Acta Societatis Botanicorum Poloniae
DOI: 10.5586/asbp.3483
ORIGINAL RESEARCH PAPER
Publication history
Received: 2015-09-25
Accepted: 2015-12-03 Medical ethnobotany of herbal practitioners 
Published: 2016-03-31 in the Turkestan Range, southwestern 
Handling editor
Łukasz Łuczaj, Institute of Kyrgyzstan
Applied Biotechnology and 
Basic Sciences, University of 
Rzeszów, Poland
Lukas Pawera1, Vladimir Verner2, Celine Termote3, Ishenbay 
Authors’ contributions
Sodombekov4, Alexander Kandakov2, Nurudin Karabaev5
LP, ZP, CT, and VV jointly , Milan 
designed the research; NK Skalicky6, Zbynek Polesny1*
and AK screened titles and 
1
abstracts; LP screened full text  Department of Crop Sciences and Agroforestry, Faculty of Tropical AgriSciences, Czech 
articles; IS and MS provided University of Life Sciences Prague, Kamycka 129, 165 21 Prague 6-Suchdol, Czech Republic
2
taxonomic identification of  Department of Economics and Development, Faculty of Tropical AgriSciences, Czech University 
species and contributed to the of Life Sciences Prague, Kamycka 129, 165 21 Prague 6-Suchdol, Czech Republic
3
discussion with botanical and  Nutrition and Marketing Diversity Programme, Bioversity International, Bioversity Sub-Saharan 
environmental aspects; LP, ZP, Africa Office, c/o ICRAF | United Nations Avenue, P.O. box 30677, 00100 Nairobi, Kenya
4
and CT conducted data analysis;  Gareev Botanical Garden of the National Academy of Sciences of the Kyrgyz Republic, 
LP, ZP, and VV drafted the article Akhunbaeva 1-a, Bishkek 720064, The Kyrgyz Republic
5
narrative and LP generated all  Kyrgyz National Agrarian University, Mederova 68, Bishkek 720005, The Kyrgyz Republic
6
figures and tables; LP and AK  Department of Botany and Plant Physiology, Faculty of Agrobiology, Food and Natural 
generated the study area map; Resources, Czech University of Life Sciences Prague, Kamycka 129, 165 21 Prague 6-Suchdol, 
all authors read and approved Czech Republic
the final manuscript * Corresponding author. Email: polesny@ftz.czu.cz
Funding
The research was financially 
supported by the Czech Abstract
Development Agency – This study recorded and analyzed traditional knowledge of medicinal plants in the 
Development Cooperation of 
the Czech Republic (project No. Turkestan Range in southwestern Kyrgyzstan, where ethnobotanical knowledge 
36/MZe/B/08-10). For additional has been largely under-documented to date. Data was collected through partici-
financial support we would like pant observation and both semi-structured and in-depth interviews with 10 herbal 
to acknowledge the Internal specialists. A total of 50 medicinal plant taxa were documented, distributed among 
Grant Agency of the Faculty of 
Tropical AgriSciences, Czech 46 genera and 27 botanical families. In folk medicine they are applied in 75 dif-
University of Life Sciences ferent formulations, which cure 63 human and three animal ailments. Quantita-
Prague (IGA, project No. FTZ tive ethnobotanical indices were calculated to analyze traditional knowledge of 
20155016). the informants and to determine the cultural importance of particular medicinal 
plants. Ziziphora pamiroalaica, Peganum harmala, and Inula orientalis obtained 
Competing interests
No competing interests have the highest use value (UV). The best-represented and culturally important families 
been declared. were Lamiaceae, Asteraceae, and Apiaceae. Gastro-intestinal system disorders was 
the most prevalent ailment category. Most medicinal plants were gathered from 
Copyright notice nearby environments, however, species with a higher cultural value occurred at 
© The Author(s) 2016. This is an 
Open Access article distributed distant rather than nearby collection sites. The findings of this study proved the 
under the terms of the Creative gap in documentation of traditional knowledge in Kyrgyzstan, indicating that fur-
Commons Attribution License, ther studies on the traditional use of wild plant resources could bring important 
which permits redistribution, insights into ecosystems’ diversity with implications to human ecology and bio-
commercial and non-
commercial, provided that the cultural diversity conservation in Central Asia.
article is properly cited.
Keywords
Citation Central Asia; ethnomedicine; human ecology; quantitative ethnobotany; tradi-
Pawera L, Verner V, Termote 
C, Sodombekov I, Kandakov tional knowledge; bio-cultural diversity; gathering environments
A, Karabaev N, et al. Medical 
ethnobotany of herbal 
practitioners in the Turkestan Introduction
Range, southwestern 
Kyrgyzstan. Acta Soc Bot Pol. 
2016;85(1):3483. http://dx.doi. Currently, traditional medical systems, and in particular herbal remedies, still play an 
org/10.5586/asbp.3483 important role in the healthcare of millions of people in developing countries, who do 
not have access to modern medical care or cannot afford it [1]. However, these cul-
tures and societies are undergoing rapid environmental, socioeconomic, and cultural 
changes. Much of traditional medical knowledge, which is considered an intangible 
Published by Polish Botanical Society 1 of 31
Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
cultural heritage, is being irretrievably lost before it is documented, studied or even 
Digital signature
This PDF has been certified using digital touched by science [2].
signature with a trusted timestamp to 
assure its origin and integrity. A verification Although Central Asian traditional medicine has a very old and rich history, it is not 
trust dialog appears on the PDF document as widely understood and studied as neighboring medical systems such as traditional 
when it is opened in a compatible PDF 
reader. Certificate properties provide Chinese medicine or Ayurveda [3]. It is recognized that Central Asian medicine was 
further details such as certification time 
and a signing reason in case any alterations influenced mainly by the Unani Tibb (Greco-Arabic) system and its broad range of 
made to the final content. If the certificate scholars. Yet, current folk medical practices have not been widely studied and various 
is missing or invalid it is recommended to 
verify the article on the journal website. questions remain. Examples include how the relationship between plants and people 
developed further in particular regions with regards to the movement and isolation of 
ethnic groups, and the current status and importance of traditional knowledge (TK) 
among indigenous Central Asian societies after Soviet Union rule.
This period, over 70 years, was characterized by the unsustainable use of natural re-
sources and by the neglect or even suppression of local beliefs, traditions and practices, 
which resulted in the significant loss of TK [4]. During this time, phytotherapy and 
the activities of local healers were restricted and botanical medicines were regulated 
by the government [3]. Consequently, people were rather obliged to leave behind their 
folk medicine and participate in comprehensive governmental health services. As a 
result, indigenous knowledge lost its natural importance until the collapse of the sub-
sidized system of the Soviet Union, after which the revival of TK is supposed to have 
been of crucial importance. For example, Stickley et al. [5] studied the use of comple-
mentary and alternative medicine in eight former Soviet republics. Among all, they 
found the most prevalent use of folk medicine practices for the treatment of selected 
common health disorders in Kyrgyzstan. Another study [6] reported the revival of 
spiritual healing and shamanism in urban areas of Kyrgyzstan and Kazakhstan.
Although limited information on the use of medicinal plants in Kyrgyzstan is avail-
able in international sources of literature [7], there is evidence of several publications 
from Soviet times (e.g., [8,9]). However, this literature considered mainly scientifically 
recognized medicinal plants, or those manufactured for herbal medicaments and 
pharmacological preparations. Medicinal plant species used in folk medicine were 
poorly documented, not scientifically recognized and not included in the literature 
published at that time [10].
Remarkably, after the break-up of the Soviet Union, medicinal plants have rapidly 
regained the attention of rural communities in Central Asian countries [11]. From the 
recent study on the Tajik-Afghan border [12], it is obvious that natural vegetation may 
still be crucial in the primary healthcare and resilience of local people. Egamberdieva 
et al. [13], in the Uzbek Chatkal reserve, noted that medicinal plant resources also 
generate additional income. Comparable studies from Kyrgyzstan, however, are still 
lacking.
An English-language monograph concerning the medicinal plants of Central Asia 
has reviewed scattered literature sources on the medicinal plants of Kyrgyzstan and 
Uzbekistan [7]. The authors claim that numerous plants used in Kyrgyz folk medicine 
have not been documented and they have called for ethnomedicinal field studies to 
facilitate the identification of medicinal species used.
According to MEP [14], in distant and less accessible mountainous regions of 
the country, the collection of wild plants and non-timber forest products remains a 
fundamental livelihood strategy for the local people. There are medicinal herbs with 
promising economic value which could alleviate poverty in rural areas, but there is a 
lack of information on the use of these wild plants, their habitats and the sustainability 
of continuous harvesting [15].
To prevent further decline in Kyrgyz TK, again under threat nowadays due to sub-
stantial depopulation and urbanization – ethnobotanical studies documenting local 
knowledge, analyzing collection-use patterns and identifying traditional medicinal 
plant species are urgently needed. According to our best knowledge, there are no pub-
lications or studies documenting data on medicinal plant use in the Turkestan Range 
of Kyrgyzstan.
This study aimed to: (i) document the traditional use of medicinal plant species 
using standard ethnobotanical methods, (ii) assess the homogeneity of TK of the 
informants and determine culturally important species, (iii) analyze the collection 
patterns of medicinal plants, and (iv) do a comparative analysis of the medicinal plant 
species used on the basis of relevant studies from neighboring countries.
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Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
Material and methods
Study area
The study was performed in the villages of Oezgerush (39°75' N and 70°05' E) and 
Katran, including the surrounding mountainous area of the Turkestan Range in the 
most western part of southern Kyrgyzstan, bordering with Tajikistan (Fig. 1). This 
area belongs to the Leilek district of the Batken Province, with the administrative 
center being the town of Isfana. The Batken Province represents one of the poorest 
regions of the country, with more than 80% of population living below the poverty 
line [16]. Considering the health care options, in the Katran there is a small drugstore 
with only limited assortment of the basic medicaments. However, the hospital and 
convenient medical services are available in Isfana town located approximately 70 
km (about 3 hours by local minibus) from Oezgerush and 50 km (about 2 hours by 
minibus) from Katran. Although there is possibility to access conventional healthcare, 
majority of rural population have constrains to afford it. Moreover, during the winter-
time Isfana is generally inaccessible. In the mountainous regions, local families derive 
their livelihoods from subsistence farming systems consisting of extensive livestock 
(predominantly sheep, goats, and donkeys) and/or the cultivation of mainly potatoes, 
maize, apples and apricots.
