Abstract
Background
Ethiopia is recognized as one of the centers of origin for the diversity of many plant species, including medicinal plants. Throughout the country, a large proportion of the population relies on these therapeutic plant species for primary healthcare. While such traditional medicinal knowledge has been documented in some regions, there is a lack of information from the Quara district of northwestern Ethiopia. Therefore, this study aimed to document the indigenous and local knowledge of the use of medicinal plants among three ethnic groups residing in the area.
Methodology
An ethnobotanical study was conducted from August 2022 to October 2023 in ten kebeles of the Quara district. Data were collected through semi-structured interviews, field walks, and focus group discussions with 286 informants using snowball, purposive, and random sampling techniques. Quantitative analyses included Rahman’s similarity index (RSI), informant consensus factor (ICF), and direct matrix ranking (DMR). Descriptive statistics were used to analyze basic ethnobotanical data.
Results
A total of 128 medicinal plant species from 112 genera and 50 families were documented and used to treat 14 disease categories. There was a 28% overlap in medicinal plant knowledge among the three ethnic groups studied. Fabaceae was the most represented family with 22 species. Trees accounted for the majority of the documented plants (37.5%), and leaves were the most commonly used plant parts (23.1%). Oral administration (56.7%) of plant extracts was the primary mode of remedy preparation and use. The highest ICF value (0.93) was recorded for circulatory and blood-related disorders. The study identified nine plants and 39 therapeutic uses not previously reported in Ethiopia. The RSI showed high overlap with neighboring areas and low similarity with distant areas. Top-ranked multipurpose plants were Ziziphus spina-christi and Terminalia leiocarpa, with agricultural expansion and fuelwood collection identified as major threats.
Conclusion
The findings demonstrate the rich diversity of medicinal plants and associated traditional knowledge in the Quara district. The high ethnobotanical indices warrant further phytochemical and pharmacological investigations. Integrated conservation efforts are recommended to address the challenges facing these valuable plant resources.
Similar content being viewed by others
Background
Humans have a long-standing relationship with plants, utilizing them for various daily needs such as food, shelter, fuel, medicines, and fodder [1]. Medicinal plants, in particular, have been integral to traditional healthcare systems, providing treatments for diverse human ailments [2]. The close interaction between man and nature has led to the accumulation of a wealth of traditional knowledge of medicinal plants. Traditional knowledge refers to the unique knowledge held by a particular culture or society, acquired over time through traditional practices [1]. The use of medicinal plants has been an integral part of traditional healthcare systems since antiquity.
The World Health Organization’s Traditional Medicine Strategy 2014–2023 acknowledges the critical role of traditional medicine, with traditional remedies, practitioners, and herbs providing healthcare for millions of people [3]. Approximately 80% of the global population still relies on traditional herbal medicines [4], and in developing countries, this figure can range from 50 to 95% [5, 6]. Ethiopia, a developing nation, exemplifies this widespread use of medicinal plants to treat various diseases in both humans and domestic animals [7]. Traditional medicine serves as the primary healthcare source for around 80% of the Ethiopian population, with over 95% of medical preparations derived from plants [8]. However, the continued existence of these medicinal plants is threatened by various factors, including habitat destruction, urbanization, agricultural expansion, deforestation, firewood collection, and environmental degradation [9,10,11].
Ethiopia, renowned for its exceptional plant diversity, cultural richness, and ancient medical practices, is a hub for ethnomedicinal research [12, 13]. The northwestern lowland area of the country, home to several protected areas and communal forests, is particularly known for its diverse plant species [14,15,16]. Quara, a district in this lowland area, is inhabited by indigenous communities with diverse ethnic backgrounds, including Gumuz, Amhara, and Agew [17, 18]. Additionally, the district has experienced in-migration from different parts of the Amhara region of the country, driven by government resettlement programs [19] and through informal means driven by the search for agricultural and grazing lands [17].
The healthcare system in Quara includes various facilities such as a hospital, health stations, clinics, and pharmacies. However, this infrastructure is severely limited, with only 169 health professionals serving a population of 93,629 [20]. As a result, the local community continues to rely heavily on traditional medicinal plants and associated knowledge. The hot temperatures are prevalent across most of the kebeles in Quara leaving the population vulnerable to a range of diseases and insect-borne illnesses. The top ten human ailments recorded in the district in four successive years (2017/18-2020/21) included malaria, typhoid and paratyphoid, acute upper respiratory infections, pneumonia, functional intestinal disorder, fever of unknown origin, dyspepsia, helminthiases, amoebiasis and disorder of urinary system [20]. Adding to the burden of the inadequate healthcare system, the district experiences a high influx of seasonal agricultural laborers, further straining the limited resources. The remote location of Quara, its distance from major towns, and its proximity to the Sudanese border have facilitated the exchange of traditional medicinal plant knowledge across communities. This has likely led to the discovery of novel ethnobotanical findings in the area. Consequently, the local people have been compelled to rely on and share their knowledge of traditional medicinal plants to address their healthcare needs. However, there are growing concerns about the potential loss of this traditional knowledge and skill, primarily due to habitat degradation, modern education, acculturation, and the waning interest of younger generations [21, 22]. This problem is also prevalent in the lowlands of northwestern Ethiopia.
Despite numerous ethnobotanical studies conducted across Ethiopia in recent years, the traditional medicinal plant knowledge of the Quara district remains undocumented. Given the district’s cultural diversity, rich vegetation cover, and other factors contributing to its reliance on traditional medicine, it is hypothesized that a wealth of valuable medicinal plant knowledge exists among the ethnic groups in Quara that warrants further study. Moreover, comparing the findings of such a study with the broader Ethiopian ethnobotanical medicinal plant database could provide valuable insights into the regional distribution and utilization of these plants, further enriching our understanding of Ethiopia’s remarkable traditional plant-based healthcare system.
Given the unique cultural and ecological context of Quara, as well as the pressing need to document and preserve its traditional medicinal plant knowledge, the present study aims to (i) document the medicinal plants and associated indigenous knowledge used by the local communities, (ii) assess the major threats to the medicinal plants, and (iii) identify and report any new ethnomedicinal plant species data and usage information not previously recorded. The overarching goal of these research objectives is to contribute to the conservation and sustainable utilization of valuable plant resources in the unique cultural and ecological context of Quara.
Materials and methods
Description of the study area
The study was conducted in Quara district, located in the West Gondar Zone of the Amhara Region in northwestern Ethiopia (Fig. 1). The district is situated between 11°47′5.4″ and 12°31′3.6″ N latitude and 35°15′48″ to 36°48′51″ E longitude, with an altitude range of 530 to 1900 meters above sea level [23].
Map of Ethiopia showing the Amhara region and the study sites
Quara district comprises 28 kebeles, which are the smallest administrative units. The average annual temperature in the district ranges from 25 to 35 °C, and the mean annual rainfall varies between 600 and 1200 mm [24]. The district experiences an unimodal rainfall pattern, with the rainy season starting in early May and ending in early October. The months between October and May are characterized by dry, hot weather conditions [23]. According to the Central Statistical Agency [25], the district had a total population of 94,106, with 50,021 (53.15%) men and 44,085 (46.85%) women. Of the total population, 89,375 (94.97%) resided in rural areas. The study area has a diverse ethnic composition, primarily consisting of the Amhara, Agew, and Gumuz communities. The predominant religion is Ethiopian Orthodox Christianity. The primary language spoken in the area is Amharic, with other locally known languages including Agewgna, Gumuz, and Datsien [17].
In terms of topography, the district is characterized by flat to undulating plains that slope from south to north. The landscape features valleys, streams, scattered hills, and seasonal wetlands in the lowlands. As the terrain transitions to the midland agroecology, it becomes steep, rugged, and scenic. The lowland area of the district is widely used for investment in Ethiopia, and the main sources of income are mixed crop-livestock systems. These systems involve the production of sesame, sorghum, maize, and cotton, as well as the rearing of livestock such as cattle, goats, and equines [23]. The district’s vegetation is categorized under the Combretum-Terminalia woodland and wooded grassland vegetation type [26]. Additionally, the area contains other diverse ecosystem complexes, including intact scrublands, riverine vegetation, seasonal wetland vegetation, open wooded grasslands, and hilly area woodlands [27].
Research design
Reconnaissance survey and site selection
The researchers obtained a formal letter from the Vice President for Research and Technology Transfer of the University of Gondar to conduct the study with clearance number 1059/2022. Then, we presented this letter to the Quara district administration office and received permission to proceed with a reconnaissance survey and select sample kebeles for the actual study. The reconnaissance survey was carried out from July 15–22, 2022, in the Quara district.
