Ethnobotany in Iturbide, Nuevo Le ó n: The Traditional Knowledge on Plants Used in the Semiarid Mountains of Northeastern Mexico

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Introduction
Worldwide, ethnobotany is a discipline with extensive contributions from its beginnings to the present with work on all continents, highlighting remote regions and different indigenous groups.It is surprising how much ethnobotanical information is available, e.g., a study in the Kathua region of the Himalayas describes the knowledge and use of 121 plant species by various indigenous groups, i.e., Duggars, Paharis, Punjabis and Gujjars; who, furthermore, share their ancestral knowledge [1].These results are strengthened by other research in the same region of Kupwara, where there is a high diversity of medicinal plant use, highlighting the transmission of traditional medical knowledge directly from the elderly to the young [2].Another recently explored region is Pakistan in the Shiwalik Range, where its population depends directly on wild floras for their livelihood [3].It is the same subsistence case for the Nauka (language in danger of extinction), settled in the Bering Strait, Russia, who, in addition to depending on wild plants, were forced to change their ancestral knowledge and practices due to armed conflicts [4].
Other areas of the planet and their diverse cultures contribute with spectacular ethnobotanical works, e.g., the groups originating in Australia, the Bunganditj, who have deep traditional medicinal knowledge; in addition, they collaborate with researchers to design protocols for prospecting the use of their medicine [5].One of the zones with the greatest ethnobotanical records is the Mapuche region, Patagonia, Argentina, where 505 medicinal flora species are reported, highlighting an interesting mix of native and exotic species [6].Another of the most diverse regions of the planet is the Amazon, where 274 species of medicinal native plants are reported for a single community in the Brazilian Region [7].
Relating the richness and diversity of worldwide ethnobotany, we can say that Mexico is one of the countries with a deep ethnobotanical tradition, that is, the human groups established in the different ecoregions have developed a wide perception, knowledge and use of plants [8,9].Mexican ethnobotanical documentation estimates the knowledge and exploitation of between 5000 and 7000 plant species, among which a wide range of native and introduced species stand out, using different parts of them, many with strong cultural and multifunctional roots [9].
Mexican ethnobotany, as well as in other regions of the world, reflects socio-ecological patterns of a complex socio-cultural dimension, highlighting the understanding the forms of transmission of ethnobotanical traditional ecological knowledge (TEK) especially analyzed the flow of traditional knowledge and practices between the different generations of local inhabitants [10], at the level of inter-ethnic and intra-ethnic communities [11] or gender, where women stand out for their deep local ethnobotanical knowledge [12].Other approaches are those related to determining the cultural importance of plants among people who live in different ecosystems and with different degrees of biodiversity [13], the analysis of influence generated by environmental changes [14], as well as the anthropocentric characterization of the utilization of plants [15], other studies focus or understanding the complex systems of traditional medicine and food [9].These socio-ecological patterns consist of a set of local knowledge and practices specific to each cultural group, defined as: Traditional Ecological Knowledge (TEK [16,17]).The TEK is integrated into three main conceptual fields: (a) perception = kosmos (set of beliefs associated with plants, e.g., ceremonial and ritual uses), (b) cognitive = corpus (sets of knowledge about plant resources, e.g., flock nomenclature, knowledge about biological and ecological aspects) and (c) practical = praxis (set of utilization and/or exploitation practices, e.g., categories of use, domestication [18]).Ethnobotanical studies in the country have contributed to the development and consolidation of global ethnobotanical knowledge, e.g., Hunn [19] with the Tzeltal Indians, where he proposes one of the bases for the study of traditional classification.Later, he reaffirms his work, studying the lifestyles of the Zapotec Indians of San Juan Gbee, where he documents more than 700 names of plants in the indigenous language [20].Novel ethnobotanical research is currently continuing, e.g., Nabhan and collaborators [21] have shown the role that plants play in a socio-ecosystem and its relevance for human health in the face of climatic stress.During the monsoons (rains in the Sonoran Desert where the Comcaa'c indigenous people live) when terpenes are released from the desert plants, in which more than 60 species have been identified with 115 biogenic volatile oils, they contribute to human health by improving sleep patterns, regulating emotional hormones, improving digestion and reducing depression and anxiety, preventing oxidative stress diseases [21].
The distribution of indigenous groups in Mexico is concentrated in the central, southern and south-southeastern areas, mainly where there is a high diversity of geoforms, climates, ecosystems and a high biological diversity; the established indigenous groups have a profound knowledge of their biocultural diversity and their ethnobotanical resources [8].Some indigenous groups settled in the northern region of the country, grouped in the northwestern area.Therefore, in the northeast region, there are only the Kipapo and Negros Mascogo settlements (migrants from the United States settled in the mid-1800s [22]).In general, the north of Mexico is characterized by being a wide extension of arid and semiarid zones, forming one of the most diverse desert regions on the planet [23], due to its local environmental heterogeneity, mainly in the northeast region; in this area, there are hundreds of mestizo rural communities, which, like the indigenous communities, have a deep knowledge of their ethnobotanical biocultural diversity [13,[24][25][26][27].This is due in part to the fact that rural populations tend to live more isolated, using natural resources of their surroundings as medicine, food, ornamental, firewood or domestic tools [24][25][26][27].
The ethnobotany in the north of the country and particularly in the northeast zone is as relevant as that documented in other regions, even in indigenous areas and when comparing different types of ecosystems where the richness of species is varied [13].Unfortunately, this knowledge is at risk due to socio-cultural factors, such as migration [28] and lack of interest in younger generations, contrary to what has been documented for some indigenous people [2].Other factors are associated with changes in economic systems [29]; to socio-ecological factors, such as changes in traditional medicine practices and local food systems, so it is necessary to safeguard important taxa as part of the biocultural heritage food [30].In addition, there are changes in agroecological systems, where there is a threat and loss of related wild crops [31].The degradation of ethnobotanical TEK is even associated with environmental changes and loss of biological diversity [32].A respite in the face of the notable loss of ethnobotanical biocultural wealth is given through the documentation and local revaluation of knowledge and practices of plants [1][2][3][4][5][6][7], where the new generations and women have an important role [10,33]; through linking communities with the academic sector, generating regulation and bioprospecting protocols [5].