The southern part of the province, along the Kyrgyz-Tajik border where our study 
area was located, is formed by the Turkestan Range which belongs to the Pamir-Alay 
Mountains. It is characterized by a semi-arid continental climate with significant 
changes in temperature and precipitation as a result of high elevation differences [17]. 
The average annual precipitation is estimated at 513 mm, varying from 150 to 500 
mm in the plains of the dry lowlands to over 1000 mm in the mountains [18]. The 
study area, with an altitudinal range from 1450 to 3350 m a.s.l., is covered by three 
main types of natural vegetation. In the lowlands semi-desert/mountain steppe occurs 
Fig. 1 Map of the study area.
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Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
(Acanthophyllum-Stipa-Artemisia-Euphorbia-Ferula). Riverbanks are dominated by 
riparian forest (Salix-Populus-Betula-Tamarix-Hippophae). The highest altitudes are 
formed by juniper forest (Juniperus spp.), and high plateaus by grassy alpine meadows 
[18,19]. Steep rocky slopes occurring throughout the area are dominated by various 
xerophytic shrubs and herbaceous species.
Data collection
The study was carried out over the period of July to August 2012. We targeted the 
most knowledgeable community representatives who were capable of providing spe-
cific information concerning the traditional medicinal use of local plant resources 
[20]. Therefore, the purposive sampling and snowball methods were applied in the se-
lection of informants [21]. The study was undertaken with the participation of 10 key 
informants (one woman and nine men) whose age ranged from 26 to 78 years.
All participants in the study were ethnic Kyrgyz people. Since the time of the Soviet 
Union, most of the Kyrgyz population speaks Russian, which has remained the offi-
cial language in Kyrgyzstan. Therefore, interviewees were free to choose the language 
(Kyrgyz or Russian) in which they wished to communicate. A local bilingual assistant 
accompanied the investigator for translation.
The Code of Ethics of the International Society of Ethnobiology (http://ethnobiol-
ogy.net/code-of-ethics/) was followed. Prior to any research activity, each participant 
was familiarized with the project objectives, the survey was discussed and informed 
consent was obtained verbally.
Data was collected through semi-structured interviews and in-depth discussions 
[22], complemented with direct participant observation [23]. When possible, partici-
pants were observed and offered help primarily during home gardening, mowing hay, 
herding animals and collecting plant resources. Initially, respondents were asked to 
provide basic socioeconomic information (age, living place, occupation, and ethnic-
ity). Subsequently, ethnobotanical information including the vernacular names of 
medicinal plant species used, plant parts used, their specific medicinal use, collection 
season, collection site, mode of preparation, and administration of the herbal rem-
edies was documented. Three most knowledgeable informants were visited several 
times in order to capture the local knowledge and practices thoroughly.
Finally, respondents were asked to show the plant species mentioned on-site for 
preparation of a herbarium reference collection. Thereby, plant specimens were 
collected during informant-guided field excursions: “walks-in-the-woods” sensu 
Alexiades [24]. All plant material was collected by the first author and subsequently 
taxonomically identified in collaboration with the Gareev Botanical Garden of the 
National Academy of Sciences of the Kyrgyz Republic in Bishkek and the Department 
of Botany and Plant Physiology, Faculty of Agrobiology, Food and Natural Resources 
of the Czech University of Life Sciences in Prague. Voucher specimens were depos-
ited in the herbarium of the National Museum in Prague (PR) and duplicates in the 
herbarium of the Gareev Botanical Garden in Bishkek. Species’ botanical names were 
verified according to The Plant List (http://www.theplantlist.org). The spelling of local 
plant names was cross-checked with the most knowledgeable informants. Translitera-
tion of the folk names into the English followed the style of Eisenman et al. [7].
Data analysis
Quantification of ethnobotanical data. At first, the ethnobotanical information col-
lected was converted into use reports (UR). One UR corresponds to the event where 
the informant (i) mentions the use of a species (s) for the treatment of an ailment 
category (u) [25]. In the present study, if an informant used a particular species for the 
treatment of more than one health disorder belonging to the same ailment category, it 
was considered as one UR [26].
The health disorders reported by informants were classified into 15 ailment cat-
egories according to Cook [27]. A few of these categories were slightly modified in 
compliance with informant-defined medicinal uses to uncover significant local health 
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problems [e.g., plants for the treatment of haemorrhoids were placed in a separate 
category. Also the category veterinary (VET) was added].
Informant consensus factor (ICF). In traditional medical systems, the same plant 
species is often reported to be used for the treatment of various unrelated ailments. To 
verify the homogeneity of ethnomedicinal knowledge, an ICF suggested by Heinrich 
[28] was calculated. The ICF shows whether or not there is agreement among respon-
dents in the use of plant species in particular ailment categories.
The factor was calculated as: ICF = (Nur − Nt)/(Nur − 1), where Nur is the number of 
UR in each ailment category and Nt is the number of species used in the same category 
by all informants interviewed.
ICF values range from 0 to 1. Low ICF values (close to 0) indicate that there is 
disagreement among informants over which plants they use for the treatment of par-
ticular ailment categories. A high ICF thus means that there is a well-defined selection 
criterion of species used for the treatment of diseases in a particular ailment category, 
which indicates that the knowledge between respondents is exchanged extensively 
and precisely [20].
Informant agreement ratio (IAR). The consensus on the individual species was de-
termined by calculating the IAR [29] for each species. The IAR was calculated using 
the formula: IAR = (Nr − Na)/(Nr − 1), where Nr is the total number of UR registered 
for species and Na is the number of ailment categories that are treated with this spe-
cies. Also, this value varies between 0, when the number of ailment categories is equal 
to the number of UR, and 1, whereby all the respondents agree upon the use of the 
species for ailments of only one ailment category.
Fidelity level (FL). The FL developed by Friedman et al. [30] was used to determine 
the most frequently used species to treat a particular ailment category. This index was 
calculated for each species in a particular ailment category. The formula to calculate 
this index is: FL(%) = Np/(N × 100), where Np is the number of UR for a plant species 
in a particular ailment category and N is the total number of UR for the same plant 
species [31]. Medicinal plants with the highest FL ratio are considered as the most 
preferred for a particular ailment category. A low FL of a given plant reveals its use 
within various ailment categories.
Use value (UV). This was a quantitative index which we used to demonstrate the 
relative importance of locally used species. The UV proposed by Phillips et al. [32] 
was calculated using the formula: UV = U⁄N, where U is the number of UR cited by 
each informant for a given plant species and N is the total number of informants in-
terviewed. The UV index discloses the cultural importance of plant species, where the 
most frequently cited plant species will obtain a high UV [30].
Comparative analysis
Overlap analysis for medicinal plants. Firstly, medicinal species in the study area 
were compared with the all available recent ethnobotanical studies from Central Asia 
[11–13]. The large-scale study comprising different regions of Uzbekistan [11] was 
divided into three particular provinces with purpose to obtain comparable data. Me-
dicinal plants’ diversity was compared and Jaccard similarity indices were calculated 
following the methodology of González-Tejero et al. [33]. Jaccard index = [C/(A + B 
− C)] × 100, where A is the number of species in sample A, B is the number of species 
in sample B and C is the number of species common to A and B.
Secondly, the medicinal species used from all the above-mentioned studies were 
divided and compared geographically according to their location within particular 
mountain systems. For example, in our study area Achillea millefolium L. was not 
documented, however it is included in the Pamir-Alay Mountains because it was en-
countered in this mountain system by another author [11].
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Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
Results
Diversity of medicinal plants, their uses, and 
custodians of ethnomedicinal knowledge
At present, due to traditions, but also the economic situation and isolation in a moun-
tainous environment, local people still utilize various medicinal plants for primary or 
complementary health care. We documented 50 medicinal plant taxa (49 species and 
two distinct forms of one species, i.e., Perovskia scrophulariifolia Bunge) distributed 
among 46 genera and 25 botanical families. One medicinal plant could only be identi-
fied down to genus level (Taraxacum sp.). Lamiaceae is the best-represented family 
with eight species, followed by the Asteraceae (7), Apiaceae (6), and Rosaceae (6) 
families. Among the medicinal plants investigated, the dominant plant habit is herb 
consisting of 36 taxa, followed by shrub (11), tree (2) and vine (1).
The ethnobotanical data is shown in Tab. 1, where ethnomedicinal information on 
each species is complemented with two quantitative indices to demonstrate species’ 
cultural value (UV) and consensus (IAR) on their medicinal uses among informants. 
Twelve medicinal plants were used only historically, in other regions or could not be 
found during field visits, so they were not identified taxonomically. To prevent loss of 
knowledge, ethnobotanical information on these folk species is provided in Tab. 2, 
whereas they are not further considered in data analysis.
For the 46 plant taxa reported by at least two informants, 420 medical citations were 
converted to 327 UR with the intention of ensuring relevant quantitative calculations. 
The highest number of UR was recorded for gastro-intestinal system disorders (GISD; 
86), followed by circulatory system disorders (CSD; 46) and infections/infestations 
(41; II), as shown in the Tab. 3. The most often quoted health disorders are presented 
in Tab. 4, together with the most widespread plant species used to treat them.
The key informants were represented by the last Kyrgyz traditional healer known 
in the Leilek district (78 years old), whose source of livelihood has been for whole 
life selling of medicinal herbs on local markets. Afterwards we interviewed the most 
knowledgeable community members such as home-based herbalists and regular me-
dicinal plant collectors-users. Informants occasionally share knowledge among them-
selves. Furthermore, they were observed to advise other members of the community 
when needed. In the study area medicinal plant knowledge is thus not only transmit-
ted vertically among generations in a family model, but also horizontally within com-
munity. Although several publications about medicinal plants were published during 
the Soviet times, any informant referred to a book during interviews. Only one par-
ticipant showed newspaper clipping about Hypericum perforatum L.
The role of women in traditional medicine is similar in many Islamic cultures, 
where specific ethnomedicinal knowledge remains customarily a male-exclusive 
domain, as for example found by Chellapandian et al. [25] and Keusgen et al. [34]. 
