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Article

Sustainability Issues in Conservation of Traditional Medicinal Herbs and Their Associated Knowledge: A Case Study of District Lahore, Punjab, Pakistan

by
Shabnum Shaheen
1,
Nidaa Harun
2,*,
Raina Ijaz
3,
Naila Mukhtar
2,
Muhammad Ashfaq
4,
Fozia Bibi
5,
Muhammad Ali
6,
Zaheer Abbas
7,* and
Zaryab Khalid
1
1
Department of Botany, Lahore College for Women University, Lahore 54000, Pakistan
2
Department of Botany, Faculty of Life Sciences, University of Okara, Okara 56130, Pakistan
3
Department of Horticulture, University of Poonch Rawalakot, Azad Jammu and Kashmir 12350, Pakistan
4
Department of Plant Breeding and Genetics, Faculty of Agricultural Sciences, University of the Punjab, Lahore 54590, Pakistan
5
Department of Botany, Rawalpindi Women University, Rawalpindi 46300, Pakistan
6
Department of Entomology, Faculty of Agricultural Sciences, New Campus, University of the Punjab, Lahore 54590, Pakistan
7
Department of Botany, Division of Science and Technology, University of Education, Lahore 54000, Pakistan
*
Authors to whom correspondence should be addressed.
Sustainability 2023, 15(9), 7343; https://doi.org/10.3390/su15097343
Submission received: 6 February 2023 / Revised: 18 March 2023 / Accepted: 14 April 2023 / Published: 28 April 2023
(This article belongs to the Special Issue Biodiversity Conservation and Environmental Sustainability)
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Versions Notes

Abstract

:
Due to modernization and urbanization, traditional medicinal herbs and their associated knoweldge are under peril of being lost. The current study not only aimed to document the trend of herbal medicinal plant uitlization in District Lahore, Punjab, Pakistan, but also raised alarming concerns about the conservation of these medicinal herbs and traditional knowledge linked to them. The data were collected from local people, herbalists, and gardeners by using standard ethnobotanical methods, i.e., questionnaires and interviews. Results reported that a lower number of informants possessed medicinal herb knowledge and reported only 50 medicinal herbs from the study area. This is probably due to the impact of speedy industrilaization and alterations in human life patterns in the study area. Not only the traditional knowledge is under threat but also the medicinal herbs themselves. Most of the reported medicinal herbs were rare (45.10%), while only few (9.80%) were ranked as abundant in the study area. The herbs with more medicinal importance are mostly rare. This is because of their over usage by the local people. Both conservation approaches (in situ and ex situ conservation and cultivation practices) and resource management (good agricultural practices and sustainable use solutions) should be adequately taken into account for the sustainable use of medicinal plant resources.

1. Introduction

About 75–80% of the population of the world is still using herbal medicines for treating different diseases [1]. As per the World Health Organization, 74% of 119 current plant-based pharmaceutical drugs are utilized in approaches that directly correlated with their conventional uses [2]. This is due to the fact that herbal drugs and preparations of traditional herbal medicine have been used for thousands of years because they are locally available, have a natural origin, and are cheap and without any side effects [3,4]. Medicinal herbs consist of numerous biologically vital elements. A vast variety of medicinally effective herbs are used in herbal drug treatments, and they are as effective or efficient as modern allopathic drugs [5]. Pakistan is the seventh highest producer of medicinal plants. In Pakistan, approximately 600 species are utilized as conventional medicine, and most of the population, above 75%,depend upon the curative herbs for their wellness. The medicinally important flora is widely used in the production of drugs, edibles, beauty products, and food supplements [6]. “Pansar” is a regional market network in Pakistan that particularly handles medicinally vital herbs, including their import and export [7]. Around 50,000 Ayurvedic experts, tabibs, and numerous unregistered health specialists are working in rural and urban areas and commonly utilize approximately 200 species in natural medication. Universities, botanical gardens, and the National Council for Tibb, Hamdard, and Qarshi industries aid in establishing and maintaining the herbal industry in Pakistan. Around 4000 registered herbal products are available in Pakistan [8].
Because of the increasing demand for herbal drugs, natural health products, and secondary metabolites of medicinal plants, the utilization of medicinal plants is growing rapidly throughout the world [9,10]. This exerts a certain pressure on the conservation of these natural resources. According to an estimate, 90% of these medicinal plants are harvested from wild resources in Europe, and only small numbers are sustainably cultivated [11]. Another estimate states that Earth is losing at least 1 potential major drug every 2 years, which is 100 and 1000 times higher than the expected natural extinction rate [12]. The International Union for Conservation of Nature and the World Wildlife Fund stated that, among 50,000 to 80,000 flowering medicinal plant species, about 15,000 species are threatened with extinction from overharvesting and habitat destruction [13] and 20% of their wild resources have already been nearly exhausted with the increasing human population and plant consumption [14]. Other contributing factors of this biodiversity loss are climate change [15] and urbanization or industrialization in the modern era [16]. Rapid urbanization has profoundly affected agricultural production activities [8] and caused dramatic changes in land use [17,18]. Especially in metropolitan areas, the amount of farmland and production capacity has continued to decline [19]. Since the beginning of this century, the wave of urbanization has further swept through developing countries [20]. Although this threat has been known for decades, the accelerated loss of species and habitat destruction worldwide has increased the risk of extinction of medicinal plants, especially in China [10,21], India [15,22], Kenya [22], Nepal [22], Tanzania [23], and Uganda [23].
The current study was focused on the medicinal plant conservation issues inhabiting District Lahore, Pakistan. We hypothesized that medicinal herbs and their associated traditional knowledge in this region are under threat of being lost. Therefore, the specific objective was (1) to identify medicinal herbs and their relevant traditional knowledge in the study area and (2) to estimate their relative abundance with relation to conservation status. The findings of the current study will contribute to identifying potential risks to the herbal flora of the study area and can contribute to mitigation strategies in future research.

2. Materials and Methods

2.1. Study Area

Lahore is the capital of province Punjab and considered as the second largest city of Pakistan. It lies between 31°15′–31°45′ N and 74°01′–74°39′ E and is surrounded on the north and west by the Sheikhupura district, Kasur district, and Wagha (Figure 1). River Ravi flows in its northern side. Its total area is around 1014 km2. Here, the climate is hot and semi-arid with extremely hot summer seasons. Sometimes, the temperature exceeds 50 °C during summer. In May and June, the humidity is about 50%. For the collection of data about ethnomedicinal herbs, six different sites (Jallo Park (n = 37), Jinnah Garden (n = 26), Punjab University botanical garden (n = 6), Government College botanic garden (n = 9), Lahore College botanic garden (n = 4), and Race Course Park (n = 13)) were selected. Population sample size varied from location to location, depending upon the number of professionals and knowledgeable inhabitants from that area. These sites were selected because of their thick vegetation and availability of diverse wild and cultivated herb flora.

