea was cited for use as firewood by women than by men. However, more men cited it's application for carving purposes (mainly agricultural tools) than women. This is consistent with the idea of that the division of labor by gender and gender specific use of landscape are likely to induce variation in the use pattern of a resource within a community [21]. This difference in knowledge was again apparent in the use of leaves as a stimulant for milk production in nursing women which was known almost exclusively by women.

One of the most widely reported factors likely to result in a difference in the use value of plant between communities is ethnicity [22, 3, 4]. However, the difference in use values, as we observed between zones, was not strongly related to the ethnic difference as in the case of African baobab in the same study zone [3]. For example the Gourmanché ethnic group present in both study zones did not display similarity in use value or in the method of use. Their use patterns were rather comparable to that of neighboring ethnic groups and were especially due to intercultural mixing which is a function of location.

Importance of the species and implications for sustainable use

Despite the observed difference in the use patterns of S. birrea, all four of the important defined use categories were represented in both study zones. The medicinal use stood out as the most important use in both study zones. This form of use is consistent with previous findings [9, 23] which concluded that extract of bark, root and leaves of Marula had a significant effect on bacterial growth. The reported treatment of diabetics with the bark reflects the local knowledge of the hypoglycemia inducing activity of the species as validated by scientific experiments [9, 24].

The fruit and kernels of S. birrea appeared to be the most widely used organs (FL up to 100%), mainly by children and this confirmed that the species is an important component of the rural diet in several areas where it is found [25, 26]. Furthermore, the nutrient analysis of the different components of the fruit showed that the juice of Marula contains 2 to 10 times the amount of ascorbic acid found in orange juice and a higher antioxidant capacity than other species commonly thought to be rich in antioxidant [27]. The kernels of S. birrea contain 47% to 56% fatty acid (from the dry weight) and contain many minerals that are beneficial for humans in relatively high proportions [28–30]. Its protein content (28 to 36.4%) is one of the highest found in more than 75 edible plants of the western Sahel [31, 32, 30].

In the dry Sudanian zone where the availability of large woody trees species is limited, S. birrea wood is of particular importance, as is evident by its multitudinous uses mainly in carving with higher FL compared to the Sudanian zone. This diversity of use of the wood has also been reported for Marula in southern and eastern Africa [33, 16].

While demographic factors are most frequently reported as proximate causes of tropical deforestation [34], they are not independent of economic factors. If rates of biodiversity loss are to be slowed; economic incentives must play a central role in policy measures [35]. When a resource becomes economically important, the notion of property right can arise and may contribute to its conservation [36]. In the case of S. birrea, there is currently no economic return for local people as incentive to protect the species. Only immigrant carvers receive cash from the sale of some products (seats and mortars) that they carve from the wood. In spite of the local forestry protection law, they still consider the species as an open access resource and neglect to get the logging license required for harvesting the wood. This means that, they have unrestricted access to the species and it only profits them. In such situations, the "tragedy of the common" often prevails and overexploitation is a common result [37]. Thus, a framework for economic and effective exploitation of the species stands as one of the best policies by which to ensure its conservation.

Conclusion

S. birrea subsp. birrea showed a multiple use pattern as do many of the important indigenous fruit tree species in West African rural areas. Its ability to provide people with two of their fundamental needs (food and medicine) and its potential to generate cash income make it a particularly important tree species which deserves more attention in terms of exploitation. Despite its current multitude of uses, S. birrea still remains underutilized in the light of the potential it has. For instance, the commercial use has been mentioned nowhere in the study zones although economic use of Marula in southern Africa has been strongly demonstrated in the literature. Currently, the quantity of fruits consumed is insignificant relative to the quantity of fruit produced each season (Gouwakinnou, unpublished data). All this unused fruit is doomed to rot, and a part of it is consumed by sheep, goats and wild animals. According to research conducted in South Africa, the value of Marula, as cash income through trade, varies from US$15 to US$166 per household per season of fruit collection and processing [38]. So far, it is still unclear how S. birrea subsp. birrea differ from S. birrea subsp. caffra and how this difference could be translated in their agronomic performance.

