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. 2011 Jul 11;7:36. doi: 10.1186/1746-6148-7-36

Ethnobotanical survey of medicinal plants used in the treatment of animal diarrhoea in Plateau State, Nigeria

Nkechi V Offiah 1,2,, Sunday Makama 1, Ishaku L Elisha 1, Micah S Makoshi 1, Jurbe G Gotep 1, Christiana J Dawurung 1, Olusola O Oladipo 1, Ann S Lohlum 1, David Shamaki 1
PMCID: PMC3162497  PMID: 21745405

Abstract

Background

The use of medicinal plants in the treatment of diseases has generated renewed interest in recent times, as herbal preparations are increasingly being used in both human and animal healthcare systems. Diarrhoea is one of the common clinical signs of gastrointestinal disorders caused by both infectious and non-infectious agents and an important livestock debilitating condition. Plateau State is rich in savannah and forest vegetations and home to a vast collection of plants upheld in folklore as having useful medicinal applications. There is however scarcity of documented information on the medicinal plants used in the treatment of animal diarrhoea in the state, thus the need for this survey. Ten (10) out of 17 Local Government Areas (LGAs), spread across the three senatorial zones were selected. Farmers were interviewed using well structured, open-ended questionnaire and guided dialogue techniques between October and December 2010. Medicinal plants reported to be effective in diarrhoea management were collected using the guided field-walk method for identification and authentication.

Results

A total of 248 questionnaires were completed, out of which 207 respondents (83.47%) acknowledged the use of herbs in diarrhoea management, while 41 (16.53%) do not use herbs or apply other traditional methods in the treatment of diarrhoea in their animals. Medicinal plants cited as beneficial in the treatment of animal diarrhoea numbered 132, from which 57(43.18%) were scientifically identified and classified into 25 plant families with the families Fabaceae (21%) and Combretaceae (14.04%) having the highest occurrence. The plant parts mostly used in antidiarrhoeal herbal preparations are the leaves (43.86%) followed by the stem bark (29.82%). The herbal preparations are usually administered orally.

Conclusion

Rural communities in Plateau State are a rich source of information on medicinal plants as revealed in this survey. There is need to scientifically ascertain the authenticity of the claimed antidiarrhoeal properties of these plants and perhaps develop more readily available alternatives in the treatment of diarrhoea.

Background

Herbal medicine has long been recognized as one of the oldest forms of remedies used by humans [1]. Many people in developing countries still rely on traditional healing practices and medicinal plants for their daily healthcare needs, in spite of the advancement in modern medicine [2]. There is abundant undocumented traditional knowledge of herbal remedies used to treat diseases in most cultures [3]. Different traditional healing practices worldwide are designed for either therapeutic or prophylactic use in human or animal diseases [4,5]. Several studies carried out in Africa, Asia, Europe, Latin America and North America show that plants are routinely used as remedy for animal diseases [6-11]. Historically, it is documented that humans utilize the same herbal preparations that they use to treat their sick animals [1]. In Nigeria, farmers are known to treat animal diseases with herbs and other traditional medical practices before the advent of orthodox medicine [12]. Traditional medical and veterinary practices remain relevant and vital in many areas in Nigeria due to absence or inadequate provision of modern medical services particularly in rural areas [13].

Ethnoveterinary medical practice is widespread among herdsmen and native livestock producers in northern Nigeria. Traditional remedies in this area include plant extracts from different plant parts [14]. Herdsmen in non industrialized nations of the world still use medicinal plants for the treatment of livestock diseases including diarrhoea, either due to lack of access to trained veterinarians and high cost of orthodox medicines, or the held belief that herbal remedies are more efficacious [15].

While diarrhoea is not intrinsically considered a disease, but rather a sign of other health problems in livestock caused by infectious and non - infectious agents, it is still the most common and costly condition affecting livestock [16]. The use of herbal drugs in the treatment of gastrointestinal disorders including diarrhoea is a common practice in many African countries [17] and is usually preferred because it is a cheaper alternative. The herbal drugs contain multiple constituents such as alkaloids, glycoside, flavonoids, terpenes, tannins etc. These constituents have effect-enhancing and/or side effect-neutralizing potential [18-20], and herbal remedies are considered relatively safe in prolonged use [19].

Plateau State, is Nigeria's foremost tourists' destination located strategically in the middle-belt zone, between latitude 80°24' North and longitude 80°32' and 100°38' East, and covers an area of 26,899 Sq. Km, with a population of 3, 206, 531 people [21]. Plateau State has a livestock population of 964,188 sheep, 1,865,805 goats and 1.07 million cattle [22]. A great proportion of the rural population in the state are non literates who keep livestock as a source of income [23].