2.2. Ethnobotanical Inventory and Specimen Identification

During the first phase of our survey, data were collected from gardeners about growing season, habitat, flowering type, and leaf structure of herbs. During the second phase, data about medicinal importance of herbs were collected from herbalists and common people. However, prior to this data collection, formal written ethical consent was obtained from the local government authorities (Parks and Horticulture authority). Ethical guidelines of the International Society of Ethnobiology (http://www.ethnobiology.net, accessed on 31 May 2020) were strictly followed. The ethical review committee of Lahore College for Women University also provided ethical approval to the study (Permit # ERC. LCWU#125). In addition, individual consent from each informant was also taken to assure their willingness to participate. All data were collected between the months of June and September 2020 from selected cites of Lahore. Informants were selected by using a snowball sampling technique. In this method, one skillful and knowledgeable informant identifies the other informant, and so on. This method is advantageous, as it avoids wastage of time from interviewing less knowledgeable persons. A semi-structured interviewing technique was used to collect data according to the method proposed by Cotton [24] and Martin [25]. The questionnaire used in the survey was prepared following the study of Pardo-de-Santayana [26], with a few modifications. The following questions were included in the questionnaire: (1) List names of local herbs that are found to be medicinally important. (2) What are the certain ethnomedicinal uses of the listed herbs? (3) Which part of the plant is ethnomedicinally significant? (4) List any other economical uses of the documented herbs.
During the data collection, plant specimens were also collected with the permission of local chief officers of the visited gardens. Formal identification of each herb specimen was made by well-known taxonomist Prof. Dr. Mushtaq Ahmad and Muhammad Zafar from Quaid i Azam University, Islamabad. However, for authentication, later, these specimens were also morphologically compared with the available specimens in the herbariums of Quaid i Azam University, Islamabad and Lahore College for Women University, Lahore. In addition to these two herbaria, some plant databases available online, such as flora of Pakistan (http://www.efloras.org/index.aspx, accessed on 31 December 2020) and flora of India (https://sites.google.com/site/efloraofindia/, accessed on 31 December 2020), and some other herbal flora identification keys [27,28] were consulted for identification of certain species. After identification, specimens were allotted their voucher numbers and then submitted to the botany herbarium of Lahore College for Women University (LCWU).

2.3. Relative Abundance

The most generally utilized strategy of visual appraisal was utilized for measuring the relative abundance (RA) of ethnobotanically enrolled grass species in the contemplated region [29]. In this technique, numbers of plots haphazardly were chosen in the contemplated region, and the presence of each recorded species was checked and recorded. A short time later, rate relative abundance was computed by utilizing the accompanying equation:
RA of species = (total percentage cover of species in all plots)/(number of estimated plots) × 100
The species were then grouped into different categories, i.e., abundant, common, frequent, occasional, and rare (ACFOR), by using relevant scales of abundance (Table 1).

2.4. Data Analysis

The entirety of the enlisted data were examined by using some parameters such plant species, plant part, families, and way of utilization; however, documented ethnobotanical uses were analyzed with the use of quantitative ethnobotanical inventories such as the following.

2.4.1. Relative Frequency of Citation (RFC)

RFC calculates the relative importance of every species of plant on the basis of informants’ number for each species and the number of total informants interviewed in the whole study. RFC can be calculated by dividing “FC” by the total number of informants in the study (N), as proposed by Yaseen et al. [30] and Vitalini et al. [31].
RFC = FC/N
FC is the number of citations and indicates the informant number, which was interviewed for a certain species. This index ranges from 0 (zero), if no one reported the plant species useful, to 1 (one) in the condition that there are a maximum number of informants that found the plant species useful [8].

2.4.2. Use Value (UV)

UV indicates the relative importance of each species based on recorded uses of them. It was calculated by the formula used by Logan [32].
UV = U/n
“U” stands for the number of uses of each species and “n” is referred to as the informant number who documented the plant species.

2.4.3. Relative Importance (RI)

RI is the importance of every plant species depending on the number of uses of each plant species and body organ systems that can be treaded through them. It was calculated by the formula used by Bennett and Prance [33].
RI = (R.Ph + R.BS) × 100/2
“R.Ph” is the relative pharmacological properties and “R.BS” stands for relative body systems treated. The “R.Ph” was calculated through dividing the number of uses by the maximum number of use reports in the entire study. The “R.BS” was calculated though dividing the total body systems that were treated by a plant by the total number of body systems in the entire study.

2.4.4. Fidelity Level (FL)

FL is the priority of a plant species over other species and its specific use. It determines the specificity of treated disease by plant species. It was determined by using the formula used by Khan et al. [34].
FL = (Ip/Iu × 100)
Here, the informants’ number is denoted by “Ip”, and “Iu” represents the total number of informants who shared their knowledge about all uses of a given plant species.

2.4.5. Informant Consensus Factor (ICF)

ICF determines the consensus of all informants about the use of a certain plant in treating different diseases [35]. It was calculated by using the formula mentioned below;
ICF = Nur − Nt ÷ Nur − 1
“Nur” represents the total number of use reports of a certain disease that can be treated by a plant species and “Nt” determines the total number of taxa of plants used in treating different diseases [10].

2.4.6. Cluster Analysis and Descriptive Statistics

For the purpose of preparing high- and low-priority groups of medicinally important herbs, SPSS 22 software was used to apply “Hierarchical Cluster Analysis” on RFC value. Descriptive statistical analysis was also used to find out different parametric associations of the survey.

2.4.7. Graphical Illustrations

For the graphical illustration of data, Microsoft Excel was used.

3. Results

3.1. Demography of Local Inhabitants

A total 95 informants were interviewed during the study. It was observed that most of the informants were males (78%) and only 22% were females. All informants of the study were divided into three groups on the basis of age, i.e., young-, middle-, and old-aged (Table 2). Among the reported informants, the highest numbers of informants were regarded as old-aged (52%), followed by middle- (27%) and young-aged informants (21%). The maximum number of informants was herbalist (11% female, 31% males), followed by common people (8% females and 25% males) and gardeners (3% females, 22% males). Concerning informants’ education, a high literacy rate was reported (Figure 2). Most of the informants had at least matriculation.