This study showed that while the use pattern of a species can be ethnically determined, many other factors such as the geographic location, the neighboring ethnic groups or the local availability (determined here by climatic conditions) of surrogate species in the proximate environment are also likely to influence the use value of a given plant species. Cautions should then be taken while drawing conclusions about the factors affecting the use pattern of a species and biodiversity in general, because environmental and context specific socio-cultural factors interact.

References

  1. World Agroforestry Centre: Transforming Lives and Landscapes. Strategy 2008-2015. 2008, Nairobi

    Google Scholar 

  2. Lucena RF, Araùjo PEL, Albuquerque UP: Does the Local Availability of Woody Caatinga Plants (Northeastern Brazil) Explain Their Use Value?. Economic Botany. 2007, 61 (4): 347-361. 10.1663/0013-0001(2007)61[347:DTLAOW]2.0.CO;2.

    Article  Google Scholar 

  3. De Caluwe E, De Smedt S, Assogbadjo AE, Samson R, Sinsin B, Van Damme P: Ethnic differences in use value and use patterns of baobab (Adansonia digitata L.) in northern Benin. African Journal of Ecology. 2009, 47: 433-440. 10.1111/j.1365-2028.2008.01023.x.

    Article  Google Scholar 

  4. Vodouhê FG, Coulibaly O, Greene C, Sinsin B: Estimating the local value of non-timber forest products to pendjari biosphere reserve dwellers in Benin. Economic Botany. 2009, 63 (4): 397-412.

    Article  Google Scholar 

  5. Camou-Guerrero A, Reyes-García V, Martínez-Ramos M, Casas A: Knowledge and use value of plant species in a rarámuri community: a gender perspective for conservation. Human Ecology. 2008, 36: 259-272. 10.1007/s10745-007-9152-3.

    Article  Google Scholar 

  6. Phillips O, Gentry AH: The useful plants of Tambopata, Peru: I. Statistical hypotheses tests with a new quantitative technique. Economic Botany. 1993, 47: 15-32. 10.1007/BF02862203.

    Article  Google Scholar 

  7. Galeano G: Forest use at the pacific coast of chocb, colombia: a quantitative approach. Economic Botany. 2000, 54: 358-376. 10.1007/BF02864787.

    Article  Google Scholar 

  8. Cunha LVE, Albuquerque UP: Quantitative ethnobotany in an atlantic forest fragment of northeastern brazil-implications to conservation. Environmental Monitoring and Assessment. 2006, 114: 1-25. 10.1007/s10661-006-1074-9.

    Article  PubMed  Google Scholar 

  9. Ojewole JAO, Mawoza T, Chiwororo WDH, Owira PMO: Sclerocarya birrea (A. Rich) Hochst. ['Marula'] (Anacardiaceae): a review of its phytochemistry, pharmacology and toxicology and its ethnomedicinal uses. Phytotherapy Research. 2010, 24: 633-639.

    PubMed  CAS  Google Scholar 

  10. National Research Council: Lost Crops of Africa: Fruits. Volume III. 2008, Washington, The National Academy Press

    Google Scholar 

  11. Jama BA, Mohamed AM, Mulatya J, Njui AN: Comparing the ''Big Five'': A framework for the sustainable management of indigenous fruit trees in the drylands of East and Central Africa. Ecological Indicators. 2008, 8: 170-179. 10.1016/j.ecolind.2006.11.009.

    Article  Google Scholar 

  12. Bationo P, Zongo JD, Nanéma KR, Traoré RE: Étude de la variation de quelques caractères morphologiques d'un échantillon de Sclerocarya birrea au Burkina Faso. International Journal of Biological and Chemical Sciences. 2008, 4: 549-562.

    Google Scholar 

  13. Bationo P, Hilou A, Traore ER, Nanema RK, Zongo JD: Variabilité de quelques caractères biochimiques des fruits de Sclerocarya birrea (A. Rich.) Hochst. au Burkina Faso. Fruits. 2009, 64: 351-360. 10.1051/fruits/2009031.