Indigenous knowledge system and practices is defined as a body of knowledge that develops within a given community through observation and real life experiences over a period of time, communicated orally or otherwise from one generation to the other with the ultimate aim of moulding its thought for the sole purpose of ensuring survival and progress [24]. One of the vital applications of indigenous knowledge systems and practices is in the human and animal health care [24]. There is however a dearth of information with respect to traditional knowledge system and practices in Plateau state, due to rural-urban migration, substitution of traditional with modern practices and preference for orthodox drugs, or outright disregard for traditional practices. The population of the older generation is fast depleting due to death in Nigeria where there is a declining life expectancy projected at 48 years [25]. There is therefore an urgent need for survey and documentation of medicinal plants useful in the management of diarrhoea and in fact other diseases. In view of the many challenges and prospects mentioned above, this investigation was undertaken to provide information on the medicinal plants used by farmers in managing animal diarrhoea in Plateau State of Nigeria.

Methods

The survey was carried out in 10 selected Local Government Areas (LGAs) of Plateau state (Figure 1), which spread across the three senatorial zones based on cultural similarity and diversity during the months of October, November and December 2010. Letters seeking for assistance and cooperation of the Local Government Agricultural Departments in mobilizing livestock farmers and community leaders were written. The LGAs surveyed are Bassa, Jos East, Jos South and Barkin Ladi in the northern zone; Bokkos and Pankshin in the central zone, and; Langtang North, Shendam, Qua'an-Pan and Wase in the southern zone. These selected LGAs have a high cattle population and are favourable for livestock production and have a high population of pastoralists or natives who keep livestock [23].

Figure 1.

Figure 1

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Map of Plateau state, Nigeria showing LGAs visited (Inline graphic): Pink-north, Green-central and Blue-southern geopolitical zones. Bassa (1), Jos South (2), Jos East (3), Barkin-Ladi (4), Bokkos (5), Pankshin (6), Qu’an Pan (7), Shendam (8), Langtang North (9) and Wase (10) LGAs.

Most of the rural communities surveyed have limited access to modern veterinary services largely due to bad roads. Livestock healthcare services are usually rendered by quacks that lack proper veterinary training. Plateau state has over 40 ethno-linguistic groups, with some of the tribes being Afizere, Berom, Goemai, Irigwe, Kwalla, Mwaghavul, Ngas, Ron-Kulere and Taroh [26]. These ethnic groups are predominantly farmers and have similar cultural and traditional ways of life [26]. Hausa language is a common medium of communication among these tribes like in most parts of northern Nigeria.

A well structured, open-ended questionnaire and guided dialogue techniques [24] were used to interview pastoralists and native livestock farmers. The questionnaire was designed by the team based on the needed information and validated by the epidemiology and extension units of the institute. The survey team was made up of 5-veterinarians, 1-pharmacist, 1- pharmacologist, and 2-trained veterinary extension officers. The team was randomly divided into two on a rotational basis, with one extension officer in each group at any given time. The interview was conducted in English, Hausa, Fulfulde and on rare occasions in the local dialect. Certain incentives were given to stimulate cooperation and active participation in the survey. These included free consultancy services by the veterinarians, remuneration in some instances for field staff and the promise to organize seminar for the communities visited after the conclusion of the research.

The respondents who consented to participate in the survey were asked to share their knowledge and experiences on the medicinal plants used in their communities to manage diarrhoea. Information was received on part(s) of the plant used, methods of herbal preparation, mode of administration, dosage estimation, the effectiveness of the herbal remedy and adverse effects observed. The conversation was built on trust, with the clear understanding of the aim of the survey [27]. Plants claimed to be beneficial in the treatment of diarrhoea were collected based on the guided field-walk method [15]. The plant specimens collected were pressed, labelled with their local names where available and sent to the herbarium of the Department of Biological Sciences, Ahmadu Bello University (ABU), Zaria, and identified, authenticated and voucher number assigned by Mallam U.S Gallah.

Results

Two hundred and forty-eight questionnaires were administered during the survey. A total of 207 (83.47%) respondents admitted having used antidiarrhoeal medicinal plants or were still using them to treat their animals. Forty-one (16.55%) had no knowledge of herbs or medicinal plants used for the treatment of diarrhoea in animals. Most of the respondents especially those who still had animals were able to give adequate description of the nature of the diarrhoea often seen in their animals.

One hundred and thirty-two medicinal plants were collected during the survey out of which 57 were properly identified (Table 1). Their local (Nigerian) names as well as their common (English) names are presented on the same table. Various parts of these plants in use were also indicated, with the leaves being the most commonly mentioned (43.86%; Figure 2). Out of the 57 plants identified, there were 47 genera distributed among 25 families, with the families Fabaceae (21.05%). Combretaceae (14.04%) having the highest occurrences (Figure 3).

Table 1.