After the reconnaissance survey, ten kebeles were selected through stratified random sampling, based on the recommendations of district administrators, local authorities, and elders. The selected sample kebeles represented 35.7% of the total 28 kebeles in the Quara district. The criteria for selecting the sample kebeles included the presence of traditional healers, agroclimatic conditions (lowland and midland), ethnic distribution (Amhara, Agew, and Gumuz), and settlement history (local inhabitants and settlers).
Sample size determination and informant selection
To determine representative samples for the study area, Cochran’s formula [28] as cited in [29] was used. Accordingly, a total of 286 informants (195 males and 91 females) were chosen (Table 1). Among them, 58 were key informants, while 228 were general informants. The key informants were purposefully selected in consultation with local authorities and elders, as well as using the snowball sampling method. The general informants were selected through a random sampling method, considering factors such as age, sex, cultural background, settlement history, and agroecology.
Data collection
Ethnobotanical information was collected through face-to-face interviews with informants. For this purpose, pre-planned semi-structured questionnaires, and standardized data collection protocols [30,31,32] were used. Extensive field trips, accompanied by informants, were conducted from August 2022 to October 2023 to identify and collect therapeutic plant species used in the district. The interviews were primarily conducted in the Amharic language, which is the common language of the study area. However, when informants spoke other languages, local translators were engaged. Subsequently, all the documented data were translated into English. The checklist contained questions focused on local names of medicinal plants, their habits, parts used, diseases treated, and mode of preparation and administration.
In addition, for on-site data collection, guided field walks with the informants were carried out, during which notes were taken on local names, plant specimens were collected, and information on habits, habitats, status, and other relevant details of the therapeutic plant species were recorded. Moreover, four focus group discussions were held with seven key informants in each discussion. These discussions covered various topics, such as threats to medicinal plants, conservation practices, antidotes, and dosage following the approach outlined by [33]. The focus group discussions helped to validate the data collected from the informants.
Specimen identification
The collected voucher specimens were authenticated using taxonomic literature, reference voucher specimens, and various books on the Flora of Ethiopia and Eritrea. The identification of the specimens was conducted at the National Herbarium (ETH) of Ethiopia, Addis Ababa University, and at the Herbarium of University of Gondar with the guidance of an expert. The species, genus, and family names were further validated using the Plants of the World Online (https://powo.science.kew.org.) website. Finally, the identified plant specimens were dried, pressed, mounted on herbarium sheets, and deposited at the Herbarium of the Department of Biology, University of Gondar, Gondar, Ethiopia.
Data analysis
For this study, a combination of qualitative and quantitative ethnobotanical methodologies was employed, as proposed by [33, 34]. The ethnobotanical data were entered into an Excel spreadsheet, version 2013, and subjected to comprehensive analysis using descriptive statistical methods, such as percentages, proportions, and frequencies. To determine the impacts of socio-demographic factors on ethnobotanical knowledge, the variables gender, age, education level, healing experience, settlement history, and ethnic background were analyzed using SPSS, version 29 software. The Kruskal–Wallis H test, a nonparametric alternative to the one-way ANOVA, was performed to examine the relationships among age, education level, and ethnic background categories. The Mann–Whitney U test, a nonparametric alternative to the independent sample t-test, was carried out to compare gender, healing experience, and settlement history. Medicinal plant knowledge was determined in terms of the number of medicinal plants mentioned by different respondents. The quantitative analyses included calculating ethnobotanical indices as described below:
Informant consensus factor (ICF)
The informant consensus factor (ICF) is used to assess the consensus or homogeneity of ethnobotanical information provided by participating informants [35]. The ICF is calculated using the following formula:
where Nur represents the total number of use reports cited for each disease category, and Nt represents the number of species used in that disease category. The ICF value can range from 0 to 1, with 0 indicating no exchange of use information among informants and 1 suggesting a high level of knowledge exchange.
Rahman’s similarity index (RSI)
The Rahman’s similarity index (RSI) is used to measure the cultural similarities of indigenous knowledge among different communities in various areas. It is based on the common plant species found in those areas and their uses [36]. The RSI is calculated using the following formula:
where “a” is the number of unique species in area A; “b” is the number of species unique in area B; “c” is the number of common species in both areas A and B; and “d” is the number of common species used for similar ailments in both areas A and B. Please note that “a” and “b” cannot be zero, and “c’ and “d’ must be greater than or equal to zero.
To determine the percentage of common uses between two areas, the formula can be expressed as
Using a similarity index, the findings of the present work were compared with 32 other similar studies conducted previously with similar vegetation coverage.
Direct matrix ranking (DMR)
To compare multipurpose medicinal plants commonly reported by informants, a direct matrix ranking (DMR) exercise was used. The DMR method, as described by [33, 34], was employed to score the use diversity of selected medicinal plants. Accordingly, eight multipurpose plant species were selected based on their use citations. Of the many multipurpose uses of medicinal plants, eight common uses in the study area were selected for the exercise. A total of twelve key informants were chosen to independently assign use values (5 = best, 4 = very good, 3 = good, 2 = less used, 1 = least used, and 0 = not used). Based on the data obtained from each of the key informants, the given values for each species and use category were added and averaged. Finally, the values for each species and use category were summed and ranked.
Results
Socio-demographics of the informants
The socio-demographic characteristics of the informants were analyzed using statistical tests (Table 2). The Mann–Whitney U Test revealed a significant difference (p < 0.05) among gender, healing experience, and settlement history. Specifically, the males, key informants, and local inhabitants mentioned a greater number of medicinal plants than females, general informants, and settlers, respectively. The Kruskal–Wallis H test revealed a significant difference (p < 0.05) among the age categories, education level, and ethnic background. The older members reported more medicinal plants than other age groups. Education-wise, those who could read and write reported a greater number of medicinal plants compared to the other educational categories. Regarding ethnic background, the Gumuz listed more medicinal plants than the other ethnic groups.
Medicinal plant diversity
A total of 128 species of medicinal plants were found in the Quara district for treating human ailments. These species were distributed across 112 genera and 50 families (See Supplementary Material 1). Of the total number of families, 23 families (46%) had two or more species, while the remaining 27 families (54%) had only one species each. The family with the greatest number of species was Fabaceae (22 species), followed by Malvaceae (9 species) and Combretaceae (7 species). In terms of plant habit, trees accounted for 37.5% of the species, whereas climbers (4.7%) had the lowest proportion (Fig. 2).
Habits of medicinal plants in Quara district
Plant parts and conditions for preparing remedies
Different plant parts were reported to be used in remedy preparation in the district (Fig. 3). The leaf was the most used plant part (23.1%), followed closely by the root (22.8%). Other plant parts like bulb, stem, root bark, flower, resin, seed pod gum, and tuber, accounted for a total of 8.6%. Most of the remedies were prepared using freshly collected plant parts (61.6%), followed by either fresh or dry parts (19.6%), or dry parts (18.8%).
Plant parts used for remedy preparation in Quara district
Ailments treated with medicinal plants
The study found that a total of 76 human ailments were treated using the 128 medicinal plant species identified in the district (see Supplementary Material 1). Of the total medicinal plant species, the majority (101 species, 79%) were able to treat two or more ailments, while 27 species (21%) were used to treat single ailments. Some of the plants that demonstrated particularly broad medicinal application included Ximenia americana, Moringa stenopetala, and Terminalia leiocarpa, each of which was able to treat ten different ailments. Another plant, Solanum incanum, was used to treat nine ailments. In addition to using individual plant species, the traditional healers in the study area also combined multiple parts to create remedies for various ailments. A total of 28 plant species were used in two or more combinations for this purpose. For instance, the mixture of the roots of Securidaca longepedunculata, Allium sativum, Capparis tomentosa, Withania somnifera, and Cucumis ficifolius was powdered and smoked to treat the evil eye. A drink was prepared using a combination of the roots of Carissa spinarum, and Ruta chalepensis, along with the bulb of Allium sativum, to treat snakebites.
Methods of preparation and route of administration of remedies
The communities in the study area utilized a variety of methods to prepare and administer traditional medicinal remedies. The most common preparation methods were extraction (17.5% of preparations), decoction (13.4% of preparations), and paste (10.2% of preparations). Additionally, seven other preparation methods accounted for a total of 5.2% of the remedies (Fig. 4). In terms of routes of administration, over half of the remedies (211 preparations, 56.7%) were administered orally. This was followed by topical application, which accounted for 32.5% of the preparations (121 in total) (Fig. 5).
Methods of remedy preparation in Quara district
Route of administration of medicinal plants in Quara district
Ethnobotanical knowledge distribution among ethnic groups
The study examined the ethnobotanical knowledge and use of medicinal plants across the three main ethnic groups in the district—the Amhara, Agew, and Gumuz using the Venn diagram (Fig. 6). Among the three ethnic groups, 57 plant species were reported by the Agew ethnic group, 70 by the Gumuz, and 107 by the Amhara ethnic groups. Analysis of the distribution of plant resources revealed that 28% of the plants studied overlapped among the three ethnic groups. The pairwise comparisons showed that the Amhara and Gumuz ethnic groups had the highest degree of similarity, sharing 15.63% of their medicinal plant species., followed by the Amhara and Agew groups (8.6%), and the Agew and Gumuz ethnic groups had the lowest overlap, sharing only 2.34% of their medicinal plant species. In total, the three ethnic groups collectively utilized 36 species of medicinal plants in common across the district.