    Article  Google Scholar 

  14. Gouwakinnou GN, Kindomihou V, Assogbadjo AE, Sinsin B: Population structure and abundance of Sclerocarya birrea (A. Rich) Hochst subsp. birrea in two contrasting land-use systems in Benin. International Journal of Biodiversity and Conservation. 2009, 1 (6): 194-201.

    Google Scholar 

  15. Hall JB: Sclerocarya birrea (A. Rich) Hochst. Record from Protabase. Edited by: Oyen LPA, Lemmens RHMJ. 2002, Wageningen, PROTA

    Google Scholar 

  16. Shackleton SE, Shackleton CM, Cunningham T, Lombard C, Sullivan C, Netshiluvhi T: Knowledge on Sclerocarya birrea subsp caffra with emphasis on it as a non timber forests product in South and southern Africa: a summary. Part1: Taxonomy, ecology and role in rural livelihoods. South African Forestry Journal. 2002, 194: 2-41.

    Google Scholar 

  17. Adomou AC, Sinsin B, van der Maesen LJG: Phytosociological and chorological approaches to phytogeography: a meso-scale study in Benin. Systematics and Geography of Plants. 2006, 76: 155-178.

    Google Scholar 

  18. Balick MJ, O'Brien H: Ethnobotanical and floristic research in Belize: accomplishments, challenges and lessons learned. Ethnobotany Research & Applications. 2004, 2: 077-088.

    Google Scholar 

  19. Friedman J, Yaniv Z, Dafni A, Palewitch D: A preliminary classification of the healing potential of me dicinal plants, based on a rational analysis of an ethno pharmacological field survey among Bedouins in the Negev Desert, Israel. Journal of Ethnopharmacology. 1986, 16: 275-287. 10.1016/0378-8741(86)90094-2.

    Article  PubMed  CAS  Google Scholar 

  20. Wezel A, Lykke AM: Woody vegetation change in Sahelian West Africa: evidence from local knowledge. Environmental Development and Sustainability. 2006, 8: 553-567. 10.1007/s10668-006-9055-2.

    Article  Google Scholar 

  21. Howard P: Women and the plant world: an exploration. In Women and Plants. Gender relations in biodiversity management and conservation. Edited by: P. Howard. 2003, London and New York: Zed Press & Palgrave-Macmillan, 1-48.

    Google Scholar 

  22. Assogbadjo AE: Importance socio-économique et étude de la variabilité écologique, morphologique, génétique et biochimique du baobab (Adansonia digitata L.) au Bénin. PhD Thesis. 2006, Ghent University, Faculty of Bioscience Engineering

    Google Scholar 

  23. Eloff JN: Antibacterial activity of Marula ( Sclerocarya birrea (A.Rich) Hochst. subsp. caffra (Sond) Kokwaro)(Anacardiaceae) bark and leaves. Jounal of Etnopharmacology. 2001, 76: 305-308. 10.1016/S0378-8741(01)00260-4.

    Article  CAS  Google Scholar 

  24. Dimo T, Rakotonirina SV, Tan PV, Azay J, Dongo E, Kamtchouing P, Cros G: Effect of Sclerocarya birrea (Anacardia-ceae) stem bark methylene chloride/methanol extract on streptozotocin-diabetic rats. Journal of Ethnopharmacology. 2007, 110: 434-438. 10.1016/j.jep.2006.10.020.

    Article  PubMed  Google Scholar 

  25. Cunningham AB: Collection of wild plants in Thembé Thonga society, a guide to Iron Age gatherings activities?. Annales of the natal Museum. 1988, 29: 433-446.

    Google Scholar 

  26. Shackleton CM, Shackleton SE: Direct use values of secondary resources harvested from communal savannas in the Bushbuckridge lowveld, South Africa. Journal of Tropical Forest Products. 2000, 6: 28-47.

    Google Scholar 

  27. Hilman Z, Mizrahi Y, Beit-Yannai E: Evaluation of valuable nutrients in selected genotypes of marula (Sclerocarya birrea ssp. caffra). Scientia Horticulturae. 2008, 117: 321-328. 10.1016/j.scienta.2008.05.008.

