Comparative homegarden medical ethnobotany of Naxi healers and farmers in Northwestern Yunnan, China

Research was conducted in Ludian Township of Yulong County of Lijiang City in China’s Northwest Yunann Province, an area identified by the Yunnan Provincial Scientific and Technological Department as the “home of medicinal plants” in provincial history and tradition. Two study sites communities were selected for this study: Diannan (甸南 translates to “grassy marshland in the south”; Northern latitude 27°12′52〞and Eastern latitude 99°28′57〞), and Dianbei (甸北 translates to “grassy marshland in the north”; Northern latitude 27°11′26〞 and Eastern latitude 99°27′34〞). Study sites were selected after consulting local government officials and preliminary field visits to identify villages where traditional ethnomedical practice and knowledge seemed most intact as well as areas that housed practicing traditional healers. Dianbei village had one healer at the time of research and Diannan village had two healers at the time of research.

The study sites are situated within the Hengduan Mountains at the eastern end of the Himalayas, southeast of the Tibetan Plateau and midstream of the Jinsha River. Lijiang has the climate of the Hengduan Mountain valley as well as that of Northwest Yunnan Plateau. It has high terrain in the northwest and low terrain in the southeast sloping from 5,596 m down to 1,015 m. This elevational range is accompanied by variation in climate, habitats, soils, and ecotypes that provides diverse conditions for medicinal plants.

The community of Dianbei has 103 households with a population of 318 and the community of Diannan has 140 households with a population of 586. Both villages settlements are located at an altitude between 2,400 m-2,600 m. The distance between the two study sites is 6.5 km. Twelve percent of the total area is under agricultural use) with forest, scrub and pasture compromising the remaining land use. Households follow subsistence livelihood relying on a mosaic of land use in their surroundings coupled with the commercialization of natural resources and off-farm labor.

Interviews were conducted with a total of three healers and 28 farmer households. We interviewed one healer in Dianbei village and two healers in Diannan village. In addition, we interviewed 11 farmer households in Dianbei village and 16 farmer households in Diannan village. We selected to interview the primary person managing each homegarden and responsible for collecting medicinal plants when a household member gets ill. All informants were over 40 years old with an average age of 52 years. Ten of the informants were female and the remaining 21 informants were male.

Semi-structured interviews included documentation of local names, plant parts, preparation methods, mode of administration, health functions of medicinal plants found in homegardens and percentage of household income derived from the sale of medicinal plants in farming land. Voucher specimens were collected under the guidance of local herbal experts and pressed and dried in the field. Taxonomic plant identification was confirmed at Kunming Institute of Botany, Chinese Academy of Science and specimens were deposited at KIB for long-term storage.

We followed the medical classification developed by Cook [40] to categorize aliments well known by herbal experts into 13 ‘usage categories’ of medical condition groupings that impact a system of the body [41]. The categories of medical conditions applied include: injuries (INJ), muscular-skeletal system disorders (MUS), infections/infestations (INF2), digestive system disorders (DIG), skin-subcutaneous cellular tissue disorders (SKI), pregnancy/birth/puerperium disorders (PRE), sensory system disorders (SEN), nutritional disorders (NUT), nervous system disorders (NER), genitourinary system disorders/effects (GEN), respiratory system disorders (RES) and circulatory system disorders (CIR). Four usage categories were added to this study that represent Culture-Bound Syndrome (CUL) including children febrile convulsion, Ill-defined Symptoms (IDS) including kidney conditions and fatigue/malaise, inflammation (INF1) and detoxification (DET) as defined in Traditional Chinese Medicine (TCM) and folk medicine systems of China.

Plant species richness of medicinal plants in each homegarden was determined using Hulbert’s index (1972). A Least Square Means Tukey HSD function was performed using JMP 10.0 (SAS Institute Inc.) to determine how medicinal plant species richness of Naxi homegardens varies with between specialist healer and generalist farmer stakeholders as well as between the two study sites.

Ethnobotanical surveys at the study sites found that 13% of informants rely exclusively on traditional Naxi medicine, 26% exclusively use Western medicine available from the local clinic and 61% use a combination of traditional Naxi and Western medicine. Inventories a documented a total of 106 medicinal plants from 50 botanical families used to treat over 160 health conditions. Additional file 1: Table S1 lists ethnobotanical information for each species including scientific name, local names, genera, habitat, plant parts used, description of uses and percent of informants who provided the information.