Medicinal plants used by farmers for management of diarrhoea in Plateau State

Plant parts in use
S/No Botanical/Scientific name Family Common Name (English) Nig. Lang Name* (H; Y; I; F; Others) Folkloric Evidence of Use (%) Leaves Stem bark Roots Fruits Seeds Flower Whole
1 Acacia albida Fabaceae (Mimosaceae) Apple-ring Acacia, Winter Thorn H: Gawo 1 (0.40%) + + - - - - -
2 Acacia sieberiana Fabaceae White thorn, African laburnum H: Farar kaya 1 (0.40%) + + - - - - -
3 Adansonia digitata, Bombacaceae Baobab Tree, Judas Fruit H: Kuka 49 (19.76%) + - - - - - -
4 Adina microcephala Rubiaceae Adina, African teak H: Madacin Rafi, Mangoron rafi 2 (0.81%) - + - - - - -
5 Aloe buettneri Liliaceae West African aloe H: Zabuwa; F: Zabuwahi 2 (0.81%) + - - - - - -
6 Anogeissus leiocarpus Combretaceae African Birch H: Marke; Y: Pako dudu, ayin 6 (2.42%) + + - - + - -
7 Azadirachta indica Meliaceae Neem Tree,Nimba, Nimb H: Dogon Yaro, Darbegiya 2 (0.81%) + - - - - - -
8 Bauhinia rufescens Fabaceae Bauhinia H: Matsagi, Kalgon Allah F: Nammare 1 (0.4%) + - - - - - -
9 Boswellia dalzielii Hutch Burseraceae Frankincense tree H: Ararabi; Hano; F: Mangalede 1 (0.40%) - - - - - - -
10 Burkea africana Fabaceae Wild seringa, Rhodesian ash, seringa tree H: Gwazan kura, Bakin makarfo F: Jill arab 1 (0.40%) - - - - - - -
11 Carica papaya Caricaceae Paw-paw H: Gwanda 3 (1.21%) - + - - + - -
12 Combretum glutinosum Combretaceae - H: kantakara, Baushe 11 (4.4%) + - + - - - -
13 Combretum lamprocarpum Combretaceae - H: Bauli; F: Buski daneehi; Zindi; Y: ajantiro 2 (0.81%) + - - - - - -
14 Combretum molle Combretaceae Velvet bush/leaf willow Gupiya (Ron) 1 (0.40%) - - - - - - -
15 Croton zambesicus Euphorbiaceae Tiger bush Berom: Lieng 1 (0.40%) - - - - - - -
16 Cucumis metuliferus Cucurbitaceae. African horned cucumber or melon Berom: Kwalchungul 14 (5.65%) - - - + - - +
17 Daniellia oliveri Fabaceae African copaiba balsam tree H: Maje, Kadaura 1 (0.41%) + - - - - - -
18 Detarium senegalensis Fabaceae Sweet detar H: Gobodo; Farar taura 3 (1.31%) + + + - - - -
19 Erythrophleum sauveolens Fabaceae Ordeal tree, Sasswood tree H: Samberu/Gwaska 1 (0.40%) - - - - - - -
20 Erythrophloem africanum Fabaceae African blackwood H:Goska; F: Naretibahi 1 (0.40%) - - - - - - -
21 Eucalyptus tereticornis Myrtaceae Forest red gum H: Turare 1 (0.40%) - - - - - - -
22 Euphorbia hirta Euphorbiaceae Asthma Weed H: Nonon kurciya; Oegendagar (Doemak) 1 (0.40%) - - - - - - -
23 Ficus ingens Moraceae Red-leaved fig F: Nunahi; Bakurahi; H: Kawuri 2 (0.81%) + - - - - - -
24 Ficus platyphylla Moraceae Flake/Red Kano rubber tree H: Gamji; F: Dundehi 2 (0.81%) - + - - - - -
25 Ficus sycomorus L Moraceae Sycamore fig or fig mullberry Baure (H) 1 (0.40%) - + - - - - -
26 Geranium spp Geraniaceae Crane's bill H: Garahunu 1 (0.40%) - - - - - - -
27 Gymnema sylvestris Asclepiadaceae Miracle fruit, australian cowplant H: Kashe zaki 1 (0.40%) - - - - - - -
28 Heeri pulcherrima Anacardiaceae - H: Hawayen zaki 1 (0.40%) - - - - - - -
29 Jatropha curcas L. Euphorbiaceae Purging nut, Barbados nut H: Bini da zugu, Halallamai Mamulu 1 (0.40%) + + - - - + -
30 Khaya senegalensis Meliaceae African Mahogany H: Madaci 43 (17.34%) - + - - - - -
31 Kigelia africana Bignoniaceae Cucumber or Sausage tree H: Nonon giwa; F: Jillarehi 2 (0.81%) - + - - - - -
32 Lasiosiphon kraussianus Thymelaeaceae - H: Shani ka sanni 1 (0.40%) - - - - - - -
33 Milletia thonningii Fabaceae - H: Tumburku; Mmaruk (Taroh) 1 (0.40%) - - + - - - -
34 Mitragyna inermis Rubiaceae False abura H: Giyayya; F: Koli 1 (0.40%) - - - - - - -
35 Moringa oleifera Asclepiadaceae Drumstick Tree H: Zogale 4 (1.61%) + + - - + - -
36 Nauclea latifolia Rubiaceae African peach, Pin cushion tree H: Tafashiya, marga; I: nwabuakonshi; Y: Egbesi plant 1 (0.40%) - - - - - - -
37 Ocimum gratissimum Lamiaceae Basil, Curry leaf H: Daidoya 1 (0.40%) + - - - - - +
38 Parkia biglobosa Fabaceae (Mimosaceae) African locust bean; Monkey cutlass tree H: Doruwa 6 (2.42%) - + - - - - -
39 Piliostigma reticulatum Leguminosae Caesalpiniaceae English: camel's foot (Etkin). H: 'kalgo; F: Batehi; Y: 'abafin' I: okpo atu 5 (2.02%) + - - - - - -
40 Piliostigma thonningii Fabaceae camel's foot, monkey bread, Rhodesian bauhinia Kalgo/Kargo (Hausa) 5 (2.02%) + - - - - - -
41 Prosopis Africana Fabaceae Iron wood; Axlewood H: Kirya; F: Kwahi 3 (1.31) - + - - - - -
42 Psidium guajava Myrtaceae Guava H: Gwaiva 16 (6.45%) + - - - - - -
43 Sarcocephalus latifolius (Smith) Bruce Rubiaceae Country fig; African peach H: Tafashi; Y: Ogbase; Hang (Berom) 3 (1.21%) + + + - - - -
44 Schwenkia americana Solanaceae - H: Dandana; F: Dupuhi; Y: Igbale odan; Collihi (Gwari) 1 (0.40%) - - - - - - -
45 Solanum dasyphyllum Solanaceae - H: Gautan Kaji; Berom: Pyalgwol 6 (2.42%) - - - + - - -
46 Spermacoce villosus Rubiaceae False buttonweed H: Goga masu Ron: Sandigis 1 (0.40%) - - - - - - -
47 Starchytarpheta angustifolia Verbanaceae Devil's coach whip H: Tsarkiyar kuusuu, Wutsiyan kadangare 2 (0.81%) + - + - - - -
48 Striga hermonthica (Del.) Benth Scrophulariaceae Witchweed; purple witchweed H: Wuta-wuta; F: Turguel 1 (0.41%) - - - - - - +
49 Tapinanthus dodoniefolius Loranthaceae Mistletoe on Locust bean H: Kauchi 1 (0.40%) + - - - - - +
50 Tapinanthus globiferus Loranthaceae Mistletoe, loranthus, mulberry mistletoe H: Kauchi 1 (0.40%) + - - - - - +
51 Terminalia avicennioides Combretaceae - H: Baushe; Y: Igiodan; I: Edo; Kpayi (Gwari) 11 (4.44%) - - - - - - -
52 Terminalia macroptera Combretaceae - H: Baushe; F: Bodi; Kung (Mwagavul) 11 (4.4%) + - + - - - -
53 Terminalia mollis Combretaceae Large-leaved terminalia Dakun (Mushere) 2 (0.81%) - - + - - - -
54 Tridax procumbens Combretaceae Coat buttons Kwalla: Magaja 1 (0.40%) - - - - - - -
55 Vernonia guineensis Asteraceae - - 1 (0.40%) - - - - - - -
56 Vitellaria paradoxa Gaertn. (Butyrospermum paradoxum) Sapotaceae Sheabutter tree H: Kadanya; I: okwuma; Y: akú malapa; Mes (Mushere) 2 (0.81%) - + - - - - -
57 Vitex doniana Verbanaceae black plum H: Dinya; F: Bodilohi (Munjiriya); I: Utakiri; Y: Ori-nla 11 (4.4%) + + - + - - -
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* H, Y, I, F: Hausa, Yoruba, Igbo, Fulfulde. +, Part use; -, no information on use of part.