    Article  Google Scholar 

  28. Bationo/Kando P, Hilou A, Traore ER, Nanema RK, Zongo JD: Variabilité de quelques caractères biochimiques des fruits de Sclerocarya birrea (A. Rich.) Hochst. au Burkina Faso. Fruits. 2009, 64: 351-360. 10.1051/fruits/2009031.

    Article  Google Scholar 

  29. Glew RS, VanderJagt DJ, Huang YS, Chuang LT, Bosse R, Glew RH: Nutritional analysis of the edible pit of Sclerocarya birrea in the Republic of Niger (Daniya, Haussa). Journal of Food Composition and Analysis. 2004, 17: 99-111. 10.1016/S0889-1575(03)00101-7.

    Article  CAS  Google Scholar 

  30. Moganedi KLM, Colpaert N, Breyne P, Sibara MM, Goyvaerts EMA: Determination of genetic stability of grafted marula trees using AFLP markers. Scientia. Horticulturae. 2007, 111 (3): 293-10.1016/j.scienta.2006.10.026.

    Article  CAS  Google Scholar 

  31. Cook JA, VanderJagt DJ, Dasgupta A, Mounkaila G, Glew RS, Blackwell W, Glew RH: Use of the trolox assay to estimate the antioxidant content of seventeen edible wild plants of Niger. Life Sciences. 1998, 63: 105-110. 10.1016/S0024-3205(98)00245-8.

    Article  PubMed  CAS  Google Scholar 

  32. Cook JA, VanderJagt DJ, Pastuszyn A, Mounkaila G, Glew RS, Milson M, Glew RH: Nutrient and chemical composition of 13 wild plant foods of Niger. Journal of Food Composition and Analysis. 2000, 13: 83-92. 10.1006/jfca.1999.0843.

    Article  CAS  Google Scholar 

  33. Arbonnier M: Arbres arbustes et lianes des zones sèches d'Afrique de l'Ouest. 2002, France, CIRAD

    Google Scholar 

  34. Geist HJ, Lambin EF: What Drives Tropical Deforestation: A meta-analysis of proximate and underlying causes of deforestation based on subnational case study evidence. LUCC Report 2001, Series No. 4.

  35. Pearce D, Hecht S, Vorhies F: What is biodiversity worth? Economics as a problem and a solution. Key topics in conservation biology. Edited by: Macdonald DW, Service K. 2007, UK: Blackwell publishing, 35-45.

    Google Scholar 

  36. Newton AC: Conservation of tree species through sustainable use: how can it be achieved in practice?. Oryx. 2008, 42 (2): 195-205. 10.1017/S003060530800759X.

    Article  Google Scholar 

  37. Hardin G: The Tragedy of the Commons. Science. 1968, 162: 1243-124. 10.1126/science.162.3859.1243.

    Article  PubMed  CAS  Google Scholar 

  38. Wynberg RP, Laird SA: Less is often more: governance of non-timber forest product, Marula (Sclerocarya birrea subsp. caffra) in Southern Africa. International Forestry Review. 2007, 9 (1): 475-490. 10.1505/ifor.9.1.475.

    Article  Google Scholar 

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Acknowledgements

Funding for this work was provided by European Union (FP6 INCO-dev 031685) through SUN Project (Sustainable Use of Natural Vegetation in West Africa). We thank Redmond Sweeny for language correction and two anonymous reviewers for they constructive advice to improve the text. We also thank Lifam Odone for support during the field work. We are grateful to all informants for their willingness to share their knowledge.

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Correspondence to Gerard N Gouwakinnou.

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GNG designed and performed the field work, analyzed and drafted the manuscript. AML and AEA gave conceptual advice, read and improved the drafted manuscript. BS supervised the work and improved the manuscript. All authors have read and approved the final manuscript.

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Gouwakinnou, G.N., Lykke, A.M., Assogbadjo, A.E. et al. Local knowledge, pattern and diversity of use of Sclerocarya birrea. J Ethnobiology Ethnomedicine 7, 8 (2011). https://doi.org/10.1186/1746-4269-7-8

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