3.2. Ethnobotanical Data on Medicinal Herb Diversity

A total of 50 plant species belonging to 27 families collected from different sites were reported as having ethnomedicinal uses (Table 3a) (Figure 3). Asteraceae had the maximum number of herb species (5) followed by Solanaceae (4) and Fabaceae (3) (Figure 4). In our study, 26 plant species showed high versatility in their uses. The plant species having more than six uses are Achyranthus asper, Aloe vera, Anagallis arvensis, Asparagus racemosus, Calendula arvensis, Cannabis sativa, Conyza bonariensis, Coriandrum sativum, Cyperus rotundus, Datura inoxia, Dysphania ambrosioides, Elletaria cardamom, Euphorbia hirta, Lactuca sativa, Mamordica charantia, Mentha piperita, Mimosa pudica, Ocimum basilicum, Rumex dentatus, Solanum melongena, Solanum xanthocarpum, Sonchus asper, Utrica dioica, and Zingiber officinale. These commonly used species are gastronomic herbs. In our study, gastrointestinal diseases were the most commonly treated disorders (57 reports), followed by urogenital disorders (44 reports) and cardiovascular disorder (26 reports).

3.3. Relative Abundance of all Listed Herb Species

According to the results, most of the reported herb species are rare in all the study areas (45.10%), while the abundant species are less in number (9.80%) (Figure 5). The species with more medicinal importance are mostly rare. This is because of their over usage by the local people.

3.4. Quantitative Indices

3.4.1. Relative Frequency Citation (RFC) and Use Value (UV)

The RFC and UV indicate the relative importance of a plant species depending upon the number of informants who give information about a species and the total number of uses for each species. In our study, the RFC ranged from 0.03 to 0.49. The highest RFC was found for Tradescantia pallida, while the lowest value was found for Picrise chioides. The reason for their maximum RFC values may be because of their popularity as traditional herbal medicines. The UV varied from 0.9 to 0.04. The highest value of UV was found for Datura inoxia. Other species such as Conyza bonariensis, Parthenium hysterophorus, Dysphania ambrosioides, Euphorbia hirta, Utrica dioica, Vicia faba, and Zingiber officinale were also reported for their diversified medicinal uses (Table 3b).

3.4.2. Relative Importance (RI) and Fidelity Level (FL)

The RI depends upon the number of treated diseases and the number of treated body systems by a plant species. In our study, the RI ranged from 5.78 to 34. The highest RI was recorded for Asparagus racemosus, while the lowest was found for Tradescantia pallida. It was concluded that species with high RI values, such as Utrica dioica, Coriandrum sativum, Mamordica charantia, Euphorbia hirta, Achyranthus asper, and Solanum xanthocarpum, showed versatility for the treatment of many diseases (Table 3b).
Fidelity level showed that a certain plant species can be used to treat certain diseases. In our study, the FL ranged from 27% to 85%. Above 80% FL was recorded for Vicia faba, Catharanthus roseus, Mamordica charantia, Aloe vera, Datura inoxia, and Mentha piperita for the diseases of obesity, diabetes, skin infections, broken joints, and mumps, respectively (Table 4).

3.5. Informant Consensus Factor (ICF)

The ICF represents the consensus between plants and informants regarding the treatment of diseases (Table 5). In this study, the ICF ranged from 0 to 0.44, where the cardiovascular disorders and infectious diseases had the highest, with 26 use reports. It showed the best consensus between a plant species and treated disease. The second highest ICF was found for fever, cold, and influenza disorders (0.38), followed by infectious diseases (0.36) (Table 5).

3.6. Statistical Interpretations

These total 50 medicinal herbs were categorized into 2 clusters based on the utility value (UV) (Figure 6). The highest number of species (n = 27) was in cluster 2, exhibiting the species with the least utility value, whereas only 23 species were in cluster 1, showing high utility value. These clusters were cross-tabulated with the estimated data of relative abundance (Table 6). Cross-tabulation showed that herbs with great utility value (cluster 1) are the least abundant (n = 0) and even rare (n = 20) in the study area. Pearson correlation analysis showed a negative correlation between UV and RFC (Figure 7) and a positive correlation between UV and RI (Figure 8).