Among our informants there was only one elderly woman. She had, however, a con-
siderable knowledge of medicinal plants acquired during her lifetime spent in the 
mountainous region. Hence, we believe that women are also eminent custodians of 
ethnobotanical knowledge. Based on the low frequency of citation of women and 
child health disorders, male researcher could miss some information due to cultural 
boundaries. Further gender-sensitive studies with female investigators are necessary 
to better approach this issue. In general, younger women and children were observed 
as regular gatherers of the most useful plants (firewood, fruits from orchards and eco-
nomic plants).
Quantitative ethnobotany
The ICF values and related aspects are associated with ailment categorization reported 
in Tab. 3. The ICF value in our study varies from 0 to 1, with the mean value being 
0.49. The highest ICF was calculated for the VET category (ICF = 1), followed by the 
categories of haemorrhoids (HMR; ICF = 0.83) and Skeleto-muscular system disor-
ders (SMSD; ICF = 0.76). The most frequently cited category, GISD (86 UR), showed 
the broadest spectrum of 33 species used, with overall consensus relatively high (ICF 
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Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
© The Author(s) 2016 Published by Polish Botanical Society Acta Soc Bot Pol 85(1):3483 7 of 31
Tab. 1 Traditional uses of medicinal plants among herbal practitioners in the Turkestan Range (Leilek district, Kyrgyzstan, Pamir-Alay Mountains).
Botanical name Mode of Mode of Seasonal 
and voucher Gathering Vernacular Plant Part Local medicinal prepara- applica- Detailed avail-
specimen No. Family environment namea life-form used use/ailments treated tion tion administration ability UVb IARc
Achillea arabica Asteraceae Anthropic Мин жалбpак Herb Aerial Stomach ache, diges- Decoction Oral Drink 1 cup of tea Jun–Aug 0.3 1
Kotschy (nearby) сарыбаш (K), part tion problems 2–3 times per day. 
PR 837022 Тысячелистник Infuse long (for 
(R) 20–30 minutes).
Min zhalbrak 
saribasch, Tysy-
achelistnik (E)
Achillea asiatica Asteraceae Anthropic Мин жалбpак Herb Aerial Stomach ache, diges- Decoction Oral Drink 1 cup of tea Jun–Aug 0.2 NCd
Serg. (nearby) (K), part tion problems 2–3 times per day. 
PR 837047 Тысячелистник Boiling should last 
(R) 20–30 min.
Min zhalbrak, Leaf Wounds Fresh Topical Attach crushed 
Tysyachelistnik leaves.
(E)
Allium carolinia- Alliaceae Mountainous Сасык матал, Herb Bulb Tonic, appetite Fresh Oral Eat the fresh bulb. Jul–Sep 0.5 0
num DC. slopes Тоу пияз (K) stimulator, jaundice
PR 837033 (distant) Sasyk matal, Tou 
piyaz (E) Skin and eye Topical Attach the fresh 
inflammation cut bulb.
Althaea officina- Malvaceae Semi-dessert/ Гулкайр (K) Herb Seed Heart disorders Fresh, Oral Eat the seeds or Sep–Oct 0.1 NCd
lis L. steppe Gulkair (E) dried, prepare a tea
PR 837020 (nearby) infusion
Amygdalus bu- Rosaceae Mountainous Бадам (K) Tree Seed Stomach ache, gas- Fresh, Oral Consume 4–5 Sep–Oct 1 0.67
charica Korsh. slopes Badam (E) tritis, gastric ulcer dried seeds 3 times per 
PR 837027 (distant) angina, asthma, day.
toothache
Hemorrhoid Paste Topical Spread paste made 
from fresh seeds.
Anethum graveo- Apiaceae Anthropic Укроп (R) Herb Aerial Digestion, appetite Fresh, Oral Prepare a tea, 1 Jun–Sep 0.3 0.5
lens L. (nearby) Ukrop (E) part stimulator, kidney dried, teaspoon per small 
PR 837003 stones infusion teapot, or add it 
fresh into dishes 
and salads.
Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
© The Author(s) 2016 Published by Polish Botanical Society Acta Soc Bot Pol 85(1):3483 8 of 31
Tab. 1 Continued
Botanical name Mode of Mode of Seasonal 
and voucher Gathering Vernacular Plant Part Local medicinal prepara- applica- Detailed avail-
specimen No. Family environment namea life-form used use/ailments treated tion tion administration ability UVb IARc
Angelica ternata Apiaceae Mountainous Алхоpот (K) Herb Aerial Headache, nerves, Infusion Oral Prepare a tea from Jul–Aug 1.3 0.5
Regel & Schm- slopes Alkhorot (E) part hypertension, flu, 1 tablespoon per 
alh. (distant) angina, sore throat, teacup. Drink 3 
PR 837032 stomach ache, times per day 1 
digestion, appetite cup of tea.
stimulator, kidney 
and liver disorders, Dried Oral Use as a (me-
cleaning of blood, dicinal) spice for 
heart emasculation soups and dishes.
Arnebia eu- Boragina- Mountainous Тогенек, Herb Root Tuberculosis, cough, Decoction Oral Prepare a decoc- Jul–Aug 0.6 0.8
chroma (Royle) ceae slopes, Juni- Тогендык (K) flu tion of the root in 
I.M.Johnst. per forest Togenek, the milk.
PR 837014 (distant) Togendyk (E)
Artemisia absin- Asteraceae Anthropic Эpмен (K) Herb Leaf, High blood pressure, Infusion Oral Dry it shaded and Jun–Aug 0.9 0.75
thium L. (nearby) Ermen (E) flower headache, kidney then prepare a tea, 
PR 837046 stones use 1 teaspoon 
per small teapot. 
Drink in the 
morning, noon 
and evening.
Berberis inte- Berberi- Riparian for- Карагат (K) Shrub Root, Fractures Decoction Oral Prepare a decoc- May–Oct 0.7 1
gerrima Bunge. daceae est, Anthropic Karagat (E) bark tion from fresh or 
PR 837043 (nearby) dried bark of the 
trunk, branches or 
roots. Use 1–2 tea-
spoons per small 
teapot. Drink 2 
times per day for 2 
or 3 days.
Bunium persi- Apiaceae Mountainous Зиpе (K) Herb Seed Appetite stimulator, Infusion Oral Prepare a tea from Jul–Aug 0.8 0.57
cum (Boiss.) B. slopes Zire (E) gastritis, stomach dried seeds.
Fedtsch. (distant) ache, headache, flu, 
PR 837001 cold Dried Oral Use as a (me-
dicinal) spice for 
dishes.
Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
© The Author(s) 2016 Published by Polish Botanical Society Acta Soc Bot Pol 85(1):3483 9 of 31
Tab. 1 Continued
Botanical name Mode of Mode of Seasonal 
and voucher Gathering Vernacular Plant Part Local medicinal prepara- applica- Detailed avail-
specimen No. Family environment namea life-form used use/ailments treated tion tion administration ability UVb IARc
Capparis sicula Cappara- Semi-desert/ Кооргу (K) Shrub Seed, Haemorrhoid, leg, Fresh, Internal Insert a seed into Sep 0.5 0.75
subsp. herbacea ceae steppe Koorgu (E) root and back pain dried the rectum.
(Willd.), D. (nearby)
Rivera, Obón & Infusion Wash/ Prepare an infu-
Alcaraz bath sion from seeds 
PR 837023 and/or roots and 
wash the body.
Cichorium inty- Asteraceae Anthropic Талкы (K) Herb Root Scabies Infusion Wash/ Prepare an infu- Aug 0.3 0.5
bus L. (nearby) Talky (E) bath sion from the root 
PR 837024 and then clean 
(wash) the body.
Stomach problems Decoction Oral Drink a decoction 
every day 1–3 
times in order to 
release pain.
Conioselinum Apiaceae Mountainous Геренч (K) Herb Root Heart pain and heart Fresh, Oral Chew small piece Aug–Sep 0.3 1
vaginatum slopes, Juni- Gerench (E) disorders dried of the root every 
(Spreng.) Thell. per forest day. Or consume 
PR 837030 (distant) the piece of the 
root 3 times per 
day.
Convolvulus Convol- Anthropic Печек чоп (K) Herb Leaf Wounds Fresh Topical Crush the fresh Aug–Sep 0.5 1
arvensis L. vulaceae (nearby) Pechek chop (E) leaves and apply 
PR 837012 topical on the 
wound.
Corydalis Papavera- Mountainous Опмон каpа (K) Herb Aerial Fractures, leg pain, Infusion Oral Prepare a tea Aug–Sep 0.8 0.71
fedtschenkoana ceae slopes Orman kara (E) part liver and kidney from 2 teaspoons 
Regel (distant) disorders per small teapot. 
PR 837000 Drink a tea 1–2 
times every day 
(for 2–3 days) 
mainly before 
sleeping.
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Tab. 1 Continued
Botanical name Mode of Mode of Seasonal 
and voucher Gathering Vernacular Plant Part Local medicinal prepara- applica- Detailed avail-
specimen No. Family environment namea life-form used use/ailments treated tion tion administration ability UVb IARc
Cuscuta campes- Cuscuta- Anthropic Зар печек (K) Vine Aerial Kidney and liver dis- Infusion Oral Prepare a tea and Jul–Aug 0.4 0.33
tris Yunck. ceae (nearby) Zar pechek (E) part orders, jaundice drink every day 
PR 837004 for 10 days.
Dracocephalum Lamiaceae Mountainous Bозноч (K) Herb Aerial High blood pressure, Infusion Oral Prepare a tea, Jul–Aug 0.8 0.57
stamineum Kar. slopes Voznoch (E) part kidney stones, liver use 1 teaspoon 
& Kir. (distant) and heart disorders, of dry plant per 
PR 837034 jaundice 1 teapot. Let it 
infuse around 20 
minutes. Drink 3 
times every day.
Ephedra equi- Ephedra- Mountainous Чекенде (K) Shrub Aerial Wounds Powder Topical Grind dried fruit Sep–Oct 0.6 0.6
setina Bunge ceae slopes Chekende (E) part, in a hand and put 
PR 837025 (distant) fruit it on the wound 
to recover and 
heal it.
Fractures, disorders Infusion Oral Drink watery tea – 
of internal organs herbal remedy has 
strong flavor.
Leg pain, Decoction Wash, Boil it and pour 
rheumatism bath to big bowl, then 
put legs inside and 
steam them.