Figure 2.

Figure 2

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Percentage distribution of medicinal plant parts used in the management of diarrhoea.

Figure 3.

Figure 3

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Percentage family distribution of medicinal plants used for diarrhoea management in Plateau State.

Medicinal plants are usually prepared by soaking the fresh or dried plant parts in water and the extract administered by drenching. In few cases, the plant materials are mixed with feed and/or potash to improve palatability.

Discussion

During this study, a total of 248 questionnaires were used to collect information from both semi-literate and non literate livestock farmers. The respondents comprised of individual livestock farmers having mainly backyard farms made up of heterogeneous species of animals and practicing the semi-intensive management system. Poultry farmers who keep local chickens manage them on free range system while the exotic breeds are reared under intensive system. From table 1, Adansonia digitata and Khaya senegalensis were the most common plants reported to be used in the management of diarrhoea in livestock with frequencies of 49 (19.76%) and 43 (17.34%) respectively. Adansonia digitata is very common in the northern parts of Nigeria, and earlier works had published its application in diarrhoea, malaria and cough [28,29]. The anthelminthic effect of Khaya senegalensis (mahogany) has been reported [30], which may justify its use in diarrhoea management. Only Cucumis metuliferus and Solanum dasyphyllum were mentioned as herbal remedies used in diarrhoea management in poultry. There are claims that the fruits of the non-bitter Cucumis metuliferus are effective in the management of HIV/AIDS positive patients in Plateau State, Nigeria [31], and the seeds are reported to have worm expellant properties [32].