The main objectives of this ethnobotanical research are: (a) to know the diversity of flora taxa with ethnobotanical potential; (b) to compare the diversity of plants with ethnobotanical implications with those reported in other regions of northeastern Mexico; (c) to document the knowledge and traditional uses of native and exotic flora; (d) analyze the traditional medical knowledge of local plant species, their forms of administration and parts used; through the application of ethnobotanical indices: Informant Consensus Factor (ICF), Use Value Index (UVI) and Fidelity Index (FI).All this would help preserve the ethnobotanical knowledge and traditional practices of plant taxa used in this area by their community, facilitating environmental education and the sustainable development of Iturbide in the face of the increasing loss of ecosystems, a low economy in the area and migration of the young population.

Study Site
In general, the relief of Mexico is among the most rugged on the planet [23,34].This particular orography is one of the factors that confer the existence of diverse and unique flora in many parts the country.The northern region ecologically is characterized by large extensions of arid and semiarid zones, with heterogeneous mosaics of high floristic diversity [34].
Geographically, the state of Nuevo León is characterized by its extensive lowland, high plains and mountains that, in some cases, can reach up to 3600 m above sea level [35], where the local population is mestizo [36].Our study area, Iturbide, is a small municipality located in the semiarid mountains in the southern reaches of the state of Nuevo León [36] with a landscape that comprises 85% rugged surface and 15% flat areas.The two main vegetation types found in the municipality of Iturbide are semiarid scrubland and oak-pine forest, both of them hosting a very rich flora with high levels of endemism.The Sierra Madre Oriental (state of Nuevo León) contains almost 269 endemic plant species [37].Almost 60 of these species are considered exclusive of the municipality of Galeana, adjacent to Iturbide.Among these species, it highlights some with high levels of endemicity, belonging to the families Asteraceae (Ageratina, Erigeron and Verbesina), Cactaceae (Mammillaria and Turbinicarpus) and Fabaceae (Dalea [38]).Most of the native and exotic floras in this area are widely used by the local community for medicinal, ornamental, food, forage and construction purposes [13,[24][25][26][27].
According to the 2010 National Population and Housing Census, approximately 3600 people inhabit Iturbide Municipality, with 95% living in the town of Iturbide and the remainder in surrounding rural areas.On average, half of the residents of Iturbide Municipality are male and half are female [36].The primary local language is Spanish.The main economic activities in Iturbide are agriculture and livestock, which highlights the relevance of the study of natural resources in this area.The main crops are corn, wheat and oats, as well as fruit harvesting, principally apples, plums, apricots, quince and peaches [36].Local artisans produce wooden furniture, embroidery and other handmade products, thereby using natural resources for their creations.The federal government offers subsidized training for the development of technical skills such as baking, sewing, carpentry and blacksmithing.Additionally, there is federal financial support for disabled people.However, in Iturbide, there are relatively few inhabitants aged 17-25 years.This is because the young people of Iturbide have begun to emigrate to larger cities and regions with higher access to education and diverse employment opportunities that offer higher salaries [36].
The origin of its population is related to the establishment of cattle ranches in 1800; its current population is totally mestizo, proud to belong to the "northern culture".Education levels are high compared to other municipalities in the entity; there is basic, upper secondary and higher education, highlighting the School of Forest Sciences and the Astronomical Observatory of the Autonomous University of Nuevo León.In recent years, tourism has been promoted as an economic alternative, mainly associated with ecotourism due to its natural and scenic beauty.
Iturbide is located in south-central Nuevo Leon, 24 • 23 N 99 • 59 W (Figures 1 and 2a).It is placed in the Sierra Madre Oriental and it comprises mountains, extensive valleys and canyons, as well as plateaus above a 1200-meter altitude.Iturbide is located in the dry part of the mountains on the leeward side.Its climate has two variants: at lower elevations (1200 m), it is semi-warm, while at higher elevations (2400 m), the climate is cold, temperate and subhumid.The annual precipitation ranges from 300 mm to 950 mm, with a mean precipitation of 705 mm.The driest months are from December to March; the rainiest months are from July to September.The average annual temperature ranges between 12 and 18 • C, with the hottest months being April and May and the coldest from November to January [38].There are two permanent rivers in the municipality of Iturbide: The San Antonio River, which crosses the municipality from north to south, and the La Muralla River, located at the extreme north.The highest parts of the area with a temperate climate are covered by oak and oak-pine forest, while the driest parts shelter microphyllous scrublands [38,39].

