Medicinal plants potential and use by pastoral and agro-pastoral communities in Erer Valley of Babile Wereda, Eastern Ethiopia

The study area, Erer Valley (upper Erer and lower Erer) of Babile Wereda in the eastern lowlands of Ethiopia, is situated at the semi-arid trans-boundary of Oromia and Harari Regions, located at about 560 km southeast of Addis Ababa. It is delimited with coordinates of latitudes 08^o22'20" - 09^o30'30"N and longitudes 42^o20'10" - 42^o30'50"E and its elevation ranges between 940 m and 1585 m a.s.l. (Figure 1). The lower Erer valley is part of the protected area for the African elephant (Loxodonta africana) known as Babile Elephant Sanctuary (BES).

There is a high degree of competition for space and food between elephants and large herds of cattle and camels in the area [19]. There is also an indication of the population increment in the last 15 or more years, resulting in a high density of human settlement in the Erer Valley. The human population in the rural part of Babile Wereda (district), which mostly covers the Erer Valley, is about 75,970 (38,371 males and 37,599 females) [20].

The vegetation of the valley belongs to the Acacia-Commiphora woodland, semi-desert scrubland and evergreen scrub types. There are also riverine woody species in the upper Erer Valley that include species of Acacia robusta Burch., Tamarindus indica L., Oncoba spinosa Forssk., Acokanthera schimperi (A. DC.) Schweinf. and Capparis tomentosa Lam. [21].

The mean annual temperature is about 18.2°C, ranging from a mean minimum of 10.8°C to mean maximum of 29.4°C. There is only a slight difference in temperature throughout the year, with the hottest months during April to June (maximum 29.6°C) and the coldest during October to December (minimum 8.2°C). The mean annual rainfall is 712.6 mm year^-1, with high variation from year to year, ranging from 462.6 mm to 1210.4 mm year^-1. Rainfall is bimodal, occurring from February to April (short rain season) and June to September (long rain season) (Source: National Metrological Service Agency of Ethiopia Data from 1965 to 2005).

Ethnobotanical data were collected in two different seasons, from September to November 2009 and June to August 2010. Participatory Rural Appraisal (PRA) techniques were employed to collect data, as recommended by Martin [22] and Cunningham [23]. Eight sampling sites were identified from the study area where settled farmers and trans-human pastoralists were found and indicated on the location map of the study area (Figure 1). Ethnobotanical information was collected from 50 informants (37 male and 13 female). Among the 50 informants, 15 were key informants (traditional healers) selected with the assistance of clan leaders, peasant association leaders and members of the local community. Purposive sampling technique was used for selection of key informants while for the others stratified random sampling was employed. The informants were grouped into three age groups, young (20–35), adult (36–50) and elderly (above 50) to see how the knowledge varies with age.

Before carrying out the interviews and group discussions an oral Prior Informed Consent (PIC) was sought from every respondent. Furthermore, participants collectively endorsed the research by giving oral blessings in their usual traditional style. Semi-structured interviews and group discussions were administered in the local (Oromo and Somali) languages to collect basic information on the Indigenous Knowledge (IK) on the traditional uses of medicinal plant species together with their local names, diseases treated or controlled, part used, conditions and method of preparation, part administered, dosage used and major drawbacks. Further, practical observation sessions and guided field walks with key informants were employed to collect voucher specimens of each medicinal plant species with additional notes. Photographic and video cameras were used for graphic documentation. Most of the interviews were made in the field in order to avoid the risk of confusing identity of plant species by repeated inquiries at least three times with the same and different informants so as to confirm the validity and reliability of the recorded information. Specimens were collected and numbered on the spot, later identified using taxonomic keys in the relevant volumes of the Flora of Ethiopia and Eritrea and through visual comparisons with authenticated plant specimens kept at the National Herbarium (ETH) of Addis Ababa University and at the Herbarium of Haramaya University. The identification was finally confirmed by a senior plant taxonomist and voucher specimens of the medicinal plants deposited at both herbaria.

Ethnobotanical data were analyzed using both qualitative and quantitative methods following Martin [22] and Cotton [24]. For each medicinal plant, the proportion of informants who independently reported its use against a particular disease/disease category, the informant consensus factor (F_ic) was calculated using the formula: F _ic  = n _ur n _t /n _ur –1 [25, 26],

Where, n _ur is the “number of use-reports” in each disease category and n _t is the number of taxa used.

Based on the general informant consensus the preference ranking technique was employed to rank the priority medicinal plants as given by key informants’ preferences indicating the degree of efficacy [22]. In the preference ranking exercise, an integer value (1,2,3,4 and 5) was given, where the most important medicinal plant was given the highest value (5), while the least important is assigned a value of “1”. These numbers were summed for all respondents, giving overall ranks to the medicinal plants. Spearman rank correlation test was run in SPSS 18.00 to analyze the correlation of the informant consensus value and the informant preference ranking value; and binomial test was run in SPSS 18.0 to evaluate the depth of knowledge with age categories in which pair wise age category test was considered. P-value of less than 0.05 was considered a statistically significant difference. MS Excel Spreadsheet was used to generate bar graphs.

Informants’ consensus factor (F_ic) was done for the top five disease categories of the study area. The F_ic is higher for gastrointestinal disorders and parasites (0.70) and lowest for haemorrhage (0.44) (Table 2).