4. Discussion

The study showed that people of Lahore are not much dependent on herbal drugs. This is probably due to certain reasons, i.e., high literacy rate and better financial status. Negrelle et al. [36] stated that common traditional knowledge about herbs is found among people having low levels of education. Both of these factors (high literacy rate and better financial status) brought modernization and urbanization in the study area, which ultimately affects the utilization trust of these herbal drugs. However, gender-wise, males were more educated than females, and profession-wise, herbalists were more qualified than other informants. It can be argued that, in general, male informants were more in number as well as with better social and education status in comparison to female informants. This shows the sociodynamics of the study area. As documented in previous studies, in Pakistan, females are still under-privileged [37,38]. During the data collection, it was also observed that ethnobotanical knowledge is becoming restricted only to the elder people (52% were above 50 years) and Hakeems (42%) (Table 2). The young generation is totally ignorant of this traditional wealth. Advancement in science and technology has now changed social setup; therefore, the young generation is leaving traditions and culture [39].
In our study, it was observed that members of Asteraceae and Solanaceae are well known for their therapeutic properties. The popularity these families had reflected the informants’ trust in this family for medicinal purposes. This is because of the presence of a large variety of phytochemical compounds in the species of this family. Verpoorte et al. [40] stated that a single compound may not be responsible for the medicinal property. The wide range of phytochemicals including secondary metabolites is responsible for the medicinal properties. Other ethnomedicinal studies also supported the therapeutic value of both of these families [41,42,43,44]. Most of these herbs are being used in the form of decoction. Some studies determined that activity of phytochemicals increase when we boil the plant material in water or in any solvent [44]. However, some other studies contradict this and state that boiling of soft parts of plants can change the structure of phytochemicals found in plants [19]. Bitu et al. [45] stated in a study that there may be much large variation in phytochemical and biological activities of herbal plants as compared to dried plant material.
It was observed during the study that the herbalists and local people use these herbs mostly for cardiovascular and infectious diseases. Similar kinds of results were observed in the previous ethnomedicinal literature around the country [46,47]. This is due to the fact that, usually, people consider infectious diseases as minor health problems and avoid spending money on allopathic consultation and medicines. In addition, cardiovascular consultancy is quite expensive, and, to save money, people tried to cure these problems with home remedies or herbal drugs unless the problem became severe.
Quantitative indices supported the identification of homogeneity in the traditional knowledge [38]. Plants with higher RFCs showed their popularity and trust among the local people of the study area [48]. In the current study, RFC ranged to a maximum of 0.49, which is comparatively less than from other ethnobotanical studies. Lower RFC values indicate that the retention and transmission of traditional knowledge among local people is not smooth [49]. Similarly, plants with higher UVs reflected their diverse utilization [50]. However, a negative correlation was observed between these two indices, which showed that these two indices are almost independent of each other with concern to the ethnobotanical knowledge of the Lahore natives [38]. RFC is actually a reflection of the popularity of certain plants in the study area, irrespective of their range of utilization. A positive correlation between UV and RI indicated somewhat of a relationship between these two indices. Both of these indices depict the utilization value and relative importance of certain species. The fidelity level (FL) is the percentage of informants claiming the use of a particular plant species for the same major purposes or requirements, and this was also determined for the most frequently reported diseases or ailments. The plant species with highest FL value showed treatment potential against mentioned disease [51]. Kadir et al. [51] stated that plants with maximum FL should be recommended for further study regarding clinical practice. The highest ICF represents the common occurrence of reported diseases that were treated by specific plants. Chaves and Barros [47] stated that the diseases with high ICF values should be further assessed to find the reasons for their common occurrence. The lowest ICF value was found for cancer and dental pain. The lowest value of ICF does not mean that plants are less important for those categories. The lowest ICF may be due to less availability of information in study participants. Cross-tabulation between two clusters and relative abundance (RA) reported that the relative abundance of plants declines with the increase of their UVs. It can be said that the higher the utilization aspect, the lower the relative abundance in a particular study area. It can be observed that, among the 23 plants of cluster 1 (with uppermost UVs), none of the plants were reported as abundant in the study area. However, in cluster 2, five (5) were reported as abundant in the study area. As the utilization of plants lowered, the probability of their abundance increased simultaneously. By considering the importance of plants, large numbers of commercially important medicinal plant species are over exploited by the people involved in their trade. The main reasons of this over exploitation could be lack of sustainable harvesting methods, inadequate knowledge about forest management, and lack of financial resources. Indiscriminate collection and over exploitation of some commercially valuable species and the populations of valuable species is declining day by day. The probable threat to these medicinal plants is ecosystem degradation. The problem becomes severe when market demand-driven harvesting occurs without any concern for representation and conservation. During this, the valuable regenerative parts (such as roots, tubers, fruits, seeds, flowers, and bark) of medicinal herbs are ruthlessly collected, which leads to degradation, depletion, and even extinction of these natural resources. Due to this brutal exploitation, many important medicinal plant species are becoming rare, and some of them are critically endangered. Other reasons could be habitat degradation due exponential geometric growth of human population and man’s technological capacity to exploit natural resources in an unsustainable way [52].
In the past few years, various medicinal plant conservation strategies and approaches have been developed, such as providing both in situ and ex situ conservation [53,54]. The typical examples are natural reserves and wild nurseries in order to retain the medical efficacy of plants in their natural habitats, while botanical gardens and seed banks are also important paradigms for ex situ conservation and future reforestation [55,56]. The geographic distribution and biological physiognomies of medicinal plants must be known to guide conservation activities, e.g., to assess whether species conservation should take place in nature or in a nursery.

5. Conclusions

Overall, through this study, it can be concluded that natives of any community possessed a great wealth of traditional ethnomedicinal knowledge. However, the knowledge is facing threat of being lost, as it was found that young generations were less interested in these orthodox methods of treatments. Hence, there was a dire need to document this treasure. In addition, it was found that a number of herbs became rare in the study area due to their over exploitation and lack of cultivation practices. This can cause conservation pressures to certain medicinal plants. Rare species can become endangered or threatened in the near future. Therefore, to face this environmental crisis, we need to act with responsibility. Development of sustainable management procedures along with supply chain legislation, support of green technologies, and potential conservation polices is required to keep safe these natural resources. A system can be developed to harmonize Western and traditional medicines. Availability of herbal plant remedies and their effectiveness can be combined with diagnostic approaches and facilities of Western medicine. Governments should incorporate useful aspects of traditional medicines into the health care system at a national level. If this experimented approach shows success, then the changing lifestyles and traditional practices of the current generation of most inhabitants may not have a fundamental effect on the current loss of use and knowledge of traditionally used medicine. Western medicine can greatly benefit from indigenous knowledge of locally accessible ethnomedicinal resources. The potential for development of new plant-based drugs can equally endorse the in situ conservation of medicinal plants. Furthermore, since a number of people in the community depend on medicinal plants, they must be conserved. It is possible that an effective method of stimulating conservation is encouraging the use of medicinal plants and thus increasing their apparent value. To enhance the conservation of medicinal plant resources in the ranch and mitigate their perceived decline, appropriate conservation procedures, monitoring, and harvesting approaches by the community are strongly recommended [57].

Author Contributions

Conceptualization. S.S. and N.H.; Methodology, R.I. and N.M.; software, F.B.; validation, M.A. (Muhammad Ashfaq); formal analysis, Z.A.; investigation, N.H. and R.I.; resources, S.S.; data curation, N.H. and N.M.; writing—original draft preparation, N.H.; writing—review and editing, F.B. and Z.A.; visualization, Z.K. and M.A. (Muhammad Ali); supervision, S.S.; project administration, S.S. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Institutional Review Board Statement

The study was conducted in accordance with the Declaration of Helsinki, and approved by the Institutional Review Board (or Ethics Committee) of Lahore College for Women University, Lahore Pakistan (protocol code LCWU #125 and date of approval January 2020.

Informed Consent Statement

The identity of informants was kept confidential. Their shared information about medicinal herbs were listed anonymously. In addition written informed consent had been taken from each informant before recording the data.

Data Availability Statement

Not applicable.

Conflicts of Interest

The authors declare no conflict of interest.