Field Work and Interviews
A total of twelve field trips were made for plant identification and collection.Two previous exploratory visits were made in June 2021.The first was held to explore the plant communities adjacent to Iturbide and collect plant specimens of the native flora representative of the area, and the second one was to interview people (see below) regarding local plants and their uses.We obtained the permission of local authorities to collect plants in public areas and talk with private property owners for the same purpose [13].From July to December 2021, 12 field trips for plant species collection were carried out.All species recorded were photographed to create an ethnobotanical database containing all information and data gathered.The taxonomic identification of plants was based on the study of the floras of the state of Nuevo León, as well as monographs of families and genera distributed in this area [38,39].When possible, the interviewed individuals

Field Work and Interviews
A total of twelve field trips were made for plant identification and collection.Two previous exploratory visits were made in June 2021.The first was held to explore the plant communities adjacent to Iturbide and collect plant specimens of the native flora representative of the area, and the second one was to interview people (see below) regarding local plants and their uses.We obtained the permission of local authorities to collect plants in public areas and talk with private property owners for the same purpose [13].From July to December 2021, 12 field trips for plant species collection were carried out.All species recorded were photographed to create an ethnobotanical database containing all information and data gathered.The taxonomic identification of plants was based on the study of the floras of the state of Nuevo León, as well as monographs of families and genera distributed in this area [38,39].When possible, the interviewed individuals accompanied us on field trips to identify species in situ.All collected and identified specimens were stored at the CFNL herbarium of the Faculty of Forest Sciences, Autonomous University of Nuevo León, México.The collection number belongs to Eduardo Estrada (EE), and the identified species were corroborated with herbarium specimens [40].
Based on ethnobotanical studies previously carried out in the northeast of the country, we focused our interviews on housewives, shepherds, bricklayers, elementary teachers, business owners, midwives and healers older than 30 years [24].The ages of the interviewees ranged from 32 to 84 years.Each interviewee had lived continuously in the area for at least 20 years.To maximize data collection and allow interviewees to speak freely, interviews were semi-structured [41].Four questions were asked to all interviewed: (1) What is the name of the plant?(2) What are the uses you know of this plant?(3) What parts of the plant are utilized (root, stem, leaf, inflorescence, flower, fruit)?(4) How is the product/utensil prepared (raw, cooked, roasted, ground)?[42,43].All interviews were conducted with the prior informed consent of each of the informants (http://ethnobiology. net/codeofethics/, accessed on 7 June 2021 [42]).During the interviews, we showed pictures of the regional plant species found to additionally confirm species identification by local people (ethnographic technique of visual stimuli [43]).All interviews were recorded in Spanish.In Figure 2b,c, we can observe the work team and the relationship that was established with the informants to obtain the ethnographic information.

Data Analysis
In order to know the ethnobotanical significance of Iturbide with respect to other localities of Mexico studied (Nuevo Léon, Coahuila, Baja California, Puebla and Michoacán), a Chi-square tests was applied using PAST software [44,45].The Chi-square test is used by means of contingency tables to examine the relationship between two or more categorical, non-numerical variables.It is also used to explore the distribution of a categorical variable among different samples [44].This test works with frequencies (observed and expected), and its calculation is based on the degrees of freedom and the level of significance to determine which hypothesis is accepted (the null or the alternate).The null hypothesis is rejected when the number of known plant species at other sites is similar to that of Iturbide (p < 0.05).To quantitatively analyze the ethnobotanical information collected, three indices were applied: (1) Use Value Index (UVI [13]); (2) the informant consensus factor (ICF [46]) and (3) Fidelity Level (FL [47]), all commonly used in the ethnobotanical research [1,2,13].
The UVI analyzes the local relevance of each of the ethnobotanical species; it is obtained applying the formula: UVI = ΣUi/n, where Ui = corresponds to the number of uses known by each informant for the species i, and n = the total sample number ethnographic (interviewees).The IFC evaluates the relative importance of the ethnobotanical species within each medicinal category; is calculated as: IFC = nur − nt/nur − 1, where the subindex nur = frequency of medicinal mention for the species i, and nt = sum of the species mentioned for each of the medicinal categories.The premise in this index indicates that the species that obtain the highest values are those that are considered by the informants as more effective in the treatment of certain diseases.Finally, through the Fidelity Index, the relative importance of each species i in a specific medicinal category is calculated, with respect to the total degree of consensus among the informants.Calculated as: FL(%) = Ip/Iu (100), where Ip = total number of interviewees who independently indicated the use of species i to treat the disease particular, and Iu = corresponds to the frequency of informants who mention the species i to counteract a specific disease within a category of specific medicinal use.[42,43].(a) Local square of the municipality of Iturbide, (b,c) work team during the application of the interviews, (d) sale of ornamental plants through the streets of various colonies of Iturbide, (e) caring for ornamental plants in private gardens by residents, (f) taking photographs of ornamental plants for their taxonomic identification, (g) kitchen table used as a support to cut fruits, vegetables and meats for food preparation.

Taxa Diversity, Origin and Life Forms
A total of 250 taxa with ethnobotanical importance from 121 genera and 83 families were recorded in this research (Table 1), of which are 140 native and 110 introduced (Appendix A).The diversity of native species is mediated by the environmental heterogeneity associated with the topography, a fundamental characteristic in richness and composition of plant communities [38], and leads to contrasting vegetation patterns between northern and southern areas [37].While the diversity of introduced taxa is associated with anthropocentric needs [25][26][27].Table 2 shows contrasting physiognomic vegetation among northeastern, northwestern, central and southern Mexico, where ethnobotanical research have been carried out: these sites are characterized by heterogenous scrublands and oak-pine forests.However, relatively similar vegetation was found in northwestern (Baja California [48]) and southern Mexico, as, for instance, in the Monarch Butterfly Biosphere Reserve (Michoacán [49]).Our results affirm that rural mestizo communities also have a deep ethnobotanical tradition, compared to research carried out in inhospitable regions and with different indigenous groups; e.g., Shigh and collaborators [1] report 121 species, 105 genera and 53 families in the Himalayas.Silva et al. [7] report 274 ethnobotanical taxa used exclusively in traditional medicine for inhabitants of the Brazilian Amazon.However, a greater effort is still needed in the ethnobotanical documentation of extensive rural mestizo areas to compare data such as those reported for the Mapuche in Patagonia (505 species of medicinal and edible flora [6]).