The family Fabaceae is the most common family reported in this study, having 12 members (Figure 3), similar to the observation made by Appidi et al [33]. This observation is however, different from that of Yinegar et al. [8] who in an ethnoveterinary plant survey in Ethiopia reported Asteraceae family as the highest, followed by Solanaceae, with Fabaceae and Lamiaceae being third. This difference may be due to the fact that their survey was not narrowed to diarrhoea but also on medicinal plants used in all animal diseases. Appidi et al. [33] corroborated our findings suggesting that the Fabaceae family are more likely to have antidiarrhoeal effect than plant from other families. The Fabaceae family contains many genera that have been shown to be useful in the treatment of many other ailments besides diarrhoea [8,34]. It was also observed that the leaves (43.86%) constitute the most plant parts used, followed by the stem barks (29.82%) as shown in figure 2. Leaves are sometimes used in combination with other plant parts as reported by Ayyanar and Ignacimuthu [35]. Other indigenous populations have indicated preference for the use of leaves in the preparations of herbal medicines [35] because it is more convenient collecting leaves than root parts, flowers and fruits etc. [36]. However, some authors have reported that roots are more commonly collected plant parts in Ethnoveterinary practice [8,37,38]. Scientifically, leaves are actively involved in photosynthesis and the production of metabolites [39], thus, the numerous constituents found in leaves could explain their efficacy in the treatment of various ailments in both humans and animals. From the conservation point of view, collection of leaves for herbal preparations could be regarded as sustainable so long as some leaves are left on the parent plant [8]. This is opposed to the collection of roots which could be a severe threat for rare and slowly producing plants.

The herbal remedies were often prepared by pounding either the fresh or dried parts of the plants followed by either soaking or boiling them in water, and the infusions or decoctions administered by drenching agreeing with the observation of Ermias et al. [40]. Sometimes, the plant portions are mixed with the animal's feed and fed to the animals or mixed with potash (kanwa) or salt and given to the animals to lick. Poonam and Singh [41] reported the use of enhancers such as honey, cow/goat's milk, sugar, ghee, salt, boiled rice and butter milk to improve the palatability and medicinal property of certain remedies by the Kani traditional healers of India. The dosages often administered varied with the parts of the plants used and the mode of preparation. However most farmers administer the preparations once or twice a day for 3 to 5 days, or keep treating until the animal recovers. Full recovery is confirmed when the animals resume feeding and activities. Most respondents claimed that their herbal remedies were efficacious and produced complete healing without adverse effects.

There are documented scientific publications validating the antidiarrhoeal effect of some of the plants listed in Table 1 either using castor oil induced diarrhoea study in rats or mice and/or antimicrobial activity of extracts [17,42-44].

The problem of inconsistent dosage regimen and unwillingness to part with indigenous knowledge was experienced by the authors in the field. The latter seems to be a common experience of researchers conducting ethnobotanical surveys [45,46] and therefore a significant basis for conducting such surveys. This is because the custodians of indigenous knowledge of herbal remedies do not usually document their practices; hence transfer of knowledge to their protégés becomes difficult following their demise.

To the best our knowledge, this is the first report of herbal remedies used in the management of diarrhoea in livestock and poultry in Plateau State. This study will form the basis for evaluating the phytochemical and biological activities of the selected herbal remedies used in animal diarrhoea. Overall, the plants identified as herbal remedies in the management of diarrhoea present considerable potential for further scientific research which may lead to the discovery of newer and perhaps safer drugs.

Conclusions

The preliminary survey of the medicinal plants used for the treatment and control of animal diarrhoea in Plateau State revealed an array of plants that could be investigated, and if found useful, such plants could be harnessed and used as potential drug candidates for the production of anti-diarrhoeal remedies for livestock. It is therefore, recommended that further studies be carried out on all the above listed plants to validate their efficacy in the treatment of diarrhoea.

Competing interests

The authors declare that they have no competing interests.

Authors' contributions

NVO conceived the design of the survey and questionnaire, participated in the survey, and plant sample collection, and drafted the manuscript. SM, participated in the design of the questionnaire, administration of the questionnaire, plant sample collection, was responsible for the compilation of the results and review of the manuscript. ILE, participated in the design of the questionnaire, questionnaire administration, plant sample collection, drafted and reviewed the manuscript. MSM, participated in the design of the questionnaire, questionnaire administration, plant sample collection, drafted the manuscript, was responsible for transporting the plant to Zaria for identification and authentication. JGG, contributed in the design of the questionnaire, questionnaire administration, plant sample collection, drafted the manuscript and was responsible for writing the abstract of the publication. CJD contributed in the design of the questionnaire, questionnaire administration, drafting of the manuscript and was specifically assigned writing the materials and methods of this article. OOO contributed in the design of the questionnaire, administration of the questionnaire, plant sample collection and drafting of the manuscript. ASL, contributed in the designing of the questionnaire, drafting and reviewing of the manuscript. DS contributed in designing of the questionnaire, drafting and reviewing of the manuscript.