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Figure 1. Map of Lahore showing the selected sites of data collection.
Figure 1. Map of Lahore showing the selected sites of data collection.
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Figure 2. Education dynamics of informants.
Figure 2. Education dynamics of informants.
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Figure 3. (A) Achyranthus asper; (B) Amaranthus viridus; (C) Cannabis sativa; (D) Convolvulus arvensis; (E) Coriandrum sativum; (F) Cyperus rotundus; (G) Datura inoxia; (H) Euphorbia prostrate; (I) Fumaria indica; (J) Mentha longifoli; (K) Ocimum basilicum; (L) Oxalis corniculata; (M) Rumex dentatus; (N) Sisymbrium irio; (O) Solanum nigram.
Figure 3. (A) Achyranthus asper; (B) Amaranthus viridus; (C) Cannabis sativa; (D) Convolvulus arvensis; (E) Coriandrum sativum; (F) Cyperus rotundus; (G) Datura inoxia; (H) Euphorbia prostrate; (I) Fumaria indica; (J) Mentha longifoli; (K) Ocimum basilicum; (L) Oxalis corniculata; (M) Rumex dentatus; (N) Sisymbrium irio; (O) Solanum nigram.
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Figure 4. Representing the dominant families of reported medicinal.
Figure 4. Representing the dominant families of reported medicinal.
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Figure 5. Relative abundance of reported medicinal herbs.
Figure 5. Relative abundance of reported medicinal herbs.
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Figure 6. Cluster analysis showing most used medicinal herbs in cluster 2 and least used medicinal herbs in cluster 1 based on UV results. Case= medicinal herbs names, Values= Cluster numbers n = 1, 2, 3.
Figure 6. Cluster analysis showing most used medicinal herbs in cluster 2 and least used medicinal herbs in cluster 1 based on UV results. Case= medicinal herbs names, Values= Cluster numbers n = 1, 2, 3.
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Figure 7. Showing the negative correlation between UV and RFC.
Figure 7. Showing the negative correlation between UV and RFC.
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Figure 8. Showing the positive correlation between UV and RI.
Figure 8. Showing the positive correlation between UV and RI.
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Table
Table 1. Abundance categories and scale of reported grasses.
Table 1. Abundance categories and scale of reported grasses.
Abundance ScaleAbundance CategoriesCoverage of Grass Species
+Rare (R)<5%
1Occasional (O)5–20%
2Frequent (F)20–50%
3Common (C)50–90%
4Abundant (A)90–100%
Table
Table 2. Demography of informants of all the study areas.
Table 2. Demography of informants of all the study areas.
Type of InformantYoung-Aged
25–35 Years		Middle-Aged
36–50 Years		Old-Aged
51 Years and Above 		TotalPercentage
%
Herbalist (female)2441011
Herbalist (male)513112931
Common people (female)13488
Common people (male)9692425
Gardener (female)01233
Gardener (male)02192122
Total informants20264995
Percentage %212752
Table
Table 3. (a) Ethnobotanical inventory of medicinal herbs. (b) Quantitative analysis of ethnomedicinal data.
Table 3. (a) Ethnobotanical inventory of medicinal herbs. (b) Quantitative analysis of ethnomedicinal data.
(a)
FamilyVoucher No.Botanical NameCommon NamesEthnomedicinal UsesOther UsesAbundance
AmaranthaceaeLCWU-0824Achyranthus asperPutkhanda, Devil’s HorsewhipThis plant is used in the treatment of amenorrhea, abortion, hemorrhage, post-partial body aches, fever, labor pain, fever, and dysmenorrhea. It can also be used as a laxative and for vomiting, fever, treatment of piles, stomach pain, carminative purposes, and heart diseaseNot reportedRare
AsteraceaeLCWU-0825Agerantum conyzoidesGoats weed, chick weedCan be used in the treatment of diarrhea and coughNot reportedRare
MalvaceaeLCWU-0826Alcea roseaHollyhockIt is a laxative used to control inflammation. It can be used to treat a sore throat and respiratory diseases. In herbalism, this plant can be used as an emollientUsed for ornamental purposes and as mouthwashRare
LiliaceaeLCWU-0827Aloe veraAloeAloe vera is used for treating diabetes, arthritis, piles, stomach disorders, urinary infections, liver disorders, asthma ulcers, and wound healing and also has the ability to fight against cancerAloe vera is added to other ingredients to make soaps and masksRare
AmaranthaceaeLCWU-0828Amaranthus viridusGreen amaranthIts leaves are purgative and used to treat different kinds of orchitisNot reportedAbundant
PrimulaceaeLCWU-0829Anagallis arvensisRed chickweedIt has wound healing properties. It helps in dealing with diseases of the brain, respiratory disorders, gastrointestinal complaints, liver disorder, acne, eczema, and fever. It can be used as a diuretic, diaphoretic, and expectorant. The leaves of this plant are used in the treatment of epilepsy, and the juice of this plant has been shown to help with obstruction of liver and spleenNot reportedOccasional
MyrsinaceaeLCWU-0830Anagallis foeminaPoorman’s WeatherglassCan be used in cases of high blood pressure, digestive disorders, and the treatment of woundsNot reportedOccasional
AsparagaceaeLCWU-0831Asparagus densiflorussprengeraAsparagus fernCan be used ethnomedicinally for treating several disorders related to the kidney and liver, and it can also be utilized in the treatment of urinary infectionsNot reportedOccasional
AsparagaceaeLCWU-0832Asparagus racemosusShatavariThis plant helps in relieving pain. It lowers the rate of anxiety and can be used for different stomach disorders. It stimulates the breast milk, and it may be more effective for uterine bleeding and also in premenstrual syndrome. It helps in the treatment of gastric ulcers. The root of Asparagus racemosus in Ayurveda has been used for curing of dysentery and diarrheaNot reportedRare
UrticaceaeLCWU-0833Boehmera niveaChina grassThis plant may be recommended in threat of abortion and in swelling painsNot reportedRare