Euphorbia Euphor- Mountainous Аюуот (K) Herb Root Disorders, ulcers Fresh, Oral Chew and eat Aug–Sep 1.2 0.64
monocyathium biaceae slopes Медведь and inflammations dried pieces around 3 
(Prokh.) Prokh. (distant) Корень (R) of all gastrointestinal mm, 3 times a day 
PR 837026 Ayuuvot, Med- and urinary system, 1 piece. Use up to 
vedi koren (E) angina, toothache, 30 days.
(“the bear’s jaundice
root”) Tincture Oral Extract the root in 
a spirit for 15 days 
in a dark place. 
Ingest 3 times per 
day 1 teaspoon.
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Tab. 1 Continued
Botanical name Mode of Mode of Seasonal 
and voucher Gathering Vernacular Plant Part Local medicinal prepara- applica- Detailed avail-
specimen No. Family environment namea life-form used use/ailments treated tion tion administration ability UVb IARc
Ferula kokanica Apiaceae Mountainous Ак чайиp (K) Herb Sap Angina, cough, Dried Oral Make an incision Jun–Jul 1.3 0.83
Regel & Schm- slopes Ak chair (E) bronchitis, runny to the plant and 
alh. (distant) nose, flu, cold, stom- after certain time 
PR 837040 ach ache collect the rigid 
sap. Then chew/
bite small pieces 3 
times a day.
Stem, Infusion Oral Prepare a tea 
branch from dried stem 
or branches. One 
stick around 10 
cm per tea cup. 
Drink a tea 2–3 
times every day.
Heracleum Apiaceae Anthropic Балтыpган (K) Herb Root High blood pressure Infusion Oral Prepare a tea from Jul–Aug 0.3 1
sphondylium (nearby) Baltyrgan (E) 1 small teaspoon 
subsp. monta- of dried chopped 
num (Schleich. roots per teapot. 
ex Gaudin) Briq. Drink 2 times per 
PR 837002 day for several 
days.
Hippophae turke- Eleagna- Riparian Чычыpканак, Shrub Fruit Gastric ulcer, Paste Oral Squash fruits Aug–Sep 0.8 1
stanica (Rousi) ceae forest Ашкаэан (K) gastritis, stomach and make oily 
Tzvelev (nearby) Chychyrkanak, ache, gastroenteritis, paste. Consume 3 
PR 837044 Ashkazan (E) diarrhoea teaspoons every 
day, or mix a paste 
with warm water 
and drink up. 
Should be drunk 3 
times before noon.
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Tab. 1 Continued
Botanical name Mode of Mode of Seasonal 
and voucher Gathering Vernacular Plant Part Local medicinal prepara- applica- Detailed avail-
specimen No. Family environment namea life-form used use/ailments treated tion tion administration ability UVb IARc
Hypericum per- Hyperica- Anthropic Чай чоп (K), Herb Aerial Stomach ache, diges- Infusion Oral Prepare a tea from Jun–Jul 1 0.56
foratum L. ceae (nearby) Зверобой (R) part tion, high pressure, dried herb.
PR 837049 Chay chop, headache, jaundice
Zveroboy (E)
Scabies Decoction Wash, Clean or wash the 
bath affected places on 
skin.
Impatiens parvi- Balsami- Anthropic Чтыр (K) Herb Seed Stomach ache Infusion Oral Prepare a tea, Aug 0.1 NCd
flora DC. naceae (nearby) Chtyr (E) use 1 teaspoon of 
PR 837017 seeds per small tea 
pot. Infuse for 15 
minutes and drink 
3 times per day.
Inula orientalis Asteraceae Mountainous Антыз (K) Herb Root Cough, sore throat, Decoction Oral Drink a tea 3 Jul–Sep 1.4 0.54
Lam. slopes Antyz (E) infections, infesta- times per day.
PR 837041 (distant) tions, toothache, 
diabetes
Common cold, Decoction Oral Give the cold 
cough and internal decoction drink to 
infestations of animals.
animals
Juglans regia L. Juglanda- Anthropic Жангак (K) Tree Leaf Scabies Infusion Wash/ Prepare an infu- May–Aug 0.3 0.5
PR 837007 ceae (nearby) Zhangak (E) bath sion and clean or 
wash the affected 
places on skin.
Seed Vitamins and miner- Fresh, Oral Consume a few Sep
als deficiency dried seeds.
Juniperus semi- Cupres- Juniper forest Арча (K) Shrub Branch Flu, runny nose, Smoke Inhalation Burn the dry Apr–Oct 0.6 0.6
globosa Regel saceae (distant) Ёлка (R) bronchitis branches and 
PR 837031 Archa, Jolka (E) inhale the antimi-
crobial smoke.
Fruit Stomach ache Infusion Oral Prepare a tea from 
several fruits.
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Tab. 1 Continued
Botanical name Mode of Mode of Seasonal 
and voucher Gathering Vernacular Plant Part Local medicinal prepara- applica- Detailed avail-
specimen No. Family environment namea life-form used use/ailments treated tion tion administration ability UVb IARc
Malva neglecta Malvaceae Anthropic Нан чоп, Маи Herb Aerial Woman uterine Infusion Oral Prepare a tea, Aug–Sep 0.2 0
Wallr. (nearby) токоч (K) part disorders, preg- drink regularly.
PR 837005 Nan chop, Mai nancy and obstetric 
tokoch (E) complications
Seed Digestion problems Infusion Oral Prepare a tea from 
a few seeds.
Marrubium ani- Lamiaceae Anthropic Котур чоп (K) Herb Aerial Skin eczemas and Infusion Wash, Prepare an infu- Jul–Aug 0.3 0.5
sodon K.Koch (nearby) Kotur chop (E) part scabies bath sion and when it 
PR 837016 is lukewarm wash 
the skin.
Mentha longifo- Lamiaceae Anthropic Жалпыз (K) Herb Aerial High pressure, Fresh, Oral Prepare a tea, Jul–Aug 0.8 0.51
lia var. asiatica (nearby) Zhalpyz (E) part stomach ache, ulcers dried use 1 teaspoon 
(Boriss.) Rech.f. of gastro-intestinal per small tea pot. 
PR 837015 system, kidney Drink 2–3 times 
disorders, source of per day.
vitamins
Origanum Lamiaceae Anthropic Душиез (K) Herb Aerial Flu, angina, high Infusion Oral Prepare a tea from Jul 0.4 0.5
vulgare subsp. (nearby) Dushies (E) part pressure, internal 1–2 teaspoons per 
gracile (K. Koch) organ disorders small teapot. Use 
letsw. 2–3 cups daily for 
PR 837013 10 days. Infuse for 
15–20 min.
Peganum har- Zygophyl- Semi-desert/ Абдырашман, Herb Root Skin disorders, Decoction Wash/ Clean affected Aug–Sep 1.6 0.73
mala L. laceae steppe Усырык (K) scabies bath places on skin.
PR 837019 (nearby) Abdyrashman, 
Usyryk (E) Aerial Cough, bronchitis Smoke Inhalation Burn a dry plant 
part material and 
inhale smoke in 
enclosed room.
Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
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Tab. 1 Continued
Botanical name Mode of Mode of Seasonal 
and voucher Gathering Vernacular Plant Part Local medicinal prepara- applica- Detailed avail-
specimen No. Family environment namea life-form used use/ailments treated tion tion administration ability UVb IARc
Aerial Stomach ache, head- Infusion Oral Prepare a tea from 
part, ache, inflammations 1 teaspoon per 
seed of gastrointestinal teapot.
system, digestion 
problems, lowering 
blood pressure
Seed Toothache Fresh, Topical Attach on tooth to 
dried inhibit toothache.
Perovskia scroph- Lamiaceae Semi-desert/ Ак-коэн-тамук Herb Leaf High blood pressure Infusion Oral Prepare a tea, use Aug 0.5 0.5
ulariifolia Bunge steppe (K) 1–2 teaspoons per 
(white form) (nearby) Ak-koyen-tamuk small teapot, drink 
PR 837011 (E) 3 times every day.
Scabies Fresh, Wash, Clean or wash the 
dried bath affected places by 
infusion.
Perovskia scroph- Lamiaceae Semi-desert/ Коэн тамук (K) Herb Leaf Skin disorders, Fresh Topical Apply the crushed May–Sep 0.3 0.5
ulariifolia Bunge steppe Koyen tamuk (E) wounds leaves on desirable 
(purple form) (nearby) spots on the skin.
PR 837010
Plantago major Plantag- Anthropic, Бакажалбрак Herb Leaf Stomach ache, gas- Infusion Oral Prepare a tea from Jun–Aug 1.4 0.54
L. inaceae Riparian (K) tric ulcer, gastritis, 2 leaves per small 
PR 837021 forest Bakazhalbrak digestion, headache, teapot. Drink 
(nearby) (E) high pressure, kid- daily, 3 times a day 
ney disorders, raised for 10 days.
temperature
Wounds Fresh Topical Apply externally 
on wounds.
Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
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Tab. 1 Continued
Botanical name Mode of Mode of Seasonal 
and voucher Gathering Vernacular Plant Part Local medicinal prepara- applica- Detailed avail-
specimen No. Family environment namea life-form used use/ailments treated tion tion administration ability UVb IARc
Polygonum his- Polygona- Mountainous Кымызйек (K) Herb Stem, Immunostimulant, Fresh Oral Consume the fresh May–Jul 0.7 0.67
saricum Popov ceae slopes Kymyzyek (E) leaf flu stem and leaves 
PR 837035 (distant) rich in vitamins. 
Also refreshing 
wild vegetable 
snack.
Prunus arme- Rosaceae Anthropic Урук (K) Tree Fruit Stomach ache, Fresh, Oral Eat 5 mature Jun–Aug 0.1 NCd
niaca L. (nearby) Uruk (E) heartburn dried fruits.
PR 837009
Prunus erythro- Rosaceae Mountainous Карачеке (K) Shrub Fruit Nerves, headache, Infusion Oral Prepare a tea, 5 Aug 0.7 0.25
carpa (Nevski) slopes Karacheke (E) high pressure, limbs seeds per teapot. 
Gilli (distant) ache and stomach Drink 3 times per 
PR 837028 ache day for 1–2 days.
Fresh Oral Eat a several fresh 
fruits – medicinal 
snack.