All authors thoroughly read and approved of the final manuscript.

Contributor Information

Nkechi V Offiah, Email: nkeoffiah@hotmail.com.

Sunday Makama, Email: dluutsi@yahoo.com.

Ishaku L Elisha, Email: leokonti@yahoo.com.

Micah S Makoshi, Email: makoshi23@yahoo.com.

Jurbe G Gotep, Email: jurbe4u@yahoo.com.

Christiana J Dawurung, Email: golkada@yahoo.com.

Olusola O Oladipo, Email: oladiposola@ymail.com.

Ann S Lohlum, Email: lungsenso@yahoo.com.

David Shamaki, Email: dshamaki@yahoo.com.

Acknowledgements

The authors wish to acknowledge the management of the National Veterinary Research Institute (NVRI) Vom, for providing necessary resources for conducting this survey, and, the University of the West Indies, St Augustine, Trinidad and Tobago for releasing Dr. Offiah for the work. We acknowledge the immense contributions of Mr Jamo Aliyu and Simon Emmanuel of the Extension services section of the NVRI for serving as linkmen between researchers and the farmers. We are indebted to Mr. U. S. Gallah of the Department of Biological Sciences, ABU, Zaria for the scientific identification of the plants. Our gratitude also goes to all Local Government Chairmen of LGAs visited and their extension Staff, the Miyetti Allah Cattle Rearers Association, and all village heads and their subjects for their cooperation and assistance.