We found that the most abundant and species-rich plant families in Iturbide are Asteraceae, Fabaceae, Poaceae, Euphorbiaceae and Cactaceae (Figure 3a); the same pattern of taxonomic families is predominant in the northern, central and southern regions of Mexico [38,39], as well as in other regions of the world, where the two main reported families are Asteraceae and Fabaceae [1,2,6,7].Furthermore, it is common for the abundance of plants in taxon to correlate with the number of ethnobotanical uses identified; therefore, the families with the highest species richness are constantly those with the highest frequency of mention in ethnobotanical studies [46].The enormous number of ethnobotanical applications registered in Iturbide is evidenced by the great variety of taxa used for ethnobotanical purposes, especially in small and rural areas far from large cities; using plant species for diverse ethnobotanical utilizations is a strongly rooted tradition, greatly extended in the day-to-day needs of some communities [3,7,9,13].Of the ethnobotanical exploitations registered in Iturbide, 140 are native while 110 are exotic (Appendix A).The introduced plants represent a high value, as in other zones of the northeast [13], but lower than in other remote regions [1,6].Herbaceous taxa were the most abundant (120), followed by shrubs (58), trees (55) and succulents (17).The relatively cool climatic conditions allow the presence of varied floras most of the year.The streets, parks and sidewalks are predominantly dominated by evergreen vegetation and many herbaceous plants that flower even in the coldest months (December and January).
The most common uses of the plant species in Iturbide are ornamental, medicinal, food, forage, wood and fuel (Figure 3b).These patterns of plant harnessing are similar to other works from the northeast region [13,[24][25][26][27].We observe that, unlike other sites in Mexico, ornamental plants are highly relevant [13], displacing the medicinal and edible categories in second and third place (Figure 3b).This new phenomenon of cultural appre- Of the ethnobotanical exploitations registered in Iturbide, 140 are native while 110 are exotic (Appendix A).The introduced plants represent a high value, as in other zones of the northeast [13], but lower than in other remote regions [1,6].Herbaceous taxa were the most abundant (120), followed by shrubs (58), trees (55) and succulents (17).The relatively cool climatic conditions allow the presence of varied floras most of the year.The streets, parks and sidewalks are predominantly dominated by evergreen vegetation and many herbaceous plants that flower even in the coldest months (December and January).
The most common uses of the plant species in Iturbide are ornamental, medicinal, food, forage, wood and fuel (Figure 3b).These patterns of plant harnessing are similar to other works from the northeast region [13,[24][25][26][27].We observe that, unlike other sites in Mexico, ornamental plants are highly relevant [13], displacing the medicinal and edible categories in second and third place (Figure 3b).This new phenomenon of cultural appreciation of ornamental plants may be related to the need to mitigate solar radiation in gardens and public parks, as well as in homes [13].While, on the other hand, it is currently known that plants in desert regions of northwestern Mexico provide health benefits in the face of climatic stress, generating a feeling of euphoria and relief among the population.An effect associated with the monsoons (torrential summer rains) and the release of terpenes from plants, these biogenic organic compounds are considered to help mitigate oxidative stress diseases, improve sleep quality, stabilize emotional hormones, improve digestion, increase mental clarity and reduce depression and anxiety [18].Therefore, the inclusion of ornamental species in the ethnobotanical cultural baggage of Iturbide and other regions of northeastern Mexico may have a similar effect to that reported for the northwestern part of the country, since the climatic and vegetation conditions are very similar [13,24,38,39].In addition, species such as Sambucus canadensis, Baccharis salicifolia, Prosopis glandulosa and Larrea tridentata are shared between both regions and reported in both investigations [18].

Ornamental
The individuals interviewed showed a greater knowledge of the ornamental utilization of plants, recognizing 132 taxa, corresponding to 52.8% of the total, concerning the medicinal ones, with only 100 (Appendix A).This phenomenon differs from the results of other ethnobotanical studies conducted in Nuevo León [26,27] and other regions of Mexico [10,48,50].Currently, the importance of ornamental plants is documented, for example, in Cuatrociénegas, Coahuila where they are important in gardens and public squares [13].As in Cuatrociénegas, in Iturbide, the presence of ornamental plants is noticeable in streets and private properties.In addition, on weekends, plant vendors come to the area to sell exotic herbaceous and shrubby species, which is why the inhabitants of Iturbide use introduced ornamental species more, instead of native ones (Figure 2d-f).This phenomenon is associated with the adaptation of the taxa to the environmental conditions of the place, as well as the care that the owners provide them.Therefore, ornamental plants have a socio-cultural relevance on the well-being of local inhabitants through landscape beauty [51].In addition, very possibly, as in the Sonoran Desert, they provide well-being in human health through the release of biogenic organic compounds [18].
Among the most common herbaceous native species appreciated ornamentally were Beloperone gutatta, Spathiphyllum wallisii, Dahlia coccinea, Zinnia elegans, Commelina coelestis, Plumbago pulchella and Nephrolepis exaltata.The most common shrubs were Rhus trilobata, Tecoma stans, Euphorbia pulcherrima, Bauhinia purpurea and Parthenocissus quinquefolia.Many of these taxa have similar ethnobotanical implications in other regions of Mexico or in other regions of northern Latin America [53].The most common native trees with ornamental use in Iturbide were Acer negundo, Juniperus flaccida, Carya illinoinensis, Juglans major, Magnolia grandiflora, Morus celtidifolia, Pinus cembroides, Casimiroa pringlei, Salix nigra, Fraxinus americana and Quercus virginiana.Of the ornamental species, 45 have other types of exploitation such as food, medicine and construction material (Appendix A).Some of these species hold multiple ethnobotanical uses, such as Matricaria recutita and different species of Opuntia, Quercus, Prunus, Citrus and Capsicum.According to interviewees, ornamental herbaceous taxa are specially selected for their physiognomy.The selection of ornamental shrubs and trees is based on their general appearance, life form, maximum height and forms of exploitation, such as providing shade in cities, food, firewood and construction material (Appendix A).Some shrubby or ornamental tree species with succulent stems are used as living fences, notably the columnar cacti [54].