Rhaponticum Asteraceae Anthropic Кекре чоп (K) Herb Aerial Stomach ache, Infusion Oral Prepare a tea from May–Jul 0.6 1
repens (L.) Hi- (nearby) Kekre chop (E) part digestion problems, dried plant, use 
dalgo. diarrhoea one teaspoon per 
PR 837048 small teapot. Keep 
drinking for 10 
days, 2–3 times 
per day.
Rhodiola gelida Crassula- Mountainous Алтын тамып Herb Root Blood pressure har- Tincture Oral Cut the fresh root Jul–Aug 1.3 0.75
Schrenk. ex ceae slopes (K), Золотой monization, nerves on small pieces 
Fisch. & C.A. (distant) корень (R) and headache, and extract for 40 
Mey. Altyn Tamyr, gastritis, gastro-in- days in a spirit, 
PR 837038 Zlotoy koren (E) testinal organ ulcers, use daily for 10 
(“the golden heart problems and days 1 teaspoon 3 
root”) its strengthening times a day.
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Tab. 1 Continued
Botanical name Mode of Mode of Seasonal 
and voucher Gathering Vernacular Plant Part Local medicinal prepara- applica- Detailed avail-
specimen No. Family environment namea life-form used use/ailments treated tion tion administration ability UVb IARc
Ribes meyeri Grossula- Riparian Бопу каpагат Shrub Leaf, Kidney and urinary Infusion Oral Prepare a tea and Aug 0.5 0.75
Maxim. riaceae forest (K) fruit disorders, increasing drink 3 times per 
PR 837039 (nearby) Boary karagat level of blood day for 10 days.
Mountainous (E)
slopes Fruit Fresh/ Oral Consumed in 
(distant) dried fresh or dried 
form.
Rosa ecae Aitch. Rosaceae Mountainous Ит мурун (K) Shrub Leaf, Stomach disorders, Infusion Oral Prepare a tea and Jun–Aug 0.5 0.25
PR 837042 slopes It murun (E) flower, heart disorders, drink regularly.
(distant) fruit bronchitis
Anthropic 
(nearby) Fruit Insect bites Fresh, Topical Attach the fresh Aug
powder fruit or powdered 
dry fruit on bitten 
place.
Rosa fedtschen- Rosaceae Mountainous Гул согар (K), Shrub Fruit Cough, angina, flu, Infusion Oral Prepare a tea and Aug–Sep 1 0.56
koana Regel slopes Шиповник, (R) runny nose, immu- drink 1 cup every 
PR 837029 (distant) Gul sogar, Shi- nity, heart defects, day, use 2–3 fruits 
Anthropic povnik (E) high pressure, gastric per small teapot.
(nearby) ulcers, gastritis
Rubus caesius L. Rosaceae Anthropic, Булдургон (K) Shrub Fruit High pressure, Fresh, Oral Eat fresh or pre- Jun–Jul 0.3 0.5
PR 837006 Riparian Buldurgan (E) headache preserved served fruit.
forest 
(nearby)
Taraxacum sp. Asteraceae Anthropic Мама каймак Herb Aerial Stomach ache Infusion Oral Prepare a tea from May– 0.2 1
PR 837045 (nearby) (K) part 1 heaped table- June
Mama kaymak spoon per teapot. 
(E) Drink every day 
for 10 days.
Thymus seravs- Lamiaceae Mountainous Мин тамыp (K) Herb Aerial Woman genital dis- Infusion Oral Prepare a tea Jun–Aug 0.1 NCd
chanicus Klokov slopes Min tamyr (E) part orders, problem with from dried plant 
PR 837037 (distant) (“the plant of fertility material.
thousand roots”)
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Tab. 1 Continued
Botanical name Mode of Mode of Seasonal 
and voucher Gathering Vernacular Plant Part Local medicinal prepara- applica- Detailed avail-
specimen No. Family environment namea life-form used use/ailments treated tion tion administration ability UVb IARc
Tribulus terres- Zygophyl- Anthropic Темир текен (K) Herb Aerial Skin allergy, Infusion, Wash, Clean the affected Apr–May 0.3 1
tris L.e laceae (nearby) Temir teken (E) part inflammations fresh bath, places by warm 
topical infusion or attach 
crushed fresh 
plant.
Urtica dioica L. Urticaceae Anthropic Чаган чоп (K) Herb Aerial Purification of blood Infusion Oral Prepare a tea and May–Jun 0.9 0.38
PR 837018 (nearby) Chagan Chop part and urinary system, drink regularly for 
(E) disorders of internal a longer time.
organs
Radicular and leg Fresh Topical Use fresh plant 
pain, rheumatism externally on skin 
against rheuma-
tism and muscular 
pain.
Zea mays L. Poaceae Anthropic Жугору (K) Gramin- Flower Liver and kidney Infusion Oral Prepare a tea Aug–Sep 0.4 0.33
PR 837008 (nearby) Kукуруз (R) oid problems, jaundice from male flower 
Zhygoru, and drink up to 3 
Kukuruz (E) times a day.
Ziziphora Lamiaceae Mountainous Кийгот (K) Herb Aerial Flu, cough, cold, Infusion Oral Prepare a tea from Aug–Sep 2 0.68
pamiroalaica Juz. slopes, Kiygot (E) part angina, runny nose, 1–2 teaspoons per 
PR 837036 Juniper forest (“the herb of the infections, blood small teapot.
(distant) wild goat”) cleaning, blood pres-
sure harmonization, 
headache, stomach 
ache, gastritis, 
antiemetic
a K – Kyrgyz language; R – Russian language; E – English transliteration, the term in quotation marks express a popular folk meaning. b UV: species use value. c IAR – informant agreement ratio. d NC 
– not calculated (reported only by one informant). e not collected (identified in the field by the first author).
Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
Tab. 2 Ethnobotanical information on taxonomically unidentified medicinal plants.
Number of Plant part Preparation and 
Vernacular namea informants Local medicinal use used application Note
Улкон (K) 5 Stomach disorders, head- Leaf Consumed or chewed Not found
Ulkon (E) aches, kidney disorders, 
immunity enhancer Root Infusion drunk
Мандил (K) 4 Rheumatism, pain of Root Consumed/chewed fresh Not found
Mandil (E) joints, tonic, stabiliza- or dried, or decoction/
tion and strengthening tincture is prepared and 
of heart functions, high ingested
blood pressure
Чечендир (K) 3 Skin inflammations and Leaf Applied fresh topically, or Not found
Chechendir (E) other skin disorders infusion for wash/bath
Шакыл дак чоепте (K) 2 Kidney stones and kidney Flower Infusion drunk Not found. 
Shakul dak choepte (E) disorders Occur earlier in 
the season.
Жылан чоп (K) 2 Aphrodisiac for men Root Consumed/chewed dried, Not found
Zhylan chop (E) or infusion is drunk
Ак шубак (K) 2 Scabies, body odor (feet/ Aerial Infusion drunk for high Not found
Ak Shuvak (E) leg), high blood pressure part blood pressure, or decoc-
tion for wash/bath
Кункурама (K) 1 Haemostasis Leaf Dried ground and ap- Not found
Kunkurama (E) plied externally
Долоно (K) 1 Unknown medicinal use Fruit Consumption of fresh/ Not found. 
Dolona(E) (black dried/canned fruits Occur in other 
color) regions.
Уйбеде (K) 1 Kidney disorders Leaf Infusion drunk Not found. Not 
Uibede (E) used anymore.
Сабиз чоп (K) 1 Unknown medicinal use - - Not found. Not 
Saviz chop (E) used anymore, 
forgotten use.
Кызыл-ычак (K) 1 Unknown medicinal use - - Not found. Not 
Kyzyl-ychak (E) used anymore, 
forgotten use.
(Дук) шилби (K) 1 Unknown medicinal use - - Not found. Not 
(Duk) Schilbi (E) used anymore, 
forgotten use.
a K – Kyrgyz language; E – English transliteration.
= 0.62). Accordingly, there is an assumption of well-developed knowledge and ex-
changed information on herbal treatment in those categories. The lowest value, with 
no consensus at all, was determined for dental and mouth care (DMC) and the other 
uses (OTH) categories.
An agreement on the use of particular plant species for the treatment of various 
disorders in a given ailment category was assumed by the IAR presented in Tab. 1. 
Rhaponticum repens (L.), Achillea arabica Kotschy, Taraxacum sp., Conioselinum vagi-
natum (Spreng.) Thell., Heracleum sphondylium subsp. montanum (Schleich. ex 
Gaudin) Briq., Berberis integerrima Bunge., Hippophae turkestanica (Rousi) Tzvelev, 
Convolvulus arvensis L., and Tribulus terrestris L. have shown a 100% agreement 
among informants.
Through use of the FL index, highly preferred plants within particular categories 
were determined (Tab. 5). Notably, GISD includes the most plant species, obtaining a 
© The Author(s) 2016 Published by Polish Botanical Society Acta Soc Bot Pol 85(1):3483 18 of 31
Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
Tab. 3 Ailment categories presented according to the descending order of the informant consensus factor (ICF).
Ailment category ICF No. of speciesa No. of URb % of total UR
Veterinary (VET) 1 1 3 1
Haemorrhoids (HMR) 0.83 2 7 2
Skeleto-muscular system disorders (SMSD) 0.76 6 22 7
Respiratory and throat disorders (RTD) 0.63 14 36 11
Gastro-intestinal system disorders (GISD) 0.62 33 86 26
Circulatory system disorders (CSD) 0.56 21 46 14
Infections/infestations (INF) 0.5 21 41 13
Injuries/wounds (INJ) 0.5 6 11 3
Neurological problems (NEU) 0.47 10 18 6
Immunity disorders (IMD) 0.44 6 10 3
Genito-urinary system disorders (GUSD) 0.4 13 21 6
Skin disorders (SKD) 0.38 8 13 4
Blood system disorders (BSD) 0.2 5 6 2
Dental and mouth care (DMC) 0 4 4 1
Others (OTH) 0 3 3 1
a A taxon may be reported in more than one ailment category. b UR – use report.