Findings indicate that over half (58.7%) of documented plants belong to 10 botanical families. The most represented families in the medicinal plant homegarden inventories include Asteraceae (14 species), Ranunculaceae (9), Apiaceae (9), Polygonaceae (8), Labiatae (5), Orchidaceae (4), Liliaceae (4), Rosaceae (4), Campanulaceae (4) and Saxifragaceae (3). The majority of the documented medicinal plants in Naxi homegardens are herbaceous species (87.2%), followed by woody trees (7.3%), shrubs (2.8%), and lianas (1.8%). Roots (45%) were the most frequently used plants parts for medicine accounting for 63 prescriptions, followed by the whole plant (33.9%), combinations of roots and stem (12.8%), fruits (3.7%) and bark (2.8%). Flowers, leaves, sap, and branches accounted for the remaining minor percentages of plant parts. Table 1 shows the most frequently inventoried medicinal plants at the study sites. In addition to medicinal value, most of these plants are also valued for their economic, edible and ornamental values.

Findings show that the vast majority of inventoried medicinal plants are used in treatment in combination with other plants and a few are used as single plant remedies. The preparations of plants for medicinal treatment include primarily decoction in water for internal consumption. A few preparations also involve infusion with alcohol and honey as a tonic. Some remedies include preparation and consumption of medicinal plants with food items such as with meat, egg, rice, and honey to “strengthen the body”. Some of the remedies are used externally as poultices.

Farmers cultivate medicinal plants in their homegardens for household healthcare as well as for commercial purposes while healers only cultivate medicinal plants in their homegardens for healing purposes and rarely sell species. Approximately 10% of medicinal plants grown by farmers are used for self-care and 90% are sold in herbal markets to generate household income. Farmers do not provide plant material to healers in the community. Table 2 shows the most commonly commercialized medicinal plants grown in homegardens of Diannan and Dianbei villages. Fourteen commercialized medicinal plant species in the seedling stage were cultivated in the homegardens of over half the households at the study sites. Over 80% of households at the study sites derive their income from the commercialization of medicinal plants. Households derive an average of 45% of their income from the commercialization of medicinal plants. In additional to medicinal values, many of these species also have edible, ornamental and economic values for Naxi communities as well are considered to serve an ecological role.

Compiled findings from both study sites show that the most frequently reported health conditions treated by the inventoried medicinal plants are inflammation (73), circulatory system disorders (62), nervous system disorders (41), detoxification (39), digestive system disorders (33), muscular-skeletal system disorders (26), genitourinary system disorders (26), skin conditions (23), respiratory systems disorders (22), and cold and flu (20). The most frequently reported health conditions treated by the inventoried medicinal plants by healers in Dianbei village are cold and flu, rheumatism, digestive system disorders, genitourinary system disorders, pain, circulatory system disorders, muscular-skeletal system disorders, skin conditions, nervous system disorders, and inflammation. The most frequently recorded health conditions for medicinal plant use by farmers in Dianbei village are circulatory system disorders, respiratory system disorders, colds and flu, nutritional disorders, and inflammation. In Diannan village, the most frequently reported health conditions treated by inventoried medicinal plants by healers in Diannan village are inflammation, cold and flu, respiratory system disorders, genitourinary system disorders, digestive systems disorders, detoxification, muscular-skeletal system disorders, injuries, and skin conditions. The most frequently mentioned health conditions treated by the inventoried medicinal plants by farmer households in Diannan are digestive system disorders, nutritional disorders, cold and flu, inflammation and circulatory system disorders.

Species richness of medicinal plants in the homegardens of healers was found to be significantly higher than that of farmers at the two study sites (p > 0.048). Least Square Means of medicinal plant species richness maintained by healers was 0.347 and that of farmers was 0.161. No significant difference was found in overall species richness of medicinal plants in the homegardens of the two study sites with overall medicinal plant species richness in Diannan village having a Least Square Means of 0.284 and Dianbei having a Least Square Means of 0.225. In Dianbei village, 52 medicinal plants from 32 botanical families were inventoried in homegardens managed by healers and a total of 24 medicinal plants from 21 botanical families were inventoried in homegardens managed by farmers. In Diannan village, a total of 39 medicinal plants from 22 botanical families were inventoried in homegardens managed by healers and a total of 26 medicinal plants from 13 botanical families were inventoried in homegardens managed by farmers.