The highest value of F_ic was for gastrointestinal problems indicating that there is relatively high consensus on the treatment of gastrointestinal problems with the medicinal plants of the area. Values lower than 0.60 as in haemorrhage and mouth, teeth and throat infections indicate relatively low consensus of informants on those health problems. A similar analysis found high value of F_ic for gastrointestinal illness by Maya, Nahua and Zapotec cultural communities in Mexico [26], indicating that there is relatively high consensus regarding the treatment of gastrointestinal illness.

Medicinal plants that are more popular and widely used by the local community have been prioritized based on frequency of citations. Species that received more than 75% informant report are given in Table 3. For these species, the results show high frequency of citations ranging from 76–96. This shows that there is a considerable level of agreement on the therapeutic worth of these species in the study area. The greater independent citations a particular species receives for the treatment of a certain illness category, the greater is its cultural importance [30].

There was repeated mention of the extract from Aloe pirottae for use to treat tropical ulcer, eye diseases, malaria, snake bite, gastro-intestinal parasites, gallstone and the jel is dried and ground to produce a product locally known as SIBRI in the Oromo language, which is used for cleaning the human colon. The reports also showed that the leaf, seed and flower of Azadirachta indica were concocted and used against malaria, fungal infections and intestinal worms while the root of Hydnora johannis was used to treat wound, haemorrhage, diarrhoea and painful body swelling, locally known as GOFLA in the Oromo language.

The higher frequency of citation of these species shows the importance of the species for the local communities and attracts more attention for their conservation in the study area. The depth of medicinal plant knowledge of the age category ranging from 20 to 35 was low (binomial test, p = 0.006) whereas for the age category that ranged above 50 it was rich (binomial test, p = 0.001). The elderly people in the age category above 50 had a much more profound knowledge on the type and use of medicinal plants than the young age category (20–35). There is a significant difference in depth of knowledge between age category ranging from 20 to 35 and age category above 50 (p > 0.05). Here we can see the level of deterioration of indigenous knowledge on medicinal plants in the study area. This might initiate wide scale ethnobotanical study in the area for in-depth investigation of indigenous knowledge that could be followed up with phytochemical and pharmacological analyses in order to give scientific ground to the ethnomedicinal knowledge.

The gender distribution of medicinal plant knowledge showed that men have much more profound knowledge than women (binomial test, p = 0.001). This might be related with the local tradition of restricting traditional medical practices mostly to men as it is also largely true for many other parts of Ethiopia.

Preference ranking value obtained based on the degree of efficacy didn’t show a significant correlation (Spearman correlation test, r = 0.188, α = 0.05, p = 0.275) with that of the informant consensus value. Pharmacologically effective remedies are expected to have greater informant consensus [25]. Aloe pirottae, Balanites aegyptiaca and Tamarindus indica are the three leading species for being used as effective remedies against the corresponding ailments (Table 4).

Out of these top ten preferred and efficient medicinal plants, some including Azadirachta indica, Portulaca oleracea and various species of the genus Aloes are also included in the WHO list of most used medicinal plants [31].

A total of 54 different health problems confronting humans were documented in the study area. Accordingly, 15 plant species were used for treatment of gastrointestinal disorders and parasites, 14 species for wound, tropical ulcer and swollen body part including the locally common body swelling known as GOFLA and 8 species for treatment of Malaria and fever (Table 5). The presence of more species for such ailments corresponds to our observation that the problems treated with these plants were the most common health problems of the local communities. According to the informants and data from Babile Wereda (district) health centre, the top common health problems of the locality are internal parasites, diarrhoea, malaria, pneumonia, abdominal pain, dermal infections, eye diseases, infection of skin & subcutaneous tissues. About 81 (71%) of the preparations are made for the most common human health problems of the area.

In case where different species were prescribed for the same health problem, people showed preference of one to the others. For example, Acacia robusta, Acokanthera schimperi, Aloe pirottae, Tamarindus indica, Azadirachta indica, Balanites aegyptiaca and Euphorbia abyssinica were all mentioned for use against malaria. However, informants further expressed more preference for the first four species in that order than the others claiming that they are more efficient as medicine for malaria.

Local communities employ several methods of preparation of plant material for medicinal use including by crushing, pounding and concocting, which they applied in the form of smoke bath, material for eating raw or just chewing, hot infusion for drinking, fluid extract, decoction, ointment, rubbing, syrup, cream, and others (Table 6). Most of the remedies are prepared from a single species, mixtures are used infrequently. In addition, different plant parts from a single species are prepared in different ways and used to treat the same type of aliment. For example, the fresh leaf and jel extract of Aloe pirottae are concocted together and taken orally to treat malaria; the leaf and root of Sarcostemma viminale are crushed together and put at the tip of the anal opening to treat haemorrhoid. A number of sources [3, 28] reported similar results stating that a single medicinal plant species was used more frequently for remedy preparations, and that mixtures were used rarely in their respective study sites.

For application of the medicines both internal (52.9%) and external (47.1%) routes were used. The most common route for internal application is oral that accounted for 42.5% and that of external was dermal which accounted for 26.4% (Table 7).

The dose given to the patient depends on age, physical and health conditions. Lack of uniformity among informants regarding the doses recommended for certain remedies during prescription and treatment was infrequently observed. For example, one cup of crushed roots of Acacia robusta for the treatment of malaria was considered a full dose for many informants, whereas few informants reported that the same amount was administered for three consecutive days as full dose. The results showed that there is lack of precision of the dose in the study area. Especially, in relation to the route of administration where oral application took the lead, lack of precision can be a major drawback. Lack of precision or specifying the dose in rough measurements is a major drawback of application of traditional medicinal plants [28].