References

  1. Eisenberg D, Davis R, Ettner S. Trends in alternative medicine use in the United States 1990-1997; results of a follow up survey. Journal of American Medical Association. 1998;280:1569–1575. doi: 10.1001/jama.280.18.1569. [DOI] [PubMed] [Google Scholar]
  2. Ojewole JAO. Evaluation of the analgesic, anti-inflammatory and anti-diabetic properties of Sclerocarya birrea (A. Rich.) Hochst. Stem bark aqueous extract in mice and rats. Phytotherapy Research. 2004;18:601–608. doi: 10.1002/ptr.1503. [DOI] [PubMed] [Google Scholar]
  3. Raul P, Pedrazo M, Manuela P. Animal health care in India. Information Centre for Low External Input in sustainable Agriculture (ILEIA) Newsletter. 1990;8(3):22–23. [Google Scholar]
  4. McCorkle CM. An introduction to ethnoveterinary research and development. Journal of Ethnobiology. 1986. pp. 129–140.
  5. Mathias ME. Magic, myth and medicine. Economic Botany. 1994;48(1):3–7. doi: 10.1007/BF02901373. [DOI] [Google Scholar]
  6. Ali ZA. Folk veterinary medicine in Moradabad District (Uttar Pradesh) India. Fitoterapia. 1999;70:340–347. doi: 10.1016/S0367-326X(99)00039-8. [DOI] [Google Scholar]
  7. Passalacqua NG, De Fine G, Guarrera PM. Contribution to the knowledge of the veterinary science and of the ethnobotany in Calabria region (Southern Italy) Journal of Ethnobiology and Ethnomedicine. 2006;2:52. doi: 10.1186/1746-4269-2-52. [DOI] [PMC free article] [PubMed] [Google Scholar]
  8. Yinegar H, Kelbessa E, Bekele T, Lulekal E. Ethnoveterinary medicinal plants in Bale Mountains National Park, Ethiopia. Journal of Ethnopharmacology. 2007;112:55–70. doi: 10.1016/j.jep.2007.02.001. [DOI] [PubMed] [Google Scholar]
  9. Lans C, Turner N, Khan T, Brauer G, Boepple W. Ethnoveterinary medicines used for ruminants in British Columbia Canada. Journal of Ethnobiology and Ethnomedicine. 2007;3:11. doi: 10.1186/1746-4269-3-11. [DOI] [PMC free article] [PubMed] [Google Scholar]
  10. Alves RRN, Lima HN, Tavares Souto WMS. In: Ethnoveterinary Botanical Medicine: Herbal medicines for animal Health. 1. Katerere RD, Luseba D, editor. CRC Press New York USA; 2010. Plants used in animal healthcare in South and Latin America an overview; pp. 231–256. [Google Scholar]
  11. Mathias E, McCorkle CM. Traditional livestock healers. Rev Sci Tech. 2004;23(1):277–284. doi: 10.20506/rst.23.1.1474. [DOI] [PubMed] [Google Scholar]
  12. Nwude N, Ibrahim MA. Plants used in traditional veterinary medical practice in Nigeria. Journal of Veterinary Pharmacology and therapeutics. 1986;3:261–273. [Google Scholar]
  13. Kudi AC, Myint SJ. Antiviral activity of some Nigerian medicinal plant extracts. Journal of Ethnopharmacology. 1999;68:289–294. doi: 10.1016/S0378-8741(99)00049-5. [DOI] [PubMed] [Google Scholar]
  14. Alawa JP, Jokthan GE, Akut K. Ethnoveterinary medical practice for ruminants in the subhumid zone of northern Nigeria. Preventive Veterinary Medicine. 2002;54(1):79–90. doi: 10.1016/S0167-5877(01)00273-2. [DOI] [PubMed] [Google Scholar]
  15. Rashid MH, Tanzin R, Ghosh KC, Jahan R, Khatun MA, Rahmatullah M. An ethnoveterinary survey of medicinal plants used to treat cattle diseases in Birishiri area, Netrakona district, Bangladesh. Advances in Natural and Applied Sciences. 2010;4(1):10–13. [Google Scholar]
  16. Randolph TF, Schelling E, Grace D, Nicholson CF, Leroy JL, Cole DC, Demment MW, Omore A, Zinsstag T, Ruel M. Invited interview: Role of livestock in human nutrition and health for poverty reduction in developing countries. Journal of Animal Science. 2007;85:2788–2800. doi: 10.2527/jas.2007-0467. [DOI] [PubMed] [Google Scholar]
  17. Agunu A, Yusuf S, Andrew GO, Zezi AU, Abdulrahman EM. Evaluation of five medicinal plants used in diarrhoea treatment in Nigeria. Journal of Ethnopharmacology. 2005;101:27–30. doi: 10.1016/j.jep.2005.03.025. [DOI] [PubMed] [Google Scholar]
  18. Rates SMK. Plants as source of drugs. Toxicon. 2001;39:603–613. doi: 10.1016/S0041-0101(00)00154-9. [DOI] [PubMed] [Google Scholar]
  19. Gilani AH, Atta-ur-Rahman. Trends in ethnopharmacology. Journal of Ethnopharmacology. 2005;100:43–49. doi: 10.1016/j.jep.2005.06.001. [DOI] [PubMed] [Google Scholar]
  20. Maikai VA, Abubakar U, Salman AA, Inuwa TN. Preliminary Survey of Medicinal Plants Used in Treatment of Animal Trypanosomosis in Kaduna State, Nigeria. Ethnobotanical Leaflets. 2010;14:319–326. [Google Scholar]
  21. National Population Commission. Report of the final 2006 result. 2006. http://www.population.gov.ng/index.php Accessed March 10, 2011, 01:48 am.
  22. Adua T, Ofukwu RA, Akwuobu CA. Retrospective study and economic cost of clinical bovine trypanosomosis in nomadic herds in Plateau State, north-central Nigeria. Journal of Animal and Plant Sciences. 2009;2(2):85–88. [Google Scholar]
  23. Bertu WJ, Ajogi I, Bale JOO, Kwaga JKP, Ocholi RA. Sero-epidemiology of brucellosis in small ruminants in Plateau State, Nigeria. African Journal of Microbiology Research. 2010;4(19):1935–1938. [Google Scholar]
  24. Jacob MO, Farah KO, Ekaya WN. Indigenous knowledge: The basis for the Maasai ethnoveterinary diagnostic skills. Journal of Human Ecology. 2004;16(1):43–48. [Google Scholar]