100% FL. The highest cultural importance demonstrated by the UV index was calcu-
lated for Ziziphora pamiroalaica Juz. (UV = 2), Peganum harmala L. (UV = 1.6), Inula 
orientalis Lam., Plantago major L. (UV = 1.4), Ferula kokanica Regel & Schmalh., An-
gelica ternata Regel & Schmalh., Rhodiola gelida Schrenk. ex Fisch. & C.A. Mey. (UV 
= 1.3), and Euphorbia monocyathium Prokh. (UV = 1.2). Based on the sum of species 
UV, the most culturally important families were Lamiaceae (total UV = 5.2), Apiaceae 
(total UV = 4.3), and Asteraceae (total UV = 3.9).
Mode of preparation, 
Tab. 4 Ten most frequently reported health problems and species with highest citation administration, and 
frequency for their treatment. plant parts used
Health disorder No. of citations Prioritized species The herbal remedies were 
prepared according to vari-
Stomach aches 59 Hippophae turkestanica, Rhaponticum repens ous modes of preparation 
Kidney disorders 16 Ribes meyeri (Fig. 2). Principally, there was 
no report on the use of herb 
Headaches 16 Prunus erythrocarpa mixtures, and all remedies 
Fractures 14 Berberis integerrima were prepared from single 
plant species. The most fre-
Influenza 14 Ziziphora pamiroalaica quent method of preparation 
Coughs 14 Ferula kokanica was infusion (37%). Infusions 
were prepared in the form of 
Angina 14 Ziziphora pamiroalaica, Ferula kokanica herbal tea, usually in a local 
Wounds 11 Convolvulus arvensis teapot with an approximate 
volume of 0.5 L. The major-
Scabies 11 Peganum harmala ity of plants were infused for 
between 5–10 minutes. Cold 
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Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
Tab. 5 The prioritized species in particular ailment categories based on the fidelity level index.
Ailment category Fidelity level Plant species
Gastro-intestinal system disorders 100% Hippophae turkestanica, Taraxacum sp., Rhaponti-
cum repens, Achillea arabica
Circulatory system disorders 100% Heracleum sphondylium subsp. montanum, Coniose-
linum vaginatum
Skeleto-muscular system disorders 100% Berberis integerrima
Skin disorders 100% Tribulus terrestris
Infections/infestations 83% Arnebia euchroma
Injuries/wounds 80% Convolvulus arvensis
Haemorrhoids 80% Capparis sicula subsp. herbacea
Immunity disorders 71% Polygonum hissaricum
Respiratory and throat disorders 67% Juniperus semiglobosa
Genito-urinary system disorders 60% Ribes meyeri
Neurological problems 57% Prunus erythrocarpa
Blood system disorders 40% Ribes meyeri
Veterinary 21% Inula orientalis
Others 20% Allium carolinianum, Perovskia scrophulariifoliaa
Dental and mouth care 10% Amygdalus bucharica
a Purple form of Perovskia scrophulariifolia.
Preserved 1% or gently warmed infusions were applied as washes and baths 
Tincture 2% for the treatment of scabies and other skin disorders. The direct 
Powder 2% consumption of fresh fruit and seed was popular, and in some 
Paste 2% cases the chewing of various plant parts. Fresh plants were often 
Smoke 3% applied topically to cure skin problems, injuries and wounds. 
Decoction 11% For the preparation of a decoction, plants were boiled for 10–20 
Dried 16% minutes in water, or, as in the case of Arnebia euchroma (Royle) 
Fresh 25% I.M. Johnst., in milk, in order to increase drug efficiency against 
Infusion 37% tuberculosis.
With regard to the application methods reported by infor-
Fig. 2 Proportional distribution of species according mants, 77% of remedies were used internally, i.e., oral (73%), 
to the mode of preparation. inhalation (3%), and insertion (1%). The remaining 23% of 
herbal preparations were applied externally, i.e., topical (15%) 
and wash/bath (8%). The largest variability in terms of applica-
Root tion methods was recorded for Peganum harmala (oral, topical, 
13%
Seed Flower, 4% and inhalation) and Ephedra equisetina (oral, topical, and wash/
Leaf 13% bath).
15% The proportion of different plant parts used for medicinal 
Branch, 3% purposes is shown in Fig. 3. Above all, aerial plant parts (31%) 
are used for the preparation of plant-based medicaments. 
Fruit
15% Stem, 3% Stem from only two species were used. The raw stems of Po-
lygonum hissaricum Popov, a popular diet-enriching vegetable 
Aerial part Bark, 1%
31% Bulb, 1% snack, were consumed to enhance immunity. Its medicinal use 
Sap, 1% had not been previously recorded. The stem and branches of 
Ferula kokanica contain a valuable sap which is used to treat 
angina, coughs, bronchitis, runny noses, flu, colds, and stom-
Fig. 3 Plant parts used for medicinal purposes. ach aches. Interestingly, many plants of F. kokanica are notched, 
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the solidified sap collected the next day and then stored, usually in a matchbox, and 
always carried personally throughout the year. Bark used only in one case from Ber-
beris integerrima was prepared as a decoction in order to help set fractures and aid in 
their healing. The use of bulbs was recorded for Allium carolinianum DC merely as 
an immunity and appetite stimulator, and occasionally prepared as a treatment for 
jaundice.
Food-medicine continuum
Nearly one quarter of documented taxa (24%) were commonly used as sources of 
food. In the present study Amygdalus bucharica, Angelica ternata, Bunium persicum 
B. Fedtsch, and Hippophae turkestanica were the sources of medicinal food. We ob-
served a changing pattern from medicinal food to medicine based on the method of 
preparation. For instance, in order to achieve a particular medicinal effect, A. ternata 
and B. persicum are prepared as an infusion instead of being used for seasoning. Other 
edible species are generally considered healthy, therefore according to Pieroni and 
Quave [35] rather fit into the category of functional food (Anethum graveolens L., 
Juglans regia L., Polygonum hissaricum, Ribes meyeri Maxim., Rubus caesius L., Prunus 
armeniaca L.). Although, from the local perspective consumption of these species 
has a beneficial effect on particular organs or body systems, they are not ingested as a 
highly effective medicine. A third group of food/medicinal species we distinguished 
has separate functions as food or medicine, which means that the culinary use of the 
species is unrelated to the medical application [Juglans regia, Mentha longifolia var. 
asiatica (Boriss.) Rech.f, Zea mays L.]. Some remarkable culturally important medici-
nal food species are shown in Fig. 4.
Collection patterns and seasonal availability
Medicinal plants are primarily gathered from the wild (86% of documented taxa). The 
remaining plants are either collected or cultivated (five species), with three species 
cultivated only.
Fig. 4 Culturally important medicinal food plants. a Angelica ternata. b Bunium persicum (being sundried). 
c Prunus erythrocarpa (fruiting branch). d Polygonum hissaricum.
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Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
Fig. 5 Ethnobotanical characteristics of the gathering environments. UV – use value index; IAR – informant agreement 
ratio (certain taxa are gathered in more than one environment).
!!" N415DE"4C@:5.CF4C27" The majority of taxa (64%) are obtained from nearby lo-
D:721C2"4C@:5.CF4C27" cations (up to 1 hour walking distance from informants’ 
*#" #$%&" *#" homesteads). Within nearby localities, the highest diversity of 
medicinal plants gathered (52% of taxa) was found in anthropic 
environments like homegardens and orchards (Fig. 5). The 
most common medicinal plants were collected from nearby 
'%(!" '%+," '%)'" '%)," environments, while commercially valued species and those 
with strong treating effects were gathered in distant mountain-
-.%"./"01234546" ;.21<"UV" ?@45104"UV" ?@45104"IAR"
7849:47" ous areas such as mountainous slopes and juniper forests at 
higher altitudes. As shown in Fig. 5, the highest IAR (0.77) was 
Fig. 6 Comparison of nearby and distant gathering calculated for medicinal plants gathered in high altitude juni-
environments. UV – use value; IAR – informant agree- per forests, one of the most distant environments. Notably, the 
ment ratio. highest total UV showed species gathered from mountainous 
slopes at distant sites. Although the number of species gath-
C-8?5+5@"<12." D02AB-85@"<12." C-8?5+5@"-1@"702AB-85@" ered in particular environments is positively correlated to the 
total UV (r = 0.89, p < 0.05), there is no significant relationship 
&" between the number of gathered species and the average UV (r 
%" = −0.14, p > 0.05), and average IAR (r = −0.63, p > 0.05).
Afterwards, we compared the merged data for nearby 
&" (semi-dessert/steppe, anthropic environments, riparian for-
!" est) and distant environments (mountainous slopes, juniper 
!" forest) in Fig. 6. Although distant environments provide less 
&" &"
&&" medicinal species, their total UV (Fig. 6) and average IAR 
!"
!%" (Mann–Whitney test, p = 0.206) are slightly higher, whereas 
$"
$'" average UV reached significantly higher values (Mann–Whit-
$%" $"
#" ney test, p < 0.05).
("
!" The period of species’ availability is shown in Fig. 7. The 
)*+" ,-." /01" /02" )03" 45*" 678" duration of the collection season varies for particular plants 
from 1 month to a maximum of 7 months, with an average du-
Fig. 7 Seasonal availability of gathered and cultivated ration of 2.5 months per species. Medicinal plants were com-
medicinal plants monly dried to ensure their availability all year round.
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90:;5+"<="*2-18>""3-8?5+5@"<+"702AB-85@"
Pawera et al. / Ethnobotany of Kyrgyz medicinal plants
Comparative analysis of medicinal 
plant species used
Overlap between the mountain systems is shown 
through a Venn diagram (Fig. 8), and Jaccard simi-
larity indices are presented in Tab. 6.
Interestingly, the highest degree of similarity at 
generic and species level was determined for the 
medicinal plants used in the Badakshan region of 
the adjacent mountain system of Pamir. Notable 
commonalities were detected with regions in other 
parts of the Pamir-Alay Mountains. The lowest 
level of similarity was found with studies from the 
Fig. 8 Venn diagram comparing medicinal species used within mountain ranges of Tien Shan.
major Central Asian mountain systems. So far, the greatest number of medicinal species 
used has been documented in the Tien Shan Moun-
tains – 140 spp. [11,13], followed by the Pamir-Alay 
– 90 spp. (present study and [11]) and lastly Pamir Mountains – 58 spp. [12]. Although 
Pamir-Alay and Tien Shan have the highest number of species in common (25 spp.; 
Jaccard index = 12.20), a slightly higher Jaccard index (12.98) was calculated between 
Pamir-Alay and Pamir (Tab. 6). The lowest similarity was found between Pamir and 
Tien Shan (Jaccard index = 9.39). Our comparative analysis revealed 11 species that 
are used in folk medicine across all the major Central Asian mountain systems along 
with the different cultures of Uzbeks, Kyrgyz, Tajiks, and Afghans (Fig. 8).