Venn diagram of medicinal plants among the studied ethnic groups in Quara district
Informant consensus factor
The study calculated the ICF to identify the most effective medicinal plants for treating common ailments in the district. The ICF values were calculated based on disease categories, which were determined using the International Classification of Diseases [37] with some modifications. Overall, 14 disease categories were identified, with ICF values ranging from 0.75 to 0.93 out of a maximum of 1.0 (Table 3). The diseases categories with the highest ICF values were diseases of the circulatory system and blood/blood-forming organs (ICF = 0.93), followed closely by infectious and parasitic diseases, and symptoms, signs, and clinical findings not elsewhere classified both with an ICF value of 0.92.
When analyzing the ICF in terms of the number of use citations and plant species mentioned, the data shows that the diseases and symptoms involving infectious and parasitic diseases (639 use citations, 54 species), diseases and symptoms involving the nervous system (553 use citations, 48 species), and diseases and symptoms involving the digestive system (500 use citations, 60 species) had a greater number of use citations and species compared to other disease categories.
Rahman’s similarity index
The present ethnobotanical findings from the Quara district were compared to 32 previously published studies conducted in various parts of Ethiopia using the RSI. The RSI percentage values ranged from 0 to 12.93 across the different studied areas that were compared (Table 4).
Direct matrix ranking exercise
A direct matrix ranking (DMR) exercise was conducted in the Quara district to assess and prioritize the most important medicinal plant species utilized by the local communities (Table 5). The results of the DMR exercise showed that Ziziphus spina-christi, Terminalia leiocarpa, and Ficus sycomorus were the top-ranked medicinal plant species. Furthermore, the DMR exercise also evaluated the various use categories for these plants in the district. Accordingly, use as medicine, livestock forage, and a source of food were the most common use categories in the district.
Novel ethnobotanical findings
The current ethnobotanical study in the Quara district has uncovered several novel findings. Specifically, the research team identified nine medicinal plant species that were reported for the first time in Ethiopia through this study (Table 6). Of these nine newly documented medicinal plants, seven have been previously reported to have medicinal uses in other parts of the world. However, two species–Dracaena forskaliana and Ipomoea biflora–had not been associated with any known medicinal applications prior to this study. Additionally, the study reported 39 new use cases for medicinal plant species compared to what had been previously documented in other ethnobotanical studies published in Ethiopia (see Supplementary Material 2).
Threats to medicinal plants and conservation efforts
The ethnobotanical study in the Quara district revealed several threats to the sustainability of medicinal plant resources and indigenous knowledge in the area. During group discussions, participants prioritized seven key threats to medicinal plants: use of herbicides/insecticides, human-induced fires, agricultural land expansion, construction activities, collection of fuel wood, use of plants for farm implements, and overgrazing. Additionally, the participants mentioned other threats such as the use of medicinal plants for house utensils, informal cross-border trade to neighboring Sudan, deforestation, seasonal migration patterns, and climate change-induced events like drought. The group participants also noted that there were minimal management practices in place for medicinal plants.
To further understand the severity of these threats, we conducted interviews with 12 key informants, who were asked to rank the seven prioritized threats to medicinal plants. The results showed that agricultural expansion was considered the primary threat, followed by the collection of fuel wood and its use for construction purposes (Table 7).
The ethnobotanical study in Quara district has highlighted the significant threats facing several important medicinal plant species due to their extensive and unsustainable utilization. Ximenia americana is a vital medicinal plant in the region, with its root used to treat spider bites and diarrhea, and its stem bark used for jaundice and uvulitis. However, the excessive harvesting of the root and stem bark is leading to a concerning decline in the plant’s population. Similarly, Carissa spinarum is an important medicinal resource, with its root used to treat a variety of common illnesses, including snakebites, evil spirits, and the evil eye. The reported decline in the Carissa spinarum population in the area is particularly alarming. Securidaca longepedunculata is another highly sought-after medicinal plant, with its root extensively used to treat snakebites, the evil eye, and febrile illnesses. The root of this plant is commonly found in local markets and has even been reported to be illegally exported to neighboring Sudan for medicinal purposes, further exacerbating the threats to its population. Boswellia papyrifera is also facing threats due to the utilization of its stem bark for the treatment of scorpion stings, spider bites, and uvulitis, coupled with the various diseases affecting the plant, leading to a decline in its population.
Discussion
Socio-demographics of the informants
The ethnobotanical study conducted in the Quara district has yielded valuable insights into the socio-demographic factors influencing the knowledge and utilization of medicinal plants in the local community. Accordingly, the study found that men were more knowledgeable about medicinal plants than women. In the study area, men were more likely to be exposed to social affairs, which facilitates their acquisition of knowledge. Our data support the findings of [75, 76] who reported similar outcomes.
It was also found that older informants, aged 60 years and above, demonstrated a higher level of knowledge of medicinal plants compared to the younger age groups (20–39 years and 40–59 years). This aligns with the findings of previous research [46], which suggest that the older generation’s extended cultural exposure, exchange, and practical experience contribute to their greater knowledge in this domain. Studies also identified a concerning trend that the indigenous knowledge on the use of medicinal plants is deteriorating due to the passing away of the knowledgeable older generation before they can effectively transfer their knowledge to the next generation [49, 77, 78]. This challenge is exacerbated by the younger generation’s lack of interest in learning from their elders. As a result, there is a risk of losing this invaluable indigenous wisdom as the older members of the community pass away.
Among the three informant groups categorized by educational level, those who could read and write cited the highest number of medicinal plants, followed by illiterate informants, and those with formal education. This finding is consistent with other studies [49, 78], which suggest that lower levels of education are associated with greater knowledge of medicinal plants, possibly due to the impact of modern education [10]. The ability of those who can read and write to recall and utilize the medicinal plants they are familiar with may be connected to their overall higher level of knowledge compared to the illiterates. This finding highlights the complex interplay between formal education, literacy, and the retention and application of traditional medicinal plant knowledge.
Key informants, such as herbal practitioners, cited more medicinal plants than the general informants, reflecting their full-time experience in utilizing these plants for treatment, as supported by previous research [49]. Although settlers (both formal and informal) and local inhabitants coexist harmoniously, the local inhabitants mentioned a larger number of medicinal plants compared to settlers. This could be because local inhabitants have lived in the area for a longer period and are therefore more familiar with the plants that grow there. The Gumuz ethnic group was found to be the most knowledgeable about medicinal plants compared to other ethnic groups in the study area. This can be attributed to the Gumuz people’s heavy reliance on flora and fauna for their health and everyday survival, as well as the exchange of indigenous knowledge, particularly medicinal plant knowledge, within their community and with neighboring Sudan.
Medicinal plant diversity
The study identified a rich diversity of medicinal plants used to treat human ailments in the Quara district, with a total of 128 medicinal plant species documented. This figure exceeds the counts reported in recent ethnobotanical studies conducted in other parts of Ethiopia. As an example, studies in the Raya Kobo [7], Suro Barguda [13], Artuma Fursi [66], Asagirt [49], and Ensaro [63] districts recorded 74, 98, 92, 103, and 101 medicinal plant species, respectively. Several factors may contribute to the greater number of medicinal plants utilized in the Quara district. These include ethnic diversity in the area, and the influx of settlers from different parts of the Amhara region; the rich plant diversity, particularly due to the presence of communal forest areas; the district’s proximity to Sudan, which has facilitated the exchange of indigenous knowledge; the remote location of the area and inadequate access to formal healthcare, leading the community to rely more on traditional medicine; and the prevalence of various human ailments, such as febrile illness, evil eye, evil spirit, snakebite, spider sting, tonsillitis, wound healing, intestinal parasites, diarrhea, and amoebiasis, which may necessitate the use of a broader range of therapeutic plant species (see Supplementary Material 1). Furthermore, the large number of recorded medicinal plant species emphasizes the continued relevance and indispensability of plant-based remedies in fulfilling the primary healthcare requirements of the population, particularly in areas with limited access to conventional medical services.
The dominance of the Fabaceae family among the medicinal plants identified can be attributed to the evolutionary adaptations of this plant family in the local environment. The ability of Fabaceae species to form symbiotic relationships and thrive in nitrogen-deficient soils, as well as their capacity to develop extensive root systems and outcompete other plants for resources, provides them with a competitive advantage in the area [79, 80]. This finding is consistent with previous ethnobotanical studies conducted in Ethiopia [49, 78, 81], and other parts of the world [82,83,84].