AsteraceaeLCWU-0834Calendula arvensisField marigoldThis plant can be used for acne problems. It reduces inflammation. It gives soothing effects to the irritated tissues. It can also be used in cases of constipation and stomach ulcers. It can also be used as an eye wash and for diaper rashes. Its cream can be used for the treatment of piles. In herbalism, Calendula tincture is used for the treatment of acneNot reportedRare
CannabaceaeLCWU-0835Cannabis sativaMarijuanaThis plant can be used for female reproductive disorders, malaria, constipation, and chronic painNot reportedAbundant
ApocynaceaeLCWU-0836Catharanthus roseusPeriwinkleThis plant is used for diabetes, stomach problems, asthma, and cancer. The extracts from this plant are used against many diseases, including malaria and Hodgkin’s lymphoma, as well as treating dysenteryNot reportedRare
ConvolvulaceaeLCWU-0837Convolvulus arvensisField bindweedThis herb is used to increase the appetite, curing constipation. It is used in medicine as a diureticNot reportedCommon
AsteraceaeLCWU-0838Conyza bonariensisHairy horseweedHelps in the treatment of gastrointestinal disorder, dysentery, and diarrhea. It is helpful in the treatment of bleeding hemorrhoids. It is used for the treatment of inflamed tonsils and inflammation of the throat. It can also be used for fever and muscular pains or muscular weakness. It contains antioxidant, antimicrobial, antiviral, and anti-inflammatory activityNot reportedRare
ApiaceaeLCWU-0839Coriandrum sativumDhaniaIt is effective for headaches, skin diseases, eyes disorders, loss of memory, fits, convulsions, diarrhea, loss of appetite, indigestion, and abdominal pain. It is most effective for cough, respiratory disorders, and colds. Coriandrum sativum is a traditional medicine that is used for the treatment of diabetesNot reportedRare
BrassicaceaeLCWU-0840Coronopus didymusLesser swinecressThis herb is antipyretic and hepatoprotectiveNot reportedCommon
CyperaceaeLCWU-0841CyperusrotundusNut grassThis herb is used for the treatment of diarrhea, fever, stomach aches, digestive disorders, and stomach pain. This herb may also be used for treating wounds, inflammation, and nausea.Not reportedOccasional
SolanaceaeLCWU-0842Datura inoxiaThorn-appleIt may be used for broken joints. It may also be very helpful for treating diarrhea, toothaches, or asthma. All parts of the Datura inoxia mill are antispasmodic, anodyne, hypnotic hallucinogenic, hypnotic, and narcotic. It has also been used in the past as a pain killer and in the treatment of mental illness, fevers with catarrh, and skin diseaseNot reportedRare
ApiaceaeLCWU-0843Daucus carotaWild carrotThis is used in bladder problems, ulcers, liver disorders, cancer, bad wounds, itching, and colic. It may also be used for stomach complaints. This plant can be used in cardiac disease, diabetes, and renal diseaseNot reportedRare
ChenopodiaceaeLCWU-0844Dysphania ambrosioidesWormseedThis plant is used for the treatment of malaria, asthma, and catarrh. It is used to treat wounds and sores. It cleans the womb after childbirth and is used to benefit the pancreas. This plant shows antimicrobial activity as wellNot reportedOccasional
ZingiberaceaeLCWU-0845Elletaria cardamomChotielaichiUse of this herb improves the appetite and gives soothing effects to the mucous membrane. It may also be used for digestive ailments. It may help in treating sore throat and influenza, cough, asthma, and fever. cardamom is a renowned herb for the relief of nausea, particularly morning illness in pregnancyNot reportedRare
EuphorbiaceaeLCWU-0846Euphorbia hirtaBasridudhiIt helps in treating asthma, fever, malaria, diarrhea, and swelling. It may remove skin diseases and gives a relaxant effect on respiration. Euphorbia hirta is also used traditionally for female diseases, respiratory ailments (coryza, asthma, cough, bronchitis), worm infestations in children, dysentery, jaundice, pimples, gonorrhea, digestive problems, and tumorsNot reportedOccasional
EuphorbiaceaeLCWU-0847Euphorbia helioscopiaSun spurgeThis plant has anti-cancerous properties. It may help in treating choleraNot reportedCommon
EuphorbiaceaeLCWU-0848Euphorbia prostrateProstrate sandmatIt helps in treating bleeding piles. It is used as an anti-inflammatory agentNot reportedCommon
PapaveraceaeLCWU-0849Fumaria indicaDhukureThis herb is used for pains, diarrhea, liver disorders, and skin diseasesNot reportedAbundant
PapaveraceaeLCWU-0850Fumaria parvifloraFine leaf fumitoryIt is an effective drug for fever. It may also help in treating skin diseases, diarrhea, and urinary disorders. It helps in purifying blood and in stomach treatmentNot reportedRare
AsteraceaeLCWU-0851Lactuca sativaLettuceIt is useful for chronic bronchitis and used for relieving inflammation, the treatment of cough, and relieving painful ulcers. It is helpful in the treatment of fever and typhoid. This plant is also used in the treatment of diabetes, cardiac disease, and renal diseaseNot reportedCommon
MalvaceaeLCWU-0852Malvestrum tricuspidatumBaluIt is used for sores and in dysentery. It helps in relieving swellingThis herb is used for cleaning woundsAbundant
CucurbitaceaeLCWU-0853Mamordica charantiaKarelaIt is used in wound healing and skin-related problems, it normalizes the digestive tract, and it suppresses women’s infestation. It helps in regulating the urinary tract. It helps in maintaining the sugar level of the body and is used in cases of diabetesNot reportedRare
ScrophulariaceaeLCWU-0854Mazus japonicasJapanese mazusIt is used as a laxative. It reduces feverNot reportedCommon
FabaceaeLCWU-0855MedicagodenticulataBur cloverIt is used as a laxative. It controls the excessive growth of organsThis plant can be used as fodder, firewood, medicine, and handicrafts, as well as for other purposesAbundant
FabaceaeLCWU-0856Melilotus albaBokhara cloverIt is used to treat inflammation, either internal or external. It may help in treating stomach disorders such as ulcersThis plant can be used as fodderCommon
LamiaceaeLCWU-0857Mentha longifoliaChittapondaIt is antiseptic, a stimulant, and anti-inflammatory. It is used in stomach disordersNot reportedRare