Medicinal
Medicine was the second relevant anthropocentric category in the study, with 100 species, representing 40% of the total flora, found.A value was raised considering that it is a mestizo region in comparison with the number of species reported for indigenous regions [1,2,7,49].The mentioned taxa are used to cure or alleviate different illnesses.At least thirty-six different plant families have some medicinal application, with Asteraceae (sixteen genera and sixteen species), Lamiaceae (twelve genera and thirteen species), Euphorbiaceae (five genera and five species) and Cactaceae (three genera and six species), being the most represented, the first families reported around the world [1,2,7].These medicinal families are recurrent in different areas of Mexico [9,55].In Iturbide, the plants are used in their entirety for some medicinal purposes (Figure 3c).Leaves from 67 different species are frequently used for medical purposes, of which 64 are native herbaceous species.Among the most common native herbaceous species mentioned by interviewees were Equisetum laevigatum, Monarda citriodora, Chrysactinia mexicana, Hedeoma drummondii, Eryngium heterophyllum, Artemisa ludoviciana, Euphorbia dentata and Tagetes lucida.The most common exotic herbaceous species in local medicine were Matricaria recutita, Ocimum basilicum, Allium sativum, Ruta graveolens and Zingiber officinale (Appendix A).
The stems of some shrubby species are frequently used as medicine, including Baccharis salicifolia, Flourensia cernua, Croton suaveolens, Jatropha dioica and Leucophyllum frutescens.A total of twenty taxa of trees (eleven native, and nine exotic) have medicinal properties, with the leaves, bark and fruits being the most used components.Among the most commonly mentioned medicinal native tree species were Carya illinoinensis, Juglans major and Persea americana, while the most mentioned exotic species were Azadirachta indica, Moringa oleifera, Eucalyptus camaldulensis, Eriobotrya japonica, Citrus limon and Citrus sinensis.The fruits of twelve taxa (seven native and five exotic) are used to heal several ailments.The most frequently used were Cordia boisieri, Crataegus mexicana, Ficus carica, Citrus spp.and Capsicum annuum.It is noteworthy that although only one species and one variety (Capsicum annum var.glabriusculum) are mentioned, there are several forms of this species with varying flavors and levels of spice (Appendix A) which interviewees identified by their common names, such as chili piquín, Japanese chili, serrano pepper and jalapeño pepper (Appendix A).Some dry fruits (pecans), including Carya illinoinensis, and the immature fruits of Sida rhombifolia and Malva parviflora are used to treat varicose veins and digestive discomfort.Species with medicinal fruits are commonly cultivated in private gardens, developing a dual role of utilization.Some of these are seasonal, as in the case of tejocote (Crataegus mexicana), níspero (Eriobotrya japonica) and guayaba (Psidium guajaba), although they can be dried or prepared as a syrup and stored for later use.Except for Eriobotrya fruits, medicinal fruits are collected and sold in the local market.The medicinal application of inflorescences is highly correlated to the use of stems and leaves, more frequently in herbaceous and aromatic species.Stems and leaves are almost always combined and boiled [55], particularly those of Gnaphalium viscosum, Chenopodium ambosioides, Grindelia inuloides, Tagetes lucida, Hedeoma drumondii and Turnera diffusa [24].The medicinal roots used in Iturbide all come from exotic plant taxa and are mainly used boiled or raw to alleviate digestive ailments.These include Lepidium peruvianum, Raphanus sativus, Aloe vera and Zingiber officinale.The root of the native plant Eryngium heterophyllum is used to dissolve kidney stones and to treat hemorrhoids, diabetes and high cholesterol.Other native medicinal plants of Juglandaceae, Juglans (one species) and Carya (two species) are used as hair dye and also as antifungal and antibacterial agents; such antibacterial properties are proven [56].
Other medicinal treatments, involving the use of bracts and fruit shells, the boiled bracts of Bougainvillea, are frequently used to treat angina pain and cough, but they also have antibacterial and antidiabetic properties [57].Lemon and orange peels, along with the leaves, are boiled and the solution is used to relieve chest pains, colds, coughs and throat pains.Among the most common methods for the preparation of medicinal plants in Iturbide, boiling, grinding, creating poultice and consuming raw are highlighted, the same use with same results; these applications are similar to others reported in scrub and desert regions in Mexico (Figure 3d, Appendix A [58,59]).