Regarding the habit of medicinal plants, the study found that the people of the Quara district utilized trees and herbs in nearly equal proportions. This observation aligns with the findings of a previous ethnobotanical study conducted in Ethiopia [78, 85], where a similar pattern was reported. However, it is important to note that in some other ethnobotanical studies, shrubs were reported to be the most widely used medicinal plant habit [13, 66, 75]. This variation may be attributed to differences in the local plant community composition and ecological conditions. Lowland areas with sufficient rainfall, like the Quara district, are typically dominated by woody species, forming woodlands, which could explain the prominence of trees and underneath herbs as medicinal plants in the present study.
Plant parts and the conditions for preparing remedies
The study found that the most commonly used plant parts for remedy preparation were leaves, followed closely by roots. This observation is consistent with the findings of many other ethnobotanical studies conducted in Ethiopia [13, 46, 77, 78] and globally [83, 86]. The predominant use of leaves for remedy preparation in the study area can be attributed to several factors such as easy accessibility, abundantly availability, and their primary site for the accumulation of many bioactive compounds. Furthermore, picking leaves has less effect on the plant species’ survival. While roots have been reported as the most frequently used plant parts in a few other studies [75, 82, 87], the extensive use of roots can pose a risk to the long-term survival of medicinal plant populations [8, 88].
Consistent with previous studies conducted in Ethiopia [10, 49, 89], the majority of the remedies in the Quara district were prepared using fresh plant parts. The use of fresh plant materials is generally associated with higher efficiency of the bioactive components [75]. However, the fact that most of the medicinal plants in the study area were trees, and the fresh parts were primarily collected, suggests that the availability of remedies may have been limited to certain seasons of the year, as many trees shed their leaves during the dry season.
Ailments treated with medicinal plants
The analysis of the data on the diversity of medicinal plant use revealed that more than three-quarters of the identified species were employed to treat multiple diseases. This finding suggests a widespread adoption and utilization of these medicinal plants by the local community, which agrees with [90]. The versatility of many medicinal plants reported in this study for treating different health conditions may be attributed to the combined action of the various bioactive constituents present in these plants. In association with this finding, [91] reported that the synergistic effects of the different medicinal components can potentially enhance the catalytic activity and facilitate the absorption of the beneficial compounds in the human body. These findings highlight the need for further scientific investigation into the phytochemical profiles and pharmacological properties of these versatile medicinal plants. Unraveling the underlying mechanisms that enable certain medicinal plants to treat a diverse array of ailments can contribute significantly to the development of more effective and holistic traditional medicine practices. This knowledge can be instrumental in improving the overall health and well-being of the local population.
Methods of preparation and route of administration of remedies
The study found that the most frequent methods of preparing medicinal remedies in the Quara district were extraction, decoction, paste, and chewing. These preparation methods align with the findings of previous ethnobotanical studies conducted in different regions [51, 92, 93]. The informants reported that there was no standardized approach to administering the remedies, and the method varied depending on factors such as the patient’s age and health condition. This observation is consistent with the findings of other studies [94], indicating the flexibility and patient-specific nature of traditional medicine practices. Oral administration was identified as the primary route of delivering herbal remedies in the Quara district. This observation is in line with the findings of other ethnobotanical studies, which have also reported the oral route as the predominant mode of administration for traditional medicines [49, 95]. The diversity of preparation techniques and administration routes observed in the study highlights the depth of traditional knowledge within the local community. Healers and practitioners likely adjust their approaches based on the specific needs and conditions of the patients, drawing from a wealth of experiential knowledge accumulated over generations.
Ethnobotanical knowledge distribution among ethnic groups
The study found that more than a quarter (28%) of the medicinal plants were mentioned across all three ethnic groups. However, the Amhara ethnic group reported a greater number of medicinal plants compared to the other groups. The higher mention of medicinal plants by the Amhara is likely due to their large population size and extensive agricultural land coverage in the area. Additionally, the seasonal movement of the Amhara people from neighboring highland districts to Quara for farming and livestock rearing may have facilitated the sharing of medicinal plant knowledge within their community. In contrast, the Agew ethnic group reported a smaller number of medicinal plants, possibly due to the secretive nature of their traditional knowledge, which is a common phenomenon observed in many traditional communities. The findings of this study, as well as several previous studies [96,97,98], emphasize that the diversity of medicinal plant knowledge is often influenced by the ethnicity and cultural background of the communities. These insights underscore the importance of considering the ethnic and cultural context when documenting and understanding traditional medicinal plant knowledge.
Informant consensus factor
The study reported ICF values ranging from 0.75 to 0.03 indicating a strong consensus among the informants regarding the therapeutic uses and efficacy of certain medicinal plant species, as described in [99]. The highest ICF value of 0.93 was observed for diseases related to the circulatory system and blood/blood-forming organs. This aligns with findings from other studies [100, 101] and suggests that the local community has confidence in the medicinal plants of the study area for treating these types of conditions. Specifically, hypertension and anemia were the two diseases highlighted in this high consensus category, with 71 and 15 use citations, respectively. Among the three species reported to treat hypertension, Moringa stenopetala had the most citations, with 67 use reports. The informants mentioned that hypertension can be effectively treated by boiling the leaves of Moringa stenopetala and consuming the resulting decoction as tea.
The second-highest ICF value was recorded for the category of infectious and parasitic diseases. This finding is consistent with the results reported in [102], which found high ICF values for viral, fungal, bacterial, and other parasitic infections. Within this category, Malaria had the highest number of use reports, with a total of 118 use reports. Azadirachta indica was the most cited species for treating malaria. The highest use report of Azadirachta indica could be attributed to its ability to adapt to local environments and its effectiveness in conventional uses. Informants indicated that malaria can be treated by either boiling the plant parts or consuming the decoction once it has cooled or by crushing the stem bark, adding water, and drinking the resulting fluid.
The use of multiple species reported for diseases and symptoms related to the digestive system is likely attributed to factors such as malnutrition, poor hygiene, irregular dietary routines, and contaminated drinking water [103]. A high ICF can be an indication of potentially effective medicinal plants [35]. These findings indicate that the local community has a well-established and shared knowledge base regarding the therapeutic efficacy of certain medicinal plants, particularly for circulatory and blood-related conditions. This high level of consensus can help prioritize these medicinal plants for further phytochemical and pharmacological investigations, as well as inform the development of culturally relevant healthcare interventions.
Rahman’s similarity index
The highest RSI of 12.93% was found in a study carried out in the Metema district of northwestern Ethiopia [43]. This was followed by studies in the Habru district of northcentral Ethiopia with an RSI of 11.48% [51] and in the Hawassa, Shashemene, and Dilla districts of southcentral Ethiopia with an RSI of 10% [54]. Northern Ethiopian districts like the Adwa (RSI = 9.47%) [46], the Erob and Gulomahda districts (RSI = 9.31%) [47], and the Kilte Awulalo district (RSI = 9.09%) [44] also had higher RSI values. The RSI gradually decreased from the northern, northwestern, northcentral, and southcentral regions to the western, southwestern, southern, southeastern, and northeastern regions of the country.
The high RSI between the current study and Metema district [43] can be attributed to the geographical proximity of these two neighboring districts. The similarities observed with other regions in the northwestern, northern, northcentral, and northeastern parts of Ethiopia can be explained by factors such as geography, cultural practice, and vegetation coverage [82, 104]. The gradual decrease in RSI from the northern to southern areas is likely influenced by the distance and geographical barriers that impede the exchange of information on the use of ethnomedicinal plants [82, 105]. These findings suggest that the use of traditional medicinal plants is more homogeneous in geographically proximate and culturally similar regions, while diversity increases with distance and geographic barriers. This highlights the importance of considering regional and cultural factors when studying traditional plant-based healthcare practices.
Direct matrix ranking
The DMR exercise helped to determine the most heavily used multipurpose plant species in the Quara district, as well as the factors posing a threat to these plants. Accordingly, the top three most used multipurpose plant species were Ziziphus spina-christi, Terminalia leiocarpa, and Ficus sycomorus. These plants are currently exploited primarily for their medicinal properties rather than their non-medicinal uses. This finding aligns with previous research [106] that highlighted the use of medicinal plants for medicinal purposes as the primary threat among the five threats evaluated in the DMR exercise. The specific plant parts utilized for medicinal purposes play a crucial role in determining whether a plant is at risk. For instance, the root, root bark, and stem bark of Ziziphus spina-christi are used for various ailments, increasing the susceptibility of this plant to threats. Similarly, the stem and stem bark of Terminalia leiocarpa are utilized for treating different ailments, leading to its vulnerability. The findings from the DMR exercise suggest that the overexploitation of these multipurpose plants, particularly for their medicinal uses, poses a significant threat to their sustainability in the Quara district. This highlights the need for conservation strategies that consider the balance between medicinal and non-medicinal uses of these important plant resources.