LamiaceaeLCWU-0858Mentha piperitaPeppermintIt is used in the treatment of digestive disorders, nausea, colic, and vomiting. It reduces chronic joint pain. It can be used for toothaches. It is effective for bronchitis, constipation, diarrhea, mumps virus, and heart burnEssential oil of peppermint is used in fragrances and pharmaceuticalsRare
FabaceaeLCWU-0859Mimosa pudicaTouch me notIt is used in the treatment of dysentery, uterine complaints, inflammation, asthma, burning sensation, and blood diseases. It may also be used in treating piles, fever, and jaundice. In China, Mimosa pudica is used to relieve painNot reportedOccasional
LamiaceaeLCWU-0860OcimumbasilicumNiazbooIt is used for cough, vomiting, and nausea. It helps in the treatment of earaches and dullness of hearing. It is used for ulcers and in rheumatic pain. It may also be used in the treatment of eye diseases and constipation. It is used in the treatment of piles, diarrhea, and dysenteryNot reportedCommon
OxalidaceaeLCWU-0861Oxalis corniculataKhatmitIt can be used for treating diarrhea, swelling, and abdominal diseases. It is effective for fever, headache, ulcers, piles, and skin diseasesThe foliage of wood sorrel is quite suitable for eatingOccasional
AsteraceaeLCWU-0862Parthenium hysterophorusStar weedIt may be helpful in treating several skin disorders. This plant contains a large group of compounds with anti-inflammatory properties that relieves gastrointestinal distressNot reportedOccasional
AsteraceaeLCWU-0863Picrise chioidesBristly oxtongueThis Picrisechioides may be used for healing wounds, burns, and boilsNot reportedRare
PolygonaceaeLCWU-0864Rumex dentatusJangalipalakIt has anti-bacterial activity. It is a diuretic and demulcent. It gives soothing effects on the irritated parts of the skin. Rumex dentatus L. (Plygonaceae) extracts were estimated for antifungal, cytotoxic, antibacterial, allopathic, and antitumor potentialNot reportedFrequent
BrassicaceaeLCWU-0865Sisymbrium irioLondon rocketIt is used to treat asthma and measles. It may be used for cleaning eyes. It may help in treating different disorders related to the throat and chest. This plant is also used as an antipyreticNot reportedOccasional
SolanaceaeLCWU-0866Solanum melongenaEggplantIt gives a cooling effect to eyes and is used for curing cholera, diabetes, bronchitis, dysentery, toothache, skin infections, and hemorrhoids. It may also be used for asthma and anti-rheumatic purposes. It is used as a symbol of protection, good health, and female fertilityNot reportedRare
SolanaceaeLCWU-0867Solanum nigramMakoIt is used for fever, skin problems, and tumors. Rubbing the seeds on the cheeks can remove freckles. Its fruit has been used in diabetes. It is also helpful in healing wounds and cancerous soresS. nigrum has been extensively used as a foodstuffOccasional
SolanaceaeLCWU-0868Solanum xanthocarpumYellow-berried nightshadeIt may be used for different skin diseases, inflammations, and fever. It may be effective for asthma, cough, back pain, piles, and kidney stones. In Ayurveda, this plant is used for treating asthma, bronchitis, heart disease, thirst, lumbago, and pilesS. nigrum has been extensively used as a foodstuffRare
AsteraceaeLCWU-0869Sonchus asperPrickly sowIt is used in the treatment of wounds, asthma, bronchitis, infections, and malarial disease. It may also be used for gastrointestinal infections. It can also be used for the detection of anti-microbial activities. Its extract shows anti-fungal and anti-bacterial activity. This plant is used for curing skin diseasesNot reportedRare
CommelinaceaeLCWU-0870Tradescantia pallidaPurple queenIt has several uses including the treatment of several diseases such as asthma and bronchitisNot reportedOccasional
UrticaceaeLCWU-0871Utrica dioicaStinging nettleIt may be used for the treatment of piles, gout, anemia, and different skin complaints and allergies. It is also very effective for arthritis, insect bites, inflammation, and curing different hair problems. Urtica dioica herbs have been used for the treatment of disorders of the kidneys and urinary tract, the locomotor system, skin, the gastrointestinal tract, hemorrhage, the cardio-vascular system, flu, rheumatism, and goutThis herb is also used in shampoo to control dandruff and make hair more glossyOccasional
FabaceaeLCWU-0872Viciaf abaBell beansIt may be used in the treatment of obesity. It may be used as a tonic. It may be used as a diuretic and in fever, cough, vomiting, and sore throat. This herb is also used for culinary purposesThis herb is also used in shampoo to control dandruff and make hair more glossyRare
ZingiberacaeLCWU-0873Zingiber officinaleAdarakIt may be used for fever, cold, constipation, nausea, inflammation, joint and muscle pain, heart burn, and arthritis. It may be used for menstrual disorder. It may be effective for vomiting and asthma attacksIt may be used as a tonicRare
(b)
FamilyVoucher NoBotanical NameAbundanceFCRFCUVRI
AmaranthaceaeLCWU-0824Achyranthus asperRare310.320.6124.4
AsteraceaeLCWU-0825Agerantum conyzoidesRare290.30.0611.45
MalvaceaeLCWU-0826Alcea roseaRare130.20.4617.35
LiliaceaeLCWU-0827Aloe veraRare150.360.623.25
AmaranthaceaeLCWU-0828Amaranthus viridusAbundant330.340.0611.8
PrimulaceaeLCWU-0829Anagallis arvensisOccasional210.280.6123.71
MyrsinaceaeLCWU-0830Anagallis foeminaOccasional330.340.0922.87
AsparagaceaeLCWU-0831Asparagus densiflorussprengeraOccasional210.220.1411.68
AsparagaceaeLCWU-0832Asparagus racemosusRare180.310.534.36
UrticaceaeLCWU-0833Boehmera niveaRare220.230.1317.34
AsteraceaeLCWU-0834Calendula arvensisRare190.260.5212.26
CannabaceaeLCWU-0835Cannabis sativaAbundant340.350.1117.7
ApocynaceaeLCWU-0836Catharanthus roseusRare180.190.517.7
ConvolvulaceaeLCWU-0837Convolvulus arvensisCommon340.350.0811.11
AsteraceaeLCWU-0838Conyza bonariensisRare170.180.8223.83
ApiaceaeLCWU-0839Coriandrum sativumRare250.370.5229.38
BrassicaceaeLCWU-0840Coronopus didymusCommon390.410.0511.57
CyperaceaeLCWU-0841Cyperus rotundusOccasional210.270.5212.49
SolanaceaeLCWU-0842Datura inoxiaRare170.180.918.5