Medicinal food plants and sustainability
Besides their medical applications, two plant species are frequently used as aromatic 
plants for food seasoning. Bunium persicum (UV = 0.8, IAR = 0.57) was, with the 
exception of cultivated dill (Anethum graveolens), observed to be the most utilized 
local condiment. Bunium persicum is well-known to the study area population and it 
Tab. 6 Geographical comparison of medicinal plant species documented in Leilek district (Kyrgyzstan) and neighboring regions 
based on available ethnobotanical studies.
No. of No. of No. of No. of Jaccard Jaccard 
Geography recorded recorded identical identical index for index for 
Region and reference (mountain system) genera species genera species genera species
Gorno Badakhsan Afghan and Tajik 54 58 27 13 36.99 13.68
Oblast (Tajikistan) Pamirs (Pamir 
and Badakhsan Prov- Mountains)
ince, Afghanistan 
[11]
Djizzax Province, Nuratau mountains 24 28 14 9 25.00 13.04
Uzbekistan [9] and Turkestan Range 
(Pamir-Alay)
Samarqand Province, Zarafshan Range 38 43 21 9 33.33 10.71
Uzbekistan [9] (Pamir-Alay)
Toskent Province, Pskem mountain 27 34 13 7 21.66 9.09
Uzbekistan [9] range (Tien Shan)
Chatkal Biosphere Chatkal Range (Tien 94 117 24 13 20.69 8.44
Reserve, Uzbekistan Shan)
[12]
Leilek district, Turkestan Range 46 50 N/A N/A N/A N/A
Kyrgzystan (Pamir-Alay)
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possesses significant economic value when commercialized [up to 500 KGS (Kyrgyz-
stan Som) – nearly 10 USD per kg]. Its seeds are sundried, stored, and sold regularly 
at local and regional markets. Because of its high economic profitability there is a 
strong effort among local people to collect as many seeds as possible. After being 
dried, the seeds are sold immediately, or in many cases they are stored and sold dur-
ing the wintertime, when the market price increases considerably. According to some 
informants, it is also traded across the border with Tajikistan, where it is extremely 
popular but less abundant in nature.
Angelica ternata (UV = 1.3, IAR = 0.5), another aromatic species with extensive 
medicinal effects, is used as a popular condiment especially for seasoning soups. In 
comparison with B. persicum it grows at a higher altitude (above 3000 m a.s.l.) and 
is less abundant. Therefore, the gathering of this species is more difficult and less 
common, unlike B. persicum. Perhaps due to the lower abundance, A. ternata was 
observed to be consumed within households rather than sold on markets. However, 
both species might be under pressure due to extensive gathering.
Discussion
Ethnomedicinal knowledge and health sovereignty in the Turkestan Range
Although arid and semi-arid environments are considered less biologically diverse, 
people have evolved various life strategies to cope with such environments, often ex-
tensively utilizing local plant resources [36]. The provision of proper health services 
in the mountainous areas of Kyrgyzstan is challenging, but TK of medicinal plants 
provides important options for health sovereignty in the mountains of Central Asia 
[12]. It is considered that the persistence of TK is directly related to its continuous use. 
A partial loss of TK due to Soviet influence has been observed in the Leilek district, 
especially a decrease in the spiritual value and use of plants. We noticed that the use 
of Peganum harmala and Juniperus semiglobosa for fumigation with a sacred meaning 
had importance in the past, while currently its spiritual value is no longer recognized 
and people were rather ashamed to speak about it.
While searching for informants using a snowball method, we briefly asked lay 
people about the medicinal plants they know. Almost all were familiar with several 
common medicinal plants and their medicinal use. They were also aware of more 
plants having medicinal properties, however, they had unfortunately forgotten their 
medical applications. According to Kassam [4], the transfer of knowledge of medici-
nal plants in the former Soviet republics may even skip a generation of people who did 
not use these plants during the Soviet period. Kassam [4] demonstrated the difference 
between the Afghan and Tajik sides of the Pamir Mountains. The author observed that 
the traditional ecological knowledge on the Afghan side of the Pamir Mountains was 
not lost to the same extent as the Tajik side, which was influenced by the Soviet Union 
rule. In the Turkestan Range, the TK is nowadays under threat again because of high 
unemployment, urbanization, and the adoption of western lifestyles especially attrac-
tive to younger generations. Along with the erosion of ethnomedicinal knowledge, 
communities also lose their access to natural/complementary health care. While hos-
pitalization is an important option, high costs, limited access and the lack of medical 
professionals put Central Asian societies at risk [12]. Although access to public health 
care is improving in Kyrgyzstan, the affordability of modern health care remains a 
widespread problem [37]. The practical wisdom to use medicinal plants as an alterna-
tive or in combination with conventional health care systems underpins the resilience 
of rural communities [2].
Major ailment categories and their herbal treatment
Tab. 4 gives a picture of the most widespread health problems treated by medicinal 
plants in the study area. Looking at the ailment categories, GISD has also been docu-
mented as the most common category in other studies from Central Asia [11–13]. 
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This might be explained by the fact that sanitary problems and a significant lack of 
drinking water are common in most Central Asian countries [18]. Interviewees dis-
tinguished a remarkably wide array of gastro-intestinal problems. Among those, the 
most frequently mentioned were stomachaches and gastritis. Hippophae turkestanica 
is particularly popular for the treatment of both ailments.
The second most commonly treated ailment category in the study area is circulatory 
system disorders (CSD), which corresponds with national health report [37], stating 
that cardiovascular diseases are the leading causes of death in Kyrgyzstan. Our study 
has documented 21 medicinal plant species helping people with cardiovascular dis-
orders (ICF = 0.58). Hypertension, as the most frequent, is lowered mainly by herbal 
infusion from Artemisia absinthium L., Angelica ternata, Dracocephalum stamineum 
Kar. & Kir., and a tincture prepared from Rhodiola gelida. Nevertheless, according 
to the FL, Heracleum sphondylium subsp. montanum and Conioselinum vaginatum 
were determined as the most preferred species within this category. Contrary to our 
results, in Uzbekistan the treatment of cardiovascular diseases is not much reflected 
in folk medicine [11,13]. As pointed by Penkala-Gawęcka [6] the treatment of certain 
categories might be interconnected with knowledge acquisition from media sources 
and also official doctors during and after the Soviet Union rule.
According to Ibraimova et al. [37], the second and third most fatal health problems 
are cancer and respiratory diseases, respectively. In addition, Kyrgyzstan is among the 
27 highest multidrug-resistant tuberculosis burden countries in the world [38]. For 
the treatment of tuberculosis only one plant species (Arnebia euchroma) was reported 
by our informants. This species obtained the highest FL (83%) in the category of infec-
tions/infestations (INF) and according to internationally available literature sources 
it is pharmacologically a very interesting species [39]. This plant has been known in 
the neighboring Himalayas since ancient times and used as natural dye for silk as well 
as various food products. Shikonin, a remarkable naphthoquinone-based compound, 
was found in the roots of A. euchroma. Shikonin has a current value of 4000 USD per 
kilogram (wholesale price) and possesses antibacterial, antifungal, anti-inflammatory, 
and wound-healing properties [39].
Concerning infectious diseases in the study area, the most prevalent was influenza, 
which is treated predominantly by Ziziphora pamiroalaica. Afterwards, respiratory 
and throat disorders (RTD; ICF = 0.6) are very frequent. The most cited respiratory 
health problems, coughs and angina, are treated by Ferula kokanica and Z. pamiro-
alaica mostly in the form of an infusion. As previously mentioned, Kyrgyz people 
also chew resin extracted from the stem of F. kokanica. Only a limited number of 
studies on F. kokanica are available, focusing mainly on the presence and activity of 
terpenoid coumarins [40]. Traditional medicinal use of Z. pamiroalaica in Kyrgyzstan 
was previously reported as the treatment of tachycardia, gastralgia and heart disorders 
[8]. In Uzbekistan Sezik et al. [11] recorded the current use of Z. pamiroalaica as a 
sedative and for hypotensive purposes. While many studies have shown significant 
antimicrobial activity of Ziziphora clinopodioides Lam. there exist only one laboratory 
assessment of Z. pamiroalaica, showing even higher antioxidant activity compared to 
Z. clinopodioides [41]. Despite obtaining the highest FL in the category of RTD, Juni-
perus semiglobosa has not been previously reported to treat ailments in this category. 
Eisenman et al. [7] found that branches of Juniperus spp. are burned in Central Asia 
to produce a pleasant odor and to treat rheumatism.
The most culturally important botanical families and plant species
Based on our data and the results of other authors [11–13], currently the most rep-
resented botanical families of medicinal plants used in Central Asia are Asteraceae 
and Lamiaceae, followed by Apiaceae and Rosaceae. This could be related to the long 
scientific discussion that medicinal plants are not a random selection of the available 
flora, but that specific botanical families are used more extensively than others (see 
e.g., [42]). As we did not make an inventory of the floristic composition of the gath-
ering habitats, we cannot demonstrate whether or not there could be a relationship 
between medicinal plant species richness, over- or under-representation of botanical 
families and the overall floristic diversity.
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Certain medicinal plants with high UV are known to have been used for a long 
time in traditional Central Asian medicine, and some are used almost worldwide, e.g., 
Plantago major and Hypericum perforatum L. Syrian rue (Peganum harmala) is one 
of the most phenomenal Central Asian medicinal plants [7]. It has a broad range of 
medical uses and it has been reported in all of the ethnobotanical studies in Central 
Asia [11–13]. Ziziphora pamiroalaica “the herb of the wild goat” with the highest UV 
has been recorded in Pamir-Alay and Pamir but not in Tien Shan, where other species 
of the genus Ziziphora are used.
Apart from several reports on Ferula kokanica dating from the Soviet era’s phar-
macological screening, there is not much recent information available. Inula orientalis 
was previously reported to be used in Uzbekistan [11,13], but is utilized in more dif-
ferent ailment categories in our study area. Rhodiola gelida is also used in the Pamir 
Mountains [11]. Different authors stated that the roots of Rhodiola genus have become 
popular, particularly since the Soviet period (e.g., [43]). Although undocumented by 
recent ethnobotanical studies, Angelica ternata is known to be used in Tajikistan [44]. 