Novel ethnobotanical findings
Out of the 128 medicinal plant species identified in the current study, 80 of them had been previously reported to have the same uses. This suggests a strong cultural exchange of traditional plant-based healthcare practices among communities across Ethiopia [55]. From the remaining 48 species, there were nine new reports of medicinal plants in Ethiopia, highlighting the incredible biodiversity of the area studied. Notably, two of these medicinal plants–Dracaena forskaliana and Ipomoea biflora–were not reported elsewhere in the world, making them novel global discoveries as well. The identification of these two species as new medicinal plants is particularly remarkable, as it suggests that the traditional health practices of the local communities in the Quara district encompass the utilization of plant resources that have not been recognized for their medicinal properties elsewhere. These discoveries expand the existing knowledge of traditional medicinal applications of plants in the Quara district. In addition to the new medicinal plant species, the study also reported 39 new use cases for plants that were already known. For instance, the study revealed that the leaf of Rumex nepalensis is used to treat malaria, whereas previous studies had reported its use for 24 different ailments [29, 30, 39,40,41,42, 45,46,47, 49, 51, 58, 59]. Similarly, the study found that the root of Albizia gummifera is chewed for snakebite treatment, whereas earlier studies had reported its use for 23 different ailments [43, 46]. Furthermore, the present study identified Amaranthus caudatus as a medicinal plant used for treating anemia, in contrast to the nine previously reported uses, including constipation, wound healing, febrile illness, urinary problems, common cold, malnutrition, rheumatism, stomachache, and diarrhea [29, 45, 47, 50].
The researchers were able to uncover these previously unmentioned medicinal plants and discover new uses for known plants by performing ethnobotanical investigations from an ethnic-based perspective and exploring new areas. Similarly, another study [107] reported new medicinal plant species by taking an ethnic-based approach in an area previously not studied. The discovery of these previously unreported medicinal plants in the Quara district highlights the potential for further documentation and exploration of traditional ethnobotanical knowledge in Ethiopia. To validate the efficacy of these newly reported uses and plants, further phytochemical research is needed. This research has the potential to provide valuable insights into medical sciences [108] and strengthen the traditional medicinal practices that have been passed through generations [107].
Threats to medicinal plants and conservation efforts
The greatest threat to medicinal plants in the district is agricultural land expansion, consistent with previous research in Ethiopia [10, 106, 109]. Other reported threats include deforestation, habitat loss, drought, furniture production, informal export, settlement, land degradation, and encroachment on communal forests. The main drivers of this agricultural land expansion are population pressure and low land productivity. The unsustainable exploitation of specific medicinal plants, such as Ximenia americana, Carissa spinarum, Securidaca longepedunculata, and Boswellia papyrifera, threatens their status. To address this, it is crucial to implement awareness programs and conservation education involving stakeholders and local communities to prevent disruptions in the population dynamics of these threatened species. However, the study area currently has limited conservation and management practices for medicinal plants. The local community’s reported conservation efforts include cultivating plants in home gardens and preserving them in agricultural lands.
Beyond their medicinal applications, the medicinal plant species documented in this study also serve a multitude of other vital purposes within the local communities. These plants are cultivated and utilized for their aesthetic value, as living fences, as sources of food, and shade, and as fuel for firewood. This diverse spectrum of uses underscores the deep cultural and ecological significance of these natural resources. Strengthening the existing conservation and management practices surrounding these medicinal plants is, therefore, essential for ensuring their long-term sustainability and continued availability to the local population. Safeguarding these invaluable natural resources is not only crucial for preserving traditional medicine knowledge and practices, but also plays a critical role in bolstering food security within the area. This study contributes to environmental protection by prioritizing the major threatening factors to the study area’s natural resources. Identifying these key threats can help halt further degradation of the environment and enable the development of appropriate conservation and management strategies. This, in turn, will aid in protecting against the loss of species and other natural resources in the study area and similar environments.
Conclusion
This comprehensive study represents the first detailed exploration of indigenous ethnomedicinal knowledge in the Quara district of Northwestern Ethiopia. The documentation of 128 medicinal plants used to treat 76 common ailments across 14 disease categories highlights the rich diversity of plant resources employed for healthcare purposes. This finding underscores the importance of further exploring and preserving the indigenous knowledge of medicinal plant use.
The study also highlights the ethnic distribution of medicinal plant knowledge, with the Amhara, Gumuz, and Agew ethnic groups contributing to the documentation of medicinal plant species. This underscores the importance of cultural diversity and the role of different communities in preserving and sharing traditional knowledge. The high ethnobotanical indices of certain plants suggest the need for further phytochemical and pharmacological investigations to uncover their medicinal properties and potential use in drug development.
Furthermore, this ethnobotanical investigation in the Quara district has uncovered both new medicinal plant species as well as new use reports that were previously undocumented. This makes it a valuable contribution to the understanding of traditional plant-based healthcare practices in Ethiopia, indicating the potential for further exploration and discovery of novel remedies. The comparison with previous studies in neighboring areas shows a high degree of use similarity, highlighting the shared traditional knowledge and practices in the region.
The findings of this study also have implications for conservation efforts. The identification of threats to medicinal plants, such as agricultural land expansion and fuelwood use, underscores the need for integrated conservation strategies. Protecting and sustainably managing these plant resources is crucial to ensure their availability for future generations and to address the challenges they face.
Overall, this ethnobotanical study provides valuable insights into the traditional use of medicinal plants in the Quara district, Northwestern Ethiopia. The documentation of plant species, their therapeutic uses, and the associated traditional knowledge contributes to our understanding of the local healthcare system and provides a foundation for further research and conservation efforts. The study highlights the importance of preserving cultural diversity, promoting interdisciplinary collaboration, and integrating traditional medicine with modern healthcare practices for the benefit of local communities and the broader field of medicine.
Abbreviations
- DMR:
-
Direct matrix ranking
- QDOA:
-
Quara district office of agriculture
- ICF:
-
Informant consensus factor
- RSI:
-
Rahman’s similarity index
References
Towns AM, van Andel T. Wild plants, pregnancy, and the food-medicine continuum in the southern regions of Ghana and Benin. J Ethnopharmacol. 2016;179:375–82. https://doi.org/10.1016/j.jep.2016.01.005.
Alarcon R, Pardo-de-Santayana M, Priestley C, et al. Medicinal and local food plants in the south of Alava (Basque Country, Spain). J Ethnopharmacol. 2015;176:207–24. https://doi.org/10.1016/j.jep.2015.10.022.
World Health Organization. WHO traditional medicine strategy 2014–2023. Geneva: World Health Organization; 2013.
Hu R, Lin C, Xu W, Liu Y, Long C. Ethnobotanical study on medicinal plants used by Mulam people in Guangxi China. J Ethnobiol Ethnomed. 2020;16(1):1–50.
Pan X, Zhang A, Henderson GE, et al. Traditional, complementary, and alternative medical cures for HIV: rationale and implications for HIV cure research. Glob Public Health. 2019;14(1):152–60. https://doi.org/10.1080/17441692.2017.1413122.
Wanjohi BK, Njenga EW, Sudoi V, et al. Ecological knowledge of indigenous plants among the Marakwet community (Embobut Basin) Elgeyo Marakwet County (Kenya). Ethnobot Res Appl. 2020;20(1):1–16.
Osman A, Berhe D, Giday M. Medicinal plants used to manage human and livestock ailments in Raya Kobo District of Amhara Regional State Ethiopia. Evid Based Complement Alternat Med. 2020;2020:1329170. https://doi.org/10.1155/2020/1329170.
Abebe D, Ayehu A. Medicinal plants and enigmatic health practices of northern Ethiopia. Addis Ababa: BSPE; 1993. p. 51.
Giday M, Asfaw Z, Woldu Z. Ethnomedicinal study of plants used by Sheko ethnic group of Ethiopia. J Ethnopharmacol. 2010;132(1):75–85. https://doi.org/10.1016/j.jep.2010.07.046.
Lulekal E, Asfaw Z, Kelbessa E, et al. Ethnomedicinal study of plants used for human ailments in Ankober District, North Shewa Zone, Amhara Region Ethiopia. J Ethnobiol Ethnomed. 2013;9:63. https://doi.org/10.1186/1746-4269-9-63.
Megersa M, Woldetsadik S. Ethnobotanical study of medicinal plants used by local communities of Damot Woyde District Wolaita Zone Southern Ethiopia. Nusant Biosci. 2022;45:78. https://doi.org/10.13057/nusbiosci/n140102.
Teklehaymanot T, Giday M. Ethnobotanical study of wild edible plants of Kara and Kwego semi-pastoralist people in Lower Omo River Valley, Debub Omo Zone SNNPR Ethiopia. J Ethnobiol Ethnomed. 2010;6:23. https://doi.org/10.1186/1746-4269-6-23.