The most frequent illnesses mentioned by the interviewees were digestive, respiratory, nervous, endocrine and circulatory ailments (Table 3).This result correlates with the classification of diseases and related health problems recorded by the World Health Organization [60].Digestive and respiratory ailments are mainly cured with boiled leaves in the form of infusion.Almost all medicinal taxa recorded in Iturbide are prepared this way, and the majority of them are herbaceous and shrubby species belonging to the families Asteraceae (Gnaphalium viscosum, Grindelia inuloides, Flourensia cernua, Matricaria recutita and Tagetes lucida), Euphorbiaceae (Croton suaveolens, Euphorbia dentata and Tragia ramosa), as well as almost all genera of Lamiaceae, Allium cepa, A. sativum, Moringa oleifera, Eucalyptus camaldulensis, Purshia plicata, Verbena canescens and Larrea tridentata.On the other hand, raw leaves, stems, roots and fruits are the second most frequent way to alleviate symptoms.The most commonly harvested taxa are, Apium graveolens, Eryngium heterophyllum, Kalanchoe daigremontiana, Rorippa officinale, Lophophora williamsii, Opuntia ficus-indica, Jatropha dioica, Psidium guajaba and Larrea tridentata.Apium graveolens roots are used also against the toxicity of trace elements [61].Kalanchoe diagremonaitana has antitumor, antihistamine and anti-inflammatory properties [62].In addition to treating arthritis and muscle pain in the back and neck, Lophophora willaimsii has compounds that produce hallucinations and cognitive impairment.In addition to hair dye and skin antifungal agent uses, it is mentioned that the roots of Jatropha dioica are crushed and placed directly on the gums as a preventive method in tooth loss.In many cases, medicinal plant parts are used raw and do not require preparation; they are only disinfected with chlorine and crushed or ground, then applied as poultices to heal superficial wounds.They are also chewed and consumed to control blood sugar concentration, cholesterol and high blood pressure.Some local people mentioned that they consume garlic, onion, coriander and parsley periodically to reduce the risk of diabetes and high blood pressure.Raw stems of several Cactaceae are very commonly used to heal endocrine illnesses, digestive issues and low cholesterol; they are prepared by washing the cladodes (stems), removing the thorns, grinding the material and drinking the solution.The milled pulp (Lophophora) is frequently mixed with alcohol and marijuana to be used as a cataplasm to heal arthritis and muscle pain in the limbs, a very common method of healing in Mexican culture [13,59].A variety of plant families are prepared as poultices, including most of their parts, used in different ways: boiled, ground and raw.In Iturbide, one of the most common genera prepared in this way is Amphipterygium, whose bark is boiled and applied as a cataplasm to serve as an antibiotic.Its bark is used to prevent cytotoxic proliferation, as an antibacterial agent [63] and to heal gastritis and stomach pains.The leaves of plants in the genus Buddleja are used as a cataplasm to heal epidermic wounds; these taxa have photoprotective effects on the skin, due to their production of secondary phenolic metabolites [64].Opuntia and Cylindropuntia stems are commonly used as forage, food and poultice in Iturbide, but also to treat diarrhea.
A solution of Lophophora stems mixed with alcohol is common in rural areas to treat arthritis in northern Mexico, but is also traditionally used as a hallucinogen [65].Similarly, female Cannabis inflorescences are mixed with alcohol and used as a poultice to relieve arthritis and muscle pains, and the dried inflorescences are also smoked for recreational purposes [13].The former use may be closely related to the fact that the contents of flavonoids, cannabinoids and terpenoids reportedly have anti-inflammatory, anticancer and neuroprotective properties [66].Leaves from Thymus genus are frequently used to relieve respiratory and gastrointestinal ailments and skin infections.However, currently, derivatives from its essential oils are more widely used due to their reported antimicrobial and anticancer effects [67].In Iturbide, Melia has properties to cure gastrointestinal symptoms, and Melia leaves in cold water have also been reported to cure diarrhea in South Africa [68].Similarly, raw or boiled Lycopersicon fruits are used as a poultice for their antibacterial, antifungal and antiviral properties derived from its peptides.Parts of Jatropha dioica are crushed and milled, and the resulting pulp is applied directly to the hair, due to its black dyeing property; it is also used to prevent hair loss, control dermic head infections (dandruff) and as a shampoo.Its antifungal properties are due to the presence of alkaline esters and certain diterpenes such as citlalitrione, jatrophatrione, jatropholone A and jatropholone B present in stems and roots [69].
Traditional medicinal use of Plectranthus coleoides occurs from the drying, grinding with glycerine and spreading on the chest and nostril to treat respiratory problems such as chest pain and runny nose, among others.Other species of this genus also have a medicinal application to treat toothache, dermatitis, throat pain, antiseptic, vomiting, nausea, ear infections and burns.Blending Capsicum annuum fruits in water generates a relatively spicy solution that is consumed to treat coughs and extract phlegm.Other studies have reported that it is effective as a circulatory stimulant and that can be also used as an antioxidant, anti-inflammatory and gastric anticancerigen [70].The plant parts of some taxa are used completely dry; the most commonly used in Iturbide are Larrea tridentata to treat foot odor and three species of Lamiaceae, Monarda citriodora, Hedemoa drummnodii and Poliomintha longiflora, whose dry leaves and branches are put under the pillow at night to reduce the effects of insomnia.Monarda citriodora is also used to treat wounds and skin infections, regulate body temperature and prevent against diseases of the respiratory system.Hedeoma drummondii is used to treat infections and sore throats (Appendix A).

Food
The edible category was the third most common plant exploitation in Iturbide with 87 species (45 native and 42 exotic species; Appendix A), a considerable number with respect to other ethnobotanical works [3,6].Most consumed plants are herbaceous (fortyeight species), followed by trees (twenty-one), shrubs (fourteen) and succulents (four).The parts of the plant with the greatest use are the fruits followed by leaves, seeds, roots and flowers.The most frequently consumed fruits belong to introduced species such as Mangifera indica, Ananas comosus, Citrullus lanatus, Cucumis melo, Cucurbita ficifolia, Ficus carica, Malus domestica, Prunus spp.and Citrus spp.The fruits of several common native taxa are also used, including Celtis pallida, Carica papaya, Cucurbita moschata, Persea americana and Physalis philadelphica.Several of these species are widely used as food and are also traded in food markets in Mexico [9,10,20], as well as in many other parts of the world.
Many of the fruit trees that are commonly consumed in northeastern Mexico [10,13,[25][26][27]] are part of relatively large gardens, which also contain various applications, such as providing shade, beauty and food.This pattern is observed in Iturbide where fruit trees such as Punica granatum, Prunus persica, Malus domestica, Citrus limon, Ficus carica, Persea americana and Eriobotrya japonica are common, and all species are exotic (Appendix A).