Despite obtaining a high UV, Euphorbia monocyathium seems to be a newly discov-
ered medicinal plant species, with any available records on its traditional medicinal 
use in previously published literature.
Collection patterns, sustainability and the role of gathering environments
In order to develop appropriate systems for the sustainable use of plant resources, it is 
crucial to understand how the traditional use of plants influences biodiversity in these 
ecosystems [45]. Although many ecosystems are resilient and have survived a long 
history of human disturbance, they can be pushed beyond recovery through habitat 
destruction or overexploitation [23].
We have documented different acquirement patterns for medicinal plants in com-
parison to the study of Kassam et al. [12]. In Afghan-Tajik Pamir 46% of medicinal 
species are gathered exclusively in the wild, while in the Turkestan Range 86% are 
gathered entirely from the wild. This means that our study area shows a very poor or 
almost no practice of the cultivation of medicinal plants. As pointed out by Rokaya et 
al. [31], this situation may, in the long term, lead to the depletion or even extinction of 
plant resources. This could possibly happen if the plant species are harvested in large 
amounts especially for sale.
Although we raised awareness of intensive and frequent collection of Angelica 
ternata and Bunium persicum, the collecting of leaves, seeds and fruits is likely to 
have a rather small impact on the overall populations [23]. Contrarily, although less 
intensively gathered, the collection of Arnebia euchroma, Euphorbia monocyathium, 
and Rhodiola gelida roots should be done with caution regarding the long-term sus-
tainability of harvest practices.
Basically, plant availability and richness are considered as shaping drivers of eth-
nobotanical knowledge [32]. Moreover, there is a hypothesis that readily available and 
apparently visible plant species are of higher cultural importance [32,46]. Martin [22] 
adds that longer travel distances decrease the utilization of remote plant resources. 
Nonetheless, this claim is accepted for tropical humid environments, whereas in arid 
areas it is not evident [46]. The results of a study conducted by Ladio et al. [47] in 
the arid Patagonia region of Argentina, however, support the hypothesis that the use 
of medicinal plants is primarily based on the utilization of species belonging to the 
nearest ecological environments. Also, Thomas et al. [48] positively correlated the ac-
cessibility and usefulness of plant species in the arid zone of the Bolivian Andes.
In our study we assume that the question of distance depends mostly on the use-
fulness and additional value of particular species. In the Turkestan Range, character-
ized as a semi-arid region, vegetation resources are rather scarce and do not provide 
a wealth of non-timber forest products as is the case for tropical forest zones. On 
the other hand, both villages investigated are positioned at the junction of different 
vegetation zones, indicating a common livelihood strategy that helps communities 
to be more flexible and resilient through the use of more diverse floral and faunal 
elements [49]. In the present study, medicinal plant species diversity was highest in 
anthropic environments. These sites are often characterized by a high productivity 
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rate and the availability of useful plants [47], and medicinal species in particular [50]. 
Yet our results partially contradict the hypothesis that readily available and also ap-
parent medicinal plants from disturbed sites are of higher cultural importance. Even 
though nearby environments provide more medicinal species, a total UV is slightly 
higher for the fewer species collected at distant sites. Accordingly, average UV for spe-
cies from distant environments reached significantly higher values (Mann–Whitney 
test, p < 0.05), demonstrating their crucial role in the local folk medicine. These results 
could reflect a methodological approach including only key informants, who practi-
cally, but not exclusively, appreciated medicinal species growing naturally at higher 
altitudes.
There is also evidence from the Mapuche community in northwestern Patagonia, 
which was found to obtain the most useful medicinal plants at more distant gathering 
sites [51]. In seasonal dry forests of Brazil, Albuqeurque et al. [52] found that de-
spite the studied community knowing more medicinal species of the disturbed areas, 
people prefer to use species of native vegetation from remote areas.
There is a divergent understanding of gathering environments’ cultural importance 
among ethnobotanists [52]. Some authors tend to only look at a number of species 
acquired in particular environments in the context of supply source, regardless of the 
species’ cultural importance. We argue that only considering a number of useful plant 
species in gathering environments does not truly reflect their cultural importance. It 
is necessary to realize that one medicinal species could be much more useful than the 
other. Therefore, calculating the average values of indices which represent the cultural 
importance of species (in our case UV) in particular environments, accompanied by 
their sum resulting in a total cultural value for a given environment, may further shed 
light on the profound question of the sociocultural and ecological circumstances of 
plant gathering (Fig. 5, Fig. 6). Phillips et al. [53] reported, how average values can 
reveal significantly different results than the proportion of useful species expressed 
as a percentage. Our results showed that average consensus (IAR) for species in par-
ticular environments may disclose the level of agreement for gathering sites. Further 
analysis of gathering environments’ floristic composition as well as the inclusion of lay 
people into the research objectives could further confirm these patterns for semi-arid 
mountainous environment in Central Asia.
Cross-cultural comparison of mountain systems
A geographical-cultural comparison showed a close relationship between species 
used in Pamir-Alay and the Pamir Mountains, which might be explained by the inter-
connection and similar ecological conditions of both areas. The remarkable level of 
concordance between genera, as well as species used in the Leilek district and Badak-
shan region in Pamir, is primarily the result of similar natural conditions and a nearly 
equal number of species documented thus far.
Furthermore, Kassam et al. [12] found a significant number of Kyrgyz nomadic 
pastoralists, who interact with other ethnic groups in the Pamir and thus might dis-
seminate traditional Kyrgyz knowledge. On the other hand, the Tien Shan Mountains 
are home to a greater number of plant species and a higher level of endemism [13]. 
The Pamir Mountains, with 58 species, showed 17 species in common with Tien Shan 
(out of 140 species) as well as 17 species in common with Pamir-Alay, from signifi-
cantly fewer medicinal species used in there (90). However, this comparative analysis 
should be considered as preliminary and might be limited by the level of research 
effort in particular regions and sometimes unspecified methodological factors such 
as gender issues.
Considering plant parts used, in the Afghan-Tajik Pamir proportions are very 
similar, however there is a slightly higher rate of root use compared to Kyrgyz Pamir-
Alay. In western Tien Shan, Uzbekistan [13], proportions are comparable to our study, 
except Uzbeks utilize a greater proportion of flowers. In a more complex study in Uz-
bekistan [11], authors documented a high number of medicinal species from which 
underground parts are used. The use of herbaceous species and underground organs 
is likely to increase with the aridity of the environment [47].
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Concerning local plant names, various Kyrgyz folk names are similar to those in 
Uzbekistan, with more similarities found with the Uzbek parts of Pamir-Alay than 
with the Uzbek Tien Shan. In general, our informants used Kyrgyz folk names. They 
were aware of Russian names predominantly for the typical species of Russian phar-
macopoeia, nevertheless also for culturally important species, which are occasionally 
translated into Russian (e.g., Euphorbia monocyathium is named Аюуот (Ayuuvot) 
in Kyrgyz and sometimes is called in Russian Медведь Корень (Medvedi koren), both 
meaning “the bear’s root”).
Health hazard aspects of some medicinal species
Although there is no information on Angelica ternata available in internationally pub-
lished literature sources, Nuraliev [44] reported a harmful effect of this species on 
human health. The plant is quite common in the Tajik mountains, and its roots or 
aerial parts are prepared in dried form as tea or added to dishes as a condiment. Some 
folk healers apply the aqueous extracts of the roots and aerial parts to treat hyperten-
sion and heart disease [44]. According to a later study [54], the ability of A. ternata 
to both lower blood pressure and increase the risk of blood clotting at the same time 
creates favorable conditions for the formation of blood clots causing venous throm-
bosis, heart attacks and a number of other fatal diseases. This herb can be particularly 
dangerous for people who have previously had heart attacks, suffer coronary heart 
disease or diabetes. Accordingly, it is hazardous to use A. ternata in cardiology, as an 
anti-diabetic drug, or as an herbal tea or dietary supplement.
Conclusions
Currently, medicinal plants in the Turkestan Range are predominantly used for com-
mon health problems, while serious health disorders are rather treated with conven-
tional healthcare. However, the related expenses and the geographical isolation are 
pushing the community to rely extensively on natural resources.
The wild habitats of the Turkestan Range were found to be major pools of medici-
nal plants, with 86% of taxa gathered entirely from the wild. The results of this study 
show that plant species with a high cultural importance are not only found in nearby 
ecological environments, but even in distant sites which have a comparatively lower 
diversity in medicinal plant species gathered.
This is the first ethnobotanical study performing a quantitative and comparative 
analysis in the geographical context of Central Asia. The highest degree of species 
similarity was found with medicinal plants traditionally used in the Pamir Mountains. 
The present study uncovered two novel (Euphorbia monocyathium, Polygonum hissar-
icum) and several less-known medicinal plants (Conioselinum vaginatum, Corydalis 
fedtschenkoana, Dracocephalum stamineum, Rosa ecae).
In the often-overlooked and poverty stricken regions of the Central Asian moun-
tains with a low development perspective, ancestral knowledge may be particularly 
crucial to the resilience of the poorest population undergoing rapid socioeconomic, 
cultural and environmental changes.
The results of this study may contribute to biodiversity conservation, the preserva-
tion of national bio-cultural heritage, the understanding of folk medicine to allopathic 
medical workers, and to community resilience and development. Subsequent studies, 
especially ethnobotanical market surveys, could generate further important informa-
tion on the amount of plant material collected and sold, gathering frequency, and 
species prioritization. On the other hand, ecological studies of the gathering envi-
ronments could assess to what extent wild plants’ collection influences the respective 
vegetation communities.
This study contributes to filling the gap in documentation of Central Asian indig-
enous knowledge, which if studied by modern ethnobotanical approaches, is capable 
of identification of neglected and underutilized plant species.
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Acknowledgments
We would like to acknowledge all those people who participated in our study by sharing their 
invaluable traditional knowledge. We are thankful to Bekmat Masaidov, local coordinator of 
our expeditions, who ensured the first contact and familiarization with the community in the 
study area. Georgy Lazkov and Václav Zelený provided additional consultation regarding the 
morphological characteristics of some species. Michaela Hrabalíková helped with drawing of 
the study area map.
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