Ashagre M, Lulekal E. Cultural significance of medicinal plants in treating different human ailments in Guji Semi-Pastoralist people, Suro Barguda District, West Guji Zone, Oromia Regional State Ethiopia. J Ethnobiol Ethnomed. 2021;17:61. https://doi.org/10.1186/s13002-021-00487-4.
Menale H, Jungmeier M. Potentials and challenges of Alatish and Dinder National Parks (Ethiopia, Sudan) for implementing transboundary park Cooperation. Austria: Management of Protected Areas, University of Klagenfurt Economics; 2011.
GPNPGMP. Godebe provisional national park general management plan, Bahir Dar, Ethiopia (unpublished document) 2015.
MCCAGMP. Mahiberesilasie community conservation area general management plan 2017–2026, Bahir Dar, Ethiopia (unpublished document) 2016.
Agitew G, Adino K, Abelieneh A. Altash national park and local livelihoods in Quara of North-Western Ethiopia: the nexus. ZENITH Int J Multidiscip Res. 2016;6(1):168–78.
Adugna F, Andualem S, Andargie M. Ethnozoological study of traditional medicinal appreciation of animals and their products among the indigenous people of Metema Woreda North-Western Ethiopia. J Ethnobiol Ethnomed. 2018;14:37.
Walle T, Rangsipaht S, Chanprasert W. Natural resource conservation practices of Resettlers in the new resettlement areas of Amhara Region Ethiopia. Kasetsart J Soc Sci. 2011;32:297–307.
WGZHD. West Gondar zone health department. Annual report (unpublished document) 2022.
Voeks RA, Leony A. Forgetting the forest: assessing medicinal plant erosion in Eastern Brazil. Econ Bot. 2004;58(1):294–306.
Yineger H, Delenasaw Y, Demel T. Knowledge and practice of the Oromo ethnic group in southwestern Ethiopia. J Ethnobiol Ethnomed. 2008;4(11):1–10.
QDOA. Quara district office agriculture. Agriculture Annual Report. Gelegu, Quara, Ethiopia. Unpublished document 2016.
Mucheye T, Tebkew M, Mariam YG, et al. Long-term dynamics of woodland vegetation with response of climate variability in the lowlands of northwestern part of Ethiopia. Environ Dev Sustain. 2021;23:123–32. https://doi.org/10.1007/s10668-019-00569-0.
CSA. The 2007 population and housing census of Ethiopia. Addis Ababa: Federal Democratic Republic of Ethiopia Population Census Commission; 2007.
Friis I, Demissew S, Breugel P. Atlas of the potential vegetation of Ethiopia. Denmark: Det Kongelige Danske Videnskabernes Selskab; 2010.
ANPGMP. Alatish national park general management plan 2010–2019, Bahir Dar, Ethiopia. Unpublished document 2009. https://dokumen.tips/download/link/alatish-national-park-general-management-plan-draft.html.
Cochran WG. Sampling techniques. 3rd ed. New York: Wiley; 1977.
Bartlett JE, Kotrlik JW, Higgins CC. Organizational research: determining organizational research: determining appropriate sample size in survey research appropriate sample size in survey research. Inf Technol Learn Perform J. 2001;9(1):43.
Alexiades MN. Selected Guidelines for Ethnobotanical research: A Field Manual. The New York Botanical Garden, Bronx, N.Y; 1996.
Martin GJ. Ethnobotany: a methods manual. London: Earths can Publications Ltd; 2004.
Heinrich M, Edwards S, Moerman DE, et al. Ethnopharmacological field studies: a critical assessment of their conceptual basis and methods. J Ethnopharmacol. 2009;124(1):1–17. https://doi.org/10.1016/j.jep.2009.03.043.
Martin GJ. Ethnobotany: a methods manual. London: Chapman and Hall; 1995.
Cotton CM. Ethnobotany: principles and applications. New York: Wiley; 1996.
Heinrich M, Ankli A, Frei B, et al. Medicinal plants in Mexico: Healers’ consensus and cultural importance. Soc Sci Med. 1998;47:1859–71. https://doi.org/10.1016/s0277-9536(98)00181-6.
Rahman IU, Hart R, Afzal A, et al. A new ethnobiological similarity index for the evaluation of novel use reports. Appl Ecol Environ Res. 2019;17(2):2765–77. https://doi.org/10.15666/aeer/1702_27652777.
World Health Organization. ICD-11 international classification of diseases for mortality and morbidity statistics. 2023b (Version: 01/2023). Available at: https://icd.who.int/browse11/lm/en.
Amsalu N. Vascular plant diversity and ethnobotany of medicinal and wild edible plants in Baso Liben and Debre Elias Districts East Gojjam Zone of Amhara Region, Northwestern Ethiopia. Addis Ababa: Addis Ababa University; 2020.
Teklehaymanot T, Giday M. Ethnobotanical study of medicinal plants used by people in Zegie Peninsula Northwestern Ethiopia. J Ethnobiol Ethnomed. 2007;3(12):1–11. https://doi.org/10.1186/1746-4269-3-12.
Giday M, Teklehaymanot T, Animut A, et al. Medicinal plants of the Shinasha, Agew-awi and Amhara peoples in northwest Ethiopia. J Ethnopharmacol. 2007;110:516–25. https://doi.org/10.1016/j.jep.2006.10.011.
Simegniew Y, Leshe S, Abebe Y, et al. Ethnobotanical study of medicinal plants used to treat human diseases in Enarj Enawga District, East Gojjam Zone, Amhara Region, Ethiopia. SM J Med Plant Stud. 2017;1(1):1–20.
Tebkew M, Asfaw Z, Zewudie S. Ethnobotanical study of medicinal plants in Chilga District Northwestern Ethiopia. J Nat Remed. 2015;15(2):88–112. https://doi.org/10.18311/jnr/2015/476.
Masresha G, Melkamu Y, Chekole G. Ethnobotanical study of traditional medicinal trees and shrubs used to treat Human and livestock Aliments in Metema District Amhara Regional State Ethiopia. Ethiop J Nat Comp Sci. 2021;1(2):122–47.
Teklay A, Abera B, Giday M. An ethnobotanical study of medicinal plants used in Kilte Awulaelo District, Tigray Region of Ethiopia. J Ethnobiol Ethnomed. 2013;9:65. https://doi.org/10.1186/1746-4269-9-65.
Zenebe G, Zerihun M, Solomon Z. An ethnobotanical study of medicinal plants in Asgede Tsimbila District Northwestern Tigray Northern, Ethiopia. Ethnobot Res Appl. 2012;10:305–20.
Tahir M, Gebremichael L, Beyene T, et al. Ethnobotanical study of medicinal plants in Adwa District, Central Zone of Tigray Regional State, Northern Ethiopia. J Ethnobiol Ethnomed. 2021;17(71):1–13. https://doi.org/10.1186/s13002-021-00498-.1.
Beyene T. Ethnobotany of medicinal plants in Erob and Gulomahda districts, Eastern Zone of Tigray Region, Ethiopia. Addis Ababa: Addis Ababa University; 2015.
Meragiaw M, Asfaw Z, Argaw M. The status of ethnobotanical knowledge of medicinal plants and the impacts of resettlement in Delanta, Northwestern Wello, Northern Ethiopia. Evid Based Complement Alternat Med. 2016;2016:5060247. https://doi.org/10.1155/2016/5060247.
Tahir M, Asnake H, Beyene T, et al. Ethnobotanical study of medicinal plants in Asagirt District, Northeastern Ethiopia Northeastern Ethiopia. Trop Med Health. 2023;51:1. https://doi.org/10.1186/s41182-023-00493-0.
Abdurhman N. Plant diversity, ethnobotany and barcoding of medicinal and cosmetic plants in Kalu and Bati Districts of Amhara Region, Ethiopia. Addis Ababa: Addis Ababa University; 2020.
Alemu M, Asfaw Z, Lulekal E, et al. Ethnobotanical study of traditional medicinal plants used by the local people in Habru District North Wollo Zone Ethiopia. J Ethnobiol Ethnomed. 2024;20:4. https://doi.org/10.1186/s13002-023-00644-x.
Alemayehu G. Plant diversity and ethnobotany of medicinal and Wild Edible plants in Amaro District of Southern Nations, nationalities and peoples Region and Gelana District of Oromia Region Southern Ethiopia. Addis Ababa: Addis Ababa University; 2017.
Woldemariam G. Ethnobotanical study of medicinal plants in two cultures: Hadiya and Yem peoples SNNPR Ethiopia. Addis Ababa: Addis Ababa University; 2020.