ApiaceaeLCWU-0843Daucus carotaRare210.320.4717.81
ChenopodiaceaeLCWU-0844Dysphania ambrosioidesOccasional120.120.6717.58
ZingiberaceaeLCWU-0845Elletaria cardamomRare270.330.4823.71
EuphorbiaceaeLCWU-0846Euphorbia hirtaOccasional360.370.6925.1
EuphorbiaceaeLCWU-0847Euphorbia helioscopiaCommon130.140.36.01
EuphorbiaceaeLCWU-0848Euphorbia prostrateCommon180.190.1111.34
PapaveraceaeLCWU-0849Fumaria indicaAbundant380.40.0711.91
PapaveraceaeLCWU-0850Fumaria parvifloraRare180.250.4523.14
AsteraceaeLCWU-0851Lactuca sativaCommon150.160.422.91
MalvaceaeLCWU-0852Malvestrum tricuspidatumAbundant400.420.0811.91
CucurbitaceaeLCWU-0853Mamordica charantiaRare140.190.528.58
ScrophulariaceaeLCWU-0854Mazus japonicasCommon290.310.0617.35
FabaceaeLCWU-0855MedicagodenticulataAbundant430.450.046.01
FabaceaeLCWU-0856Melilotus albaCommon270.280.0711.686
LamiaceaeLCWU-0857Mentha longifoliaRare410.430.0917.58
LamiaceaeLCWU-0858Mentha piperitaRare180.370.6112.36
FabaceaeLCWU-0859Mimosa pudicaOccasional200.270.517.81
LamiaceaeLCWU-0860Ocimum basilicumCommon250.430.5223.71
OxalidaceaeLCWU-0861Oxalis corniculataOccasional150.160.623.25
AsteraceaeLCWU-0862Parthenium hysterophorusOccasional210.220.7112.836
AsteraceaeLCWU-0863Picrise chioidesRare30.030.466.47
PolygonaceaeLCWU-0864Rumex dentatusFrequent160.170.511.91
BrassicaceaeLCWU-0865Sisymbrium irioOccasional460.470.5711.57
SolanaceaeLCWU-0866Solanum melongenaRare310.40.4112.14
SolanaceaeLCWU-0867Solanum nigramOccasional210.220.3618.27
SolanaceaeLCWU-0868Solanum xanthocarpumRare340.460.4424.17
AsteraceaeLCWU-0869Sonchus asperRare260.40.4612.26
CommelinaceaeLCWU-0870Tradescantia pallidaOccasional470.490.425.78
UrticaceaeLCWU-0871Utrica dioicaOccasional290.30.6229.73
FabaceaeLCWU-0872Viciaf abaRare130.140.6112.03
ZingiberacaeLCWU-0873Zingiber officinaleRare160.060.6823.48
Table
Table 4. Fidelity level (FL) of all herb species.
Table 4. Fidelity level (FL) of all herb species.
Botanical NameEthnomedicinal UsesIpIuFL
Achyranthus asperStomach pain143145
Agerantum conyzoidesConstipation162955
Alcea roseaRespiratory diseases111957
Aloe veraSkin infections293582
Amaranthus viridusInflammation143342
Anagallis arvensisRespiratory disorders212778
Anagallis foeminaDigestive disorders183354
Asparagus densiflorussprengeraUrinary infections and arthritis102148
Asparagus racemosusDysentery and diarrhea183060
Boehmeria niveaThreat of abortion152268
Calendula arvensisStomach ulcer172568
Cannabis sativaMalaria133438
Catharanthus roseusDiabetes151883
Convolvulus arvensisConstipation163447
Conyza bonariensisMuscular weakness91753
Coriandrum sativumAbdominal pain143639
Coronopus didymusLiver disorders213954
Cyperus rotundusDigestive disorder72627
Datura inoxiaBroken joints141782
Daucus carotaCancer213168
Dysphania ambrosioidesAsthma71258
Elletaria cardamomInfluenza143244
Euphorbia hirtaFemale diseases173647
Euphorbia helioscopiaCholera101377
Euphorbia prostrateBleeding piles131872
Fumaria indicaDiarrhea193850
Fumaria parvifloraSkin diseases162467
Lactuca sativaTyphoid101567
Malvestrum tricuspidatumDysentery224055
Mamordica charantiaDiabetes151883
Mazus japonicasFever122941
Medicago denticulataExcessive growth of organs224351
Melilotus albaUlcer132748
Mentha longifoliaLiver disorder254161
Mentha piperitaMumps293681
Mimosa pudicaJaundice202677
Ocimum basilicumPiles134131
Oxalis corniculataUlcer61540
Parthenium hysterophorusGastrointestinal stress102148
Picrise chioidesBurns and boils1334
Rumex dentatusIrritated skin91656
Sisymbrium irioMeasles164635
Solanum melongenaToothache213855
Solanum nigramTumors122157
Solanum xanthocarpumHeart disease174439
Sonchus asperGastrointestinal infections163842
Tradescantia pallidaAsthma284760
Utrica dioicaKidney and urinary disorders172959
Vicia fabaObesity111385
Zingiber officinaleMuscles pain2633
Table
Table 5. Informant consensus factor (ICF) for the categorized ailments mentioned by the informants.
Table 5. Informant consensus factor (ICF) for the categorized ailments mentioned by the informants.
Category of DiseasesNo. of Use
Reports		% Age of Use ReportsNo. of Taxa Used% Age of TaxaICF
Respiratory problems216.086174.8020.15
Musculoskeletal disorders185.217145.5110.23
Brain and nervous disorders236.667197.480.18
Cardiovascular disorders267.536155.9050.44
Urogenital diseases4412.7533112.2040.3
Gastrointestinal tract diseases5716.524316.9290.25
Nail, skin, andhair disorders216.086166.2990.25
General pain164.637135.1180.2
Ear, nose, and throat (ENT) diseases123.47893.5430.27
Infectious diseases195.507114.330.44
Glandular disorders123.47883.1490.36
Fever, cold, and influenza disorders277.826176.6920.38
Wound healing92.60893.5430
Gynecological disorders226.376187.0860.19
Dental pain61.73962.3620
Cancer82.3183.1490
Table
Table 6. Abundance * groups cross-tabulation.
Table 6. Abundance * groups cross-tabulation.
CountGroupsTotal
1.02.0
AbundanceAbundant055
Common268
Frequent101
Occasional11213
Rare20323
Total341650
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Shaheen, S.; Harun, N.; Ijaz, R.; Mukhtar, N.; Ashfaq, M.; Bibi, F.; Ali, M.; Abbas, Z.; Khalid, Z. Sustainability Issues in Conservation of Traditional Medicinal Herbs and Their Associated Knowledge: A Case Study of District Lahore, Punjab, Pakistan. Sustainability 2023, 15, 7343. https://doi.org/10.3390/su15097343

AMA Style

Shaheen S, Harun N, Ijaz R, Mukhtar N, Ashfaq M, Bibi F, Ali M, Abbas Z, Khalid Z. Sustainability Issues in Conservation of Traditional Medicinal Herbs and Their Associated Knowledge: A Case Study of District Lahore, Punjab, Pakistan. Sustainability. 2023; 15(9):7343. https://doi.org/10.3390/su15097343

Chicago/Turabian Style

Shaheen, Shabnum, Nidaa Harun, Raina Ijaz, Naila Mukhtar, Muhammad Ashfaq, Fozia Bibi, Muhammad Ali, Zaheer Abbas, and Zaryab Khalid. 2023. "Sustainability Issues in Conservation of Traditional Medicinal Herbs and Their Associated Knowledge: A Case Study of District Lahore, Punjab, Pakistan" Sustainability 15, no. 9: 7343. https://doi.org/10.3390/su15097343

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