Other taxa with an edible exploitation are Apium graveolens, Spinacea oleracea, Coriandrum sativum, Origanum mejorana and Petroselinum crispum; similar uses have been reported in Italy [71].The leaves of two exotic taxa are frequently used raw as ingredients in salads or are cooked with other species Portulaca mundula (verdolaga) and P. oleracea.P. mundula is very common in Iturbide where it grows in abandoned farm fields and on sidewalks and roadsides.P. oleracea is considered a "medicinal food" due to its richness in omega-3 polyunsaturated fatty acids [72].Rorippa officinale (berro) grows in urban riparian systems and is consumed raw or cooked.It is suggested that its consumption can potentially reduce the probability to get cancer [73] due to its antioxidant activity [74].
Seeds are the third most commonly consumed plant part in Iturbide as food.The most important seed-producing species in the area are Phaseolus vulgaris (beans) and Zea mays (corn).These important food products are part of Mexican diets nation-wide, which have been cultivated and consumed since pre-Hispanic times [75].The bean, of Mesoamerican origin [76], is considered the most important domesticated legume in America, and together with Zea and Cucurbita constitutes the widespread food triad of the Mesoamerican culture.Phaseolus vulgaris is currently distributed throughout the globe, occupying other cultural roles; for example, in the Republic of Benin, it also has religious, forage and medicinal uses, the medicinal of which is derived from the leaves and seeds [77].In Morocco, Zea mays is also commonly used as a medicinal species since this species has been popular for curing diseases of the genitourinary system [78].
The seeds of Pinus cembroides are commonly used as food and as an ingredient in various regional candies.Historically, the seeds of pinyon pine (piñonero) have been used by indigenous tribes of the southern USA and northern Mexico.They are rich in protein, low in starch and contain seven of the nine essential amino acids; they are especially rich in cystine and tryptophan [79].
Other introduced taxa whose seeds are widely used as a complementary part of the diet belong to the Leguminosae and Poaceae families.Lens culinaris, Pisum sativum, Cicer arietinum and Avena sativa have been historically used as food [80], and they are widely consumed around the world [81,82].These seeds function as nutraceuticals, e.g., A. sativa, which contains several groups of psychoactive phytochemicals that have been shown to improve cognitive function [83].
In addition to seeds, the roots of several taxa are used in meal preparation, especially Solanum tuberosum (papa), Ipomoea batas (camote), Pachyrhizus erosus (jícama) and Daucus carota (zanahoria).There are several Neotropical legumes with edible roots including Vigna, Pediomelum, Apios and Pachyrhizus.Of these, only P. erosus, a species native to Mexico, is widely cultivated in gardens or for export.It is cultivated throughout Mesoamerica, with a strong introduction in southeast Asia [84].The potato Solanum tuberosum is an important food for the people of Iturbide; it is grown, but is mainly bought in stores and supermarkets.Two native root species are used to make alcoholic beverages: Dasylirion and Agave.In addition, the sap of Agave americana is widely harnessed in Mexico for the extraction of "agua miel" (honey water, raw) or syrup or honey (cooked [85]).Dasylirion is utilized for the manufacture of "sotol" (alcoholic beverage) and its leaves in many parts of Mexico are used for making handicrafts; in the specific case of Rarámuri women for crafting baskets [86].
Within the Cactaceae family, the flowers of two native species of Yucca, Y. treculeana and Y. filifera, are collected seasonally and cooked with eggs to increase the flower's protein content [87].These are also cooked with chili, tomato and onion to prepare a classic regional dish from the northeast of the country [25][26][27].The stems of the native Echinocactus platyacanthus (biznaga burra) are cooked with white and brown sugar to make crystallized candies; this plant also has ornamental and medicinal uses [88] and serves as fodder for goats [25][26][27].These practices are currently prohibited and regulated by Mexican legislation (NOM-059-SEMARNAT-2010).The stems of Opuntia are widely utilized for food or forage.Opunita ficus-indica is a cactus of cultural and economic importance due to its multiplicity of uses, typical of its long history of domestication [89].Many other Opuntia species produce sweet fruits (tunas) which are sold in markets throughout Mexico and worldwide [90].

Forage
Given that cattle raising and farming are common occupations in Iturbide, ranchers cultivate or collect forage to feed domestic livestock instead of purchasing it.Forage almost always consists of native plants when livestock is grazed in open areas, compared with a mixed diet of native and exotic species when livestock are kept within town limits.
We registered at least 30 forage taxa where the consumed material consists mainly of leaves and fruits.Several Cucurbitaceae including Cucurbita mochata, C. pepo, C. ficifolia, Cirtullus lanatus, Cucumis melo and C. anguria are utilized for food; also, the dry leaves and fruit peels of them are given to the cattle as fodder, and the same practices are carried out in Yucatán, Mexico (Cucunis anguria, common name: meloncillo [91].Another example is the use of two cultivated species of Cucurbita (C.pepo and C. mochacta), which are an important part of traditional farming polyculture systems called milpas (the milpa is a farming system made up of the so-called triad: corn, beans and squash).These species help control erosion and maintain moisture by limiting solar penetration through the canopy and reducing the growth of weeds.The most common way to feed livestock is after harvesting the fruit when it is common to introduce directly (cows, pigs, sheep or goats) to feed on plant debris.
Several Poaceae, such as Sorghum bicolor, S. halepense and Bouteloua curtipendula, are among the most common forage species used to feed cattle.Sorghum halepense has become a pest species in both natural and agricultural areas and due to its abundance, it is often used as forage in Iturbide.It is considered the sixth weed with the highest rate of invasion to different crops in more than 50 countries, affecting millions of hectares [92].In Iturbide, this species is not a pest since the climate is not suitable for its development.Other forage species are Carya illinoinensis and Juglans major, which are collected after falling from trees and given to cattle.On the other hand, taxa frequently found in abandoned farmlands and used as grazing areas are Chenopodium ambrosioides and Amaranthus palmeri (both Amaranthaceae), Helianthus annuus and Taraxacum officinale (both Asteraceae), Turnera diffusa (Turneraceae), Acalypha hederacea (Euphorbiaceae) and Arachis hypogaea (Fabaceae).