Tamene S, Negash M, Makonda FB, et al. Ethnobotanical study on medicinal plant knowledge among three ethnic groups in peri-urban areas of south-central Ethiopia. J Ethnobiol Ethnomed. 2023;19:55. https://doi.org/10.1186/s13002-023-00629-w.
Agize M, Asfaw Z, Nemomissa S, et al. Ethnobotany of traditional medicinal plants and associated indigenous knowledge in Dawuro Zone of Southwestern Ethiopia. J Ethnobiol Ethnomed. 2022;18:48. https://doi.org/10.1186/s13002-022-00546-4.
Wondimu T, Asfaw Z, Kelbessa E. Ethnobotanical study of medicinal plants around ‘Dheeraa’ town, Arsi Zone Ethiopia. J Ethnopharmacol. 2007;112(1):152–61. https://doi.org/10.1016/j.jep.2007.02.014.
Girma Z, Abdela G, Awas T. Ethnobotanical study of medicinal plant species in Nensebo District, South-eastern Ethiopia. Ethnobot Res Appl. 2022;24:1–25.
Regassa T. Vascular plant diversity and ethnobotanical study of medicinal and wild edible plants in Jibat, Gedo and Chilimo Forests, West Shewa Zone of Oromia Region Ethiopia. Addis Ababa: Addis Ababa University; 2016.
Balemie K. Floristic diversity of Jorgo Wato forest and ethnobotanical study of medicinal and wild edible plants in Nole Kaba District, West Wollega, Oromia Region Ethiopia. Addis Ababa: Addis Ababa University; 2019.
Gebeyehu G. Ethnobotanical survey of medicinal plants used in treating human and livestock health problems in Mandura Woreda of Benishangul Gumuz Ethiopia. Adv Med Plant Res. 2016;4(1):11–26.
Flatie T, Gedif T, Asres K, et al. Ethnomedical survey of Berta ethnic group Assosa Zone, Benishangul-Gumuz regional state, mid-west Ethiopia. J Ethnobiol Ethnomed. 2009;5(14):1–11. https://doi.org/10.1186/1746-4269-5-14.
Megersa M, Tamrat N. Medicinal plants used to treat human and livestock ailments in Basona Werana District, North Shewa Zone, Amhara Region Ethiopia. Evid Based Complement Alternat Med. 2020;2022:5242033. https://doi.org/10.1155/2022/5242033.
Teshome M, Kebede F, Yohannes T. An ethnobotanical survey of indigenous knowledge on medicinal plants used by communities to treat various diseases around Ensaro District, North Shewa Zone of Amhara Regional State, Ethiopia. Scientifica. 2023;2023:5575405. https://doi.org/10.1155/2023/5575405.
Ayele A. Ethnobotanical study of medicinal plants used by the people of Tarmaber District, North Shewa Zone, Amhara Region, Ethiopia. Harar, Ethiopa: Haramaya University; 2017.
Giday M, Asfaw Z, Elmqvistc T, et al. An ethnobotanical study of medicinal plants used by the Zay people in Ethiopia. J Ethnopharmacol. 2003;85(1):43–52. https://doi.org/10.1016/s0378-8741(02)00359-8.
Yimam M, Mammo S, Bekele T. Ethnobotanical study of medicinal plants used in Artuma Fursi district, Amhara Regional State, Ethiopia. Trop Med Health. 2022;50:85. https://doi.org/10.1186/s41182-022-00438-z.
Ayele A. Ethnobotanical study of medicinal plants used by local people of Mojana Wadera Woreda, North Shewa Zone, Amhara Region Ethiopia. Asian J Ethnobiol. 2022;5(1):35–43. https://doi.org/10.13057/asianjethnobiol/y050104.
Gupta R, Vairale MG, Chaudhari PR, Wate SR. Ethnomedicinal plants used by gond tribe of Bhandara District, Maharashtra in the Treatment of Diarrhoea and Dysentery. Ethnobot Leafl. 2009;13:900–9.
Sulieman Y, Algadir HA. Ethnomedicinally important plants used by the local people of Al Galabat localities, Gedaref State, Sudan. EPRA Int J Multidiscip Res. 2020;6(12):306–12. https://doi.org/10.36713/epra5968.
Bukatuka FC, Ngombe KN, Mutwale KP, et al. Bioactivity and nutritional values of some Dioscorea species traditionally used as medicinal foods in Bandundu, DR Congo. Eur J Med Plants. 2016;14(1):1–11. https://doi.org/10.9734/EJMP/2016/25124.
Pramodini GN, Khasim SM, Alan P, et al. Evaluation of anthelmintic activity of ethanolic extract of Grewia flavescens Juss whole plant. World J Pharm Pharm Sci. 2018;7(4):998–1003.
Mailu JK, Nguta JM, Mbaria JM, Okumu MO. Medicinal plants used in managing diseases of the respiratory system among the Luo community: an appraisal of Kisumu East Sub-County Kenya. Chin Med. 2020;15(95):1–27. https://doi.org/10.1186/s13020-020-00374-2.
Atakpama W, Batawila K, Dourma M, et al. Ethnobotanical knowledge of Sterculia setigera Del. in the Sudanian Zone of Togo (West Africa). Int Sch Res Not. 2012;2012:8. https://doi.org/10.5402/2012/723157.
Sallau MS, Uttu AJ, Iyun ORA, Ibrahim H. Strychnos innocua (Delile): phytochemical and antimicrobial evaluations of its root bark extracts. Adv J Chem. 2022;4(1):17–28. https://doi.org/10.22034/ajcb.2022.323148.1104.
Chekole G, Asfaw Z, Kelbessa E. Ethnobotanical study of medicinal plants in the environs of Tara-gedam and Amba remnant forests of Libo Kemkem District, northwest Ethiopia. J Ethnobiol Ethnomed. 2015;11(4):1–38. https://doi.org/10.1186/1746-4269-11-4.
Kefalew A, Asfaw Z, Kelbessa E. Ethnobotany of medicinal plants in Ada’a District, East Shewa Zone of Oromia Regional State, Ethiopia. J Ethnobiol Ethnomed. 2015;11(25):1–28. https://doi.org/10.1186/s13002-015-0014-6.
Demie G, Negash M, Awas T. Ethnobotanical study of medicinal plants used by indigenous people in and around Dirre Sheikh Hussein heritage site of South-eastern Ethiopia. J Ethnopharmacol. 2018;220:87–93. https://doi.org/10.1016/j.jep.2018.03.033.
Nigussie B, Kim Y-D. Ethnobotanical study of medicinal plants in the Hawassa Zuria District, Sidama zone Southern Ethiopia. J Ethnobiol Ethnomed. 2019;15(25):1–21. https://doi.org/10.1186/s13002-019-0302-7.
Hedberg I, Kelbessa E, Edwards S, et al. Flora of Ethiopia and Eritrea, vol. 5. Addis Ababa and Uppsala: Gentianaceae to Cyclocheilaceae, The National Herbarium, Addis Ababa University; 2006.
Getaneh ZA, Demissew S, Woldu Z, Aynekulu E. Determinants of plant community along environmental gradients in Geramo forest, the western escarpment of the rift valley of Ethiopia. PLoS ONE. 2023;18(11):e0294324. https://doi.org/10.1371/journal.pone.0294324.
Kidane L, Gebremedhin G, Beyene T. Ethnobotanical study of medicinal plants in Ganta Afeshum District, Eastern Zone of Tigray Northern Ethiopia. J Ethnobiol Ethnomed. 2018;14:64. https://doi.org/10.1186/s13002-018-0266-z.
Bhandari P, Gurung MB, Subedi CK, Chaudhary RP, Basnet K, Gurung J, Uprety Y, Neupane A, Shrestha KK. Traditional use of medicinal plants in the Chyangthapu Phalaicha biological sub corridor, Panchthar District, Kangchenjunga Landscape Nepal. Ethnobot Res Appl. 2021;22:1–43.
Cordero CS, Meve U, Alejandro GJD. Ethnobotanical documentation of medicinal plants used by the indigenous Panay Bukidnon in Lambunao, Iloilo Philippines. Front Pharmacol. 2022;12:790567. https://doi.org/10.3389/fphar.2021.790567.
Masters ET. Medicinal plants of the upper Aswa River catchment of northern Uganda–a cultural crossroads. J Ethnobiol Ethnomed. 2023;19:48. https://doi.org/10.1186/s13002-023-00620-5.
Mekuria T, Abduro H. Ethnobotanical study on medicinal plants used by local communities in Shashemene District, West Arsi Zone of Oromia Region, Ethiopia. AJOPSS. 2022;7(1):158–70.
Amjad MS, Zahoor U, Bussmann RW, et al. Ethnobotanical survey of the medicinal flora of Harighal, Azad Jammu & Kashmir, Pakistan. J Ethnobiol Ethnomed. 2020;16:65. https://doi.org/10.1186/s13002-020-00417-w.