  25. United Nations Children Education Fund (UNICEF) At a glance: Nigeria-statistics. 2009. http://www.unicef.org/infobycountry/nigeria_statistics.html Accessed 12.03.2011 at 02:30 am.
  26. Blench RM, Daniel P, Hassan U. Access rights and conflict over common pool resources in three states in Nigeria. Report to conflict Resolution Unit World Bank. 2003.
  27. Okoli IC, Okoli CG, Ebere CS. Indigenous livestock production paradigm: survey of plants of Ethnoveterinary importance in southeastern Nigeria. Topical Ecology. 2002;43(2):257–263. [Google Scholar]
  28. De Caluwe E, Halamova K, Van Damme P. Adansonia digitata L.: a review of traditional uses, phytochemistry and pharmacology. American Chemical Society Symposium Series. 2009;1021:51–84. [Google Scholar]
  29. Woolfe ML, Martin FC, Otchere G. Studies on the mucilages extracted from okra fruits (Hibiscus esculentus L.) and baobab leaves (Adansonia digitata L.) Journal of Science, Food and Agriculture. 1977;28:519–529. doi: 10.1002/jsfa.2740280609. [DOI] [Google Scholar]
  30. Ndjonka D, Agyare C, Luersen K, Djafsia B, Achukwi D, Nukenine EN, Hensel A, Liebau E. In vitro activity of Cameroonian and Ghanian medicinal plants on parasitic (Onchocerca ochengi) and free-living (Caenorhabditis elegans) nematodes. Journal of Helminthology. 2010;24:1–9. doi: 10.1017/S0022149X10000635. [DOI] [PubMed] [Google Scholar]
  31. Wannang NN, Jimam NS, Omale S, Dapar MLP, Gyang SS, Aguiyi JC. Effect of Cucumis metuliferus (Cucurmitaceae) fruits on liver enzymes and haematological parameters in albino rats. African Journal of Biotechnology. 2007;6(22):2515–2518. [Google Scholar]
  32. Chiej R. Encyclopaedia of medicinal plants. MacDonald; 1984. ISBNO-356-10541-10545. [Google Scholar]
  33. Appidi JR, Grierson DS, Afolayan AJ. Ethnobotanical study of plants used for the treatment of diarrhoea in the Eastern Cape, South Africa. Pakistan Journal of Biological Sciences. 2008;11(15):1961–1963. doi: 10.3923/pjbs.2008.1961.1963. [DOI] [PubMed] [Google Scholar]
  34. Joudi L, Ghasem HB. Exploration of medicinal species of Fabaceae, Lamiaceae and Asteraceae families in Ilkhji region, Eastern Azerbaijan Province (Northwestern Iran) Journal of Medicinal Plants Research. 2010;4(11):1081–1084. [Google Scholar]
  35. Ayannar M, Ignacimuthu S. Ethnobotanical survey of medicinal plants commonly used by the Kani tribals in Tirunelveli hills of Western Ghats, India. Journal of Ethnopharmacology. 2011;134(3):851–864. doi: 10.1016/j.jep.2011.01.029. [DOI] [PubMed] [Google Scholar]
  36. Giday M, Asfaw Z, Woldu Z. Medicinal plants of the Meinit ethnic group of Ethiopia: an ethnobotanical study. Journal of Ethnopharmacology. 2009;124:513–521. doi: 10.1016/j.jep.2009.05.009. [DOI] [PubMed] [Google Scholar]
  37. Tibuti JR, Dhillion SS, Lye KA. Ethnoveterinary medicines for cattle (Bos indicus) in Bulamogi county Uganda: plant species and mode of use. Journal of Ethnopharmacology. 2003;88:279–286. doi: 10.1016/S0378-8741(03)00265-4. [DOI] [PubMed] [Google Scholar]
  38. Hunde D, Asfaw Z, Kelbessa E. Use and management of ethnoveterinary medicinal plants by indigenous people in 'Boosat', Welenchetti area. Ethiopian Journal of Biological Sciences. 2004;3:113–132. [Google Scholar]
  39. Ghorbani A. Studies on pharmaceutical ethnobotany in the region of Turkmen Sahra, north of Iran (Part 1): general results. Journal of Ethnopharmacology. 2005;102:58–68. doi: 10.1016/j.jep.2005.05.035. [DOI] [PubMed] [Google Scholar]
  40. Ermias L, Ensermu K, Tamrat B, Haile Y. An ethnobotanical study of medicinal plants in Mana Angetu District, southeastern Ethiopia. Journal of Ethnobiology and Ethnomedicine. 2008;4:10. doi: 10.1186/1746-4269-4-10. [DOI] [PMC free article] [PubMed] [Google Scholar]
  41. Poonam K, Singh GS. Ethnobotanical study of medicinal plants used by the Taungya community in Terai Arc Landscape, India. Journal of Ethnopharmacology. 2009;123:167–176. doi: 10.1016/j.jep.2009.02.037. [DOI] [PubMed] [Google Scholar]
  42. Mujumdar AM, Upadhye AS, Misar AV. Studies on antidiarrhoeal activity of Jatropha curcas root extract in albino mice. Journal of Ethnopharmacology. 2000;70:183–187. doi: 10.1016/S0378-8741(99)00167-1. [DOI] [PubMed] [Google Scholar]
  43. Abdullahi AL, Agho MO, Amos S, Gamaniel KS, Wambebe C. Antidiarrhoeal Activity of the Aqueous Extract of Terminalia avicennoides Roots. Phytotherapy Research. 2001;15:431–434. doi: 10.1002/ptr.860. [DOI] [PubMed] [Google Scholar]
  44. Ahmadu AA, Zezi AU, Yaro AH. Antidiarrhoeal activity of the leaf extracts of Daniellia oliveri Hutch and Dalz (Fabaceae) and Ficus sycomorus Miq (Moraceae) African Journal of Traditional, Complementary and Alternative Medicine. 2007;4(4):524–8. [PMC free article] [PubMed] [Google Scholar]
  45. Bisi-Johnson MA, Obi CL, Kambizi L, Nkomo M. A survey of indigenous herbal diarrhoeal remedies of O.R. Tambo district, Eastern Cape Province, South Africa. African Journal of Biotechnology. 2010;9(8):1245–1254. [Google Scholar]
  46. Souto WMS, Mourao JS, Barboza RRD, Alves RRN. Journal of Ethnopharmacology. 3. Vol. 134. 2011; Parallels between zootherapeutic practices in ethnoveterinary and human complementary medicine in northeastern Brazil; pp. 753–767. [DOI] [PubMed] [Google Scholar]

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