Teklehaymanot T, Giday M. Quantitative ethnobotany of medicinal plants used by Kara and Kwego semi-pastoralist people in lower Omo River Valley, Debub Omo Zone, Southern Nations, Nationalities and Peoples Regional State Ethiopia. J Ethnopharmacol. 2010;130(1):76–84. https://doi.org/10.1016/j.jep.2010.04.013.
Baldé AM, Traoré MS, Diallo MS, Vlietinck A, Pieters L. Ethnobotanical survey, antimicrobial and anticomplement activities of Guinean medicinal plants traditionally used in the treatment of inflammatory diseases in Conakry and Dubreka. J Plant Sci. 2015;3:11–9. https://doi.org/10.11648/j.jps.s.2015030102.13.
Abera B. Medicinal plants used in traditional medicine by Oromo people, Ghimbi District Southwest Ethiopia. J Ethnobiol Ethnomed. 2014;10(40):1–15. https://doi.org/10.1186/1746-4269-10-40.
Pala NA, Sarkar BC, Shukla G, et al. Floristic composition and utilization of ethnomedicinal plant species in home gardens of the Eastern Himalaya. J Ethnobiol Ethnomed. 2019;15(14):1–16. https://doi.org/10.1186/s13002-019-0293-4.
Mahomoodally MF. Traditional medicines in Africa: an appraisal of ten potent African medicinal plants. Evid Based Complement Alternat Med. 2013;2013:617459. https://doi.org/10.1155/2013/617459.
Atnafu H, Awas T, Alemu S, et al. Ethnobotanical study of medicinal plants in selale mountain ridges, North Shoa. Ethiopia Biodiversity Int J. 2018;2(6):567–77. https://doi.org/10.15406/bij.2018.02.00114.
Amsalu N, Bezie Y, Fentahun M, et al. Use and conservation of medicinal plants by indigenous people of Gozamin Wereda, East Gojjam Zone of Amhara Region, Ethiopia: an ethnobotanical approach. Evid Based Complement Altern Med. 2018;2018:2973513. https://doi.org/10.1155/2018/2973513.
Ahmad M, Sultana S, Fazl-i-Hadi S, et al. An Ethnobotanical study of Medicinal Plants in high mountainous region of Chail valley (District Swat- Pakistan). J Ethnobiol Ethnomed. 2014;10(36):1–18. https://doi.org/10.1186/1746-4269-10-36.
Regassa R. Assessment of indigenous knowledge of medicinal plant practice and mode of service delivery in Hawassa city, southern Ethiopia. J Med Plants Res. 2013;7(9):517–35. https://doi.org/10.5897/JMPR12.1126.
Teka A, Asfaw Z, Demissew S, et al. Medicinal plant use practice in four ethnic communities (Gurage, Mareqo, Qebena, and Silti), south central Ethiopia. J Ethnobiol Ethnomed. 2020;16(27):1–12. https://doi.org/10.1186/s13002-020-00377-1.
Sop TK, Oldeland J, Bognounou F, et al. Ethnobotanical knowledge and valuation of woody plants species: a comparative analysis of three ethnic groups from the sub-Sahel of Burkina Faso. Environ Dev Sustain. 2012;14:627–49. https://doi.org/10.1007/s10668-012-9345-9.
Haq SH, Hassan M, Bussmann RW, et al. A cross-cultural analysis of plant resources among five ethnic groups in the Western Himalayan Region of Jammu and Kashmir. Biology. 2022;11:491. https://doi.org/10.3390/biology11040491.
Tuttolomondo T, Licata M, Leto C, et al. Ethnobotanical investigation on wild medicinal plants in the Monti Sicani Regional Park (Sicily, Italy). J Ethnopharmacol. 2014;153(3):568–86. https://doi.org/10.1016/j.jep.2014.02.032.
Cheng Z, Hu X, Lu X, Fang Q, Meng Y, Long C. Medicinal plants and Fungi traditionally used by Dulong People in Northwest Yunnan China. Front Pharmacol. 2022;13:895129. https://doi.org/10.3389/fphar.2022.895129.
Ralte L, Sailo H, Singh T. Ethnobotanical study of medicinal plants used by the indigenous community of the western region of Mizoram, India. J Ethnobiol Ethnomed. 2024;20:2. https://doi.org/10.1186/s13002-023-00642-z.
Al-Robai SA, Ahmed AAE, Mohamed HA, et al. Qualitative and quantitative ethnobotanical survey in Al Baha Province Southwestern Saudi Arabia. Diversity. 2022;14:867. https://doi.org/10.3390/d14100867.
Abbas Z, Khan SM, Alam J, Khan SW, Abbasi AM. Medicinal plants used by inhabitants of the Shigar Valley, Baltistan region of Karakorum range-Pakistan. J Ethnobiol Ethnomed. 2017;13(53):1–15. https://doi.org/10.1186/s13002-017-0172-9.
Wali R, Rahman K, Raja NI, et al. A quantitative medico-botanical expedition of Fairy Meadows National Park, Diamir, Gilgit Baltistan, Pakistan. Ethnobot Res Appl. 2019;18:1–30.
Shaheen H, Qaseem MF, Amjad MS, et al. Exploration of ethno-medicinal knowledge among rural communities of Pearl Valley, Rawalakot, District Poonch Azad Jammu and Kashmir. PLoS ONE. 2017;12(9):e0183956. https://doi.org/10.1371/journal.pone.018395.
Alemneh D. Ethnobotanical Study of Plants Used for Human Ailments in Yilmana Densa and Quarit Districts of West Gojjam Zone, Amhara Region Ethiopia. BioMed Res Int. 2021;2021:6615666. https://doi.org/10.1155/2021/6615666.
Subba B, Srivastav C, Kandel RC. Scientific validation of medicinal plants used by Yakkha community of Chanuwa VDC, Dhankuta Nepal. SpringerPlus. 2016;5:155. https://doi.org/10.1186/s40064-016-1821-5.
Iwu MM. Ethnobotanical approach to pharmaceutical drug discovery: strengths and limitations. Adv Phytomed. 2002;1:309–20. https://doi.org/10.1016/S1572-557X(02)80034-4.
Birhanu T, Abera D. Survey of ethnoveterinary medicinal plants at selected Horro Gudurru districts, western Ethiopia. Afr J Plant Sci. 2015;9(3):185–92. https://doi.org/10.5897/AJPS2014.1229.
Acknowledgements
The authors express their heartfelt gratitude to the local people of the Quara district who participated in the interviews and generously shared their valuable indigenous knowledge. The authors also acknowledge the valuable contributions of the government administrators of West Gondar Zone, Quara district, and study kebeles for their cooperation in the site and respondent selection, as well as for creating a favorable condition in the study areas. Furthermore, the authors would like to extend their sincere appreciation to Mr. Melaku Wondafrash, the Herbarium Specialist at the National Herbarium (ETH) of Addis Ababa University, for providing invaluable support in the identification of plant specimens. This collaborative effort was essential in ensuring the accurate documentation of the medicinal plant species discussed in the study.
Funding
This research was funded by the Research and Technology Transfer Vice President Office of the University of Gondar through the Postgraduate Programs Strengthening Program. We greatly acknowledge the institution for its financial support.
Author information
Authors and Affiliations
Contributions
DT was involved in the proposal write-up, field data collection, specimen identification, investigation, and writing the first draft of the manuscript. GM helped in incorporating insight and valuable comments during the proposal write-up, field data collection, and the final manuscript preparation. EL helped in the proposal write-up, field data collection, specimen identification, and the final manuscript preparation. All the authors read and approved the final manuscript.
Corresponding author
Ethics declarations
Ethics approval and consent to participate
This research was approved by all the concerned bodies at University of Gondar, Ethiopia. All participants were informed about the purpose of this research and verbal consent was reached between the investigators and participants before conducting the research.
Consent for publication
Not applicable.
Competing interests
The authors declare that they have no competing interests.
Additional information
Publisher’s Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Supplementary Information
13002_2024_712_MOESM1_ESM.docx
Supplementary Material 1: List of medicinal plant species used by the communities of the Quara district, Northwestern Ethiopia.
Rights and permissions
Open Access This article is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License, which permits any non-commercial use, sharing, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if you modified the licensed material. You do not have permission under this licence to share adapted material derived from this article or parts of it.The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder.To view a copy of this licence, visit http://creativecommons.org/licenses/by-nc-nd/4.0/.
About this article
Cite this article
Tadesse, D., Masresha, G. & Lulekal, E. Ethnobotanical study of medicinal plants used to treat human ailments in Quara district, northwestern Ethiopia. J Ethnobiology Ethnomedicine 20, 75 (2024). https://doi.org/10.1186/s13002-024-00712-w
Received:
Accepted:
Published:
DOI: https://doi.org/10.1186/s13002-024-00712-w