Other multipurpose shrubs are widely used also as forage.The leaves of Rhus virens, Calliandra conferta, Prosopis glandulosa and Vachellia farnesiana constitute an important part of the diet of domestic animals in the region.The dry or fleshy fruits of several native shrubs and trees such as Cordia boissieri, Diospyros palmeri, Quercus virginiana, Quercus canbyi, Quercus polymorpha, Prosopis glandulosa and Vachellia farnesiana (Appendix A) are used as seasonal forage.The fruits of other taxa such as Diospyros spp.are used in similar ways in Ethiopia [93].The acorns from Quercus spp.are used as food in Slovakia [94], and at least seven other species of Cordia have edible fruits and are utilized in the same way in Mexico [95].Two species of Cactaceae, that are important in the diet of cattle, are the native Opuntia ficus-indica and O. lindheimeri.Both are cut with a machete and their thorns are scorched to provide easy, efficient, cheap and nutritious livestock feed.Opuntia spp.are extremely useful livestock forage, providing digestible energy, vitamins and water; although they are mainly used for cattle, this species is also used as forage for pigs.

Construction and Fuel
Of the 30 taxa ethnobotany harnessed for construction, 80% are trees.A total of 27 of these species are native, with the exception of Cupressus lousitanica, C. sempervirens and Thuja occidentalis.Only four shrub species, Rhus virens, R. trilobata, Agave americana and A. aff.scabra, are used for construction.The wood of the first two species is mainly used to make tools for use in the home or for agricultural activities such as handles for brooms, machetes, rakes and hoes.The huge, dried peduncles (called quiote) of Agave inflorescences are used as gates on rural properties, livestock guards and clothesline supports.Since the houses and buildings in Iturbide are entirely made of concrete, and the gas is utilized as a heat source, wood is used mainly to build storage rooms, columns and ceilings for rest rooms, corrals and chairs.In northern Mexico, wood is stored to be used as fuel for barbecuing and to heat water for bathing.Wood from conifers (e.g., Pinus, Cupressus, Juniperus and Thuja), Fabaceae (Prosopis and Vachellia) and oak (Quercus) is the most frequently used as a heat source due to their hardness and durability.In Turkey, the wood of conifers and oaks such as Cupresus, Juniperus, Pinus and Quercus are used also as firewood and to make fences [96].The wood of Helietta parvifolia is very hard, durable and resistant to pests, which makes it excellent for use as fence posts that last up to 20 years [25,27].Prosopis laevigata and Vachellia farnesiana are among the 33 multipurpose species; their branches are used for fuelwood and fodder.The stems of Fouquieria splendens are cut, allowed to dry for several weeks and used to make pens for chickens or pigs; some species of this genus also have ornamental uses because of the beauty of their flowers.DNA sequencing of coprolites has shown that our prehistoric ancestors also consumed Fouquieria plants [97].The wood of Carya is used to make chairs, tables and benches.Its wood is excellent for use in tool handles because of its strength and shock resistance.This species is considered the most important nut tree native to North America.Its nuts are also a high-quality food source due to their high protein and fat contents.

Fibers
The exploitation of natural fibers has decreased dramatically in northeastern Mexico.Interviewees in Iturbide noted that it is not economically lucrative to sell goods made from natural fibers.Very few people work with plant fibers as a permanent job, but those who do use Agave lechuguilla, A. americana, Yucca carnerosana and less commonly, Hechtia podantha.The fiber collection and handling process remain the same as it was 50 years ago: (1) travel to locate and collect the plant, (2) bundle it, (3) use a mule or donkey to transport it, (4) extract the fiber with relatively artisanal instruments and (5) dry it to sell the fiber.

Live Fences
The construction of living fences in rural areas of northern [25,27] and southern [98] Mexico is common and has several objectives.Live fences serve as a barrier to natural elements and prevent entry to private property.The utilization of live fences is less expensive than the construction of block and cement fences, and it contributes to the beautification of the property.Due to their large size, uniform structure and durable leaves and thorns, the succulent species of the Asparagaceae, Cactaceae and Fouqueriaceae families are the most frequently used as live fences.The most used taxa in Iturbide are Mytrillocactus geometrizans, Agave americana, Yucca filifera, Y. treculeana and Fouquieria spelendens.The rich diversity of columnar cacti used as living fences is manifested in the south-central region of southern Mexico, where at least 14 taxa of cacti are exploited as components of living fences: Escontria chiotilla, Myrtillocactus geometrizans, M. schenkii, Pachycereus hollianus, Polaskia chende, P. chichipe, Stenocereus griseus, S. stellatus, S. treleasi, S. fricii, S. queretaroensis, S. quevedonis, S. beneckeiand and S. satnaleyii [99].The light green and yellow-bordered leaves of A. americana var.americana can reach up to 2.5 m in length and their scape (peduncle) can measure up to 4.5 m in height with extremely showy inflorescences in yellow panicles that attract multiple pollinators.Agave americana is also cultivated in Ecuador as a live fence to delimit land for grazing and farming [97].The flowers of this and other species of Agave are eaten cooked, including A. salmiana and A. mapisaga (called "gualumbos"); both species are two of the most commercialized flowers with the largest number of ways of cooking in popular cuisine of Otomí origin in the center of Mexico (Pachuca, Hidalgo [100]).
When live fences are constructed by planting Yucca plants directly adjacent to one another, they form a practically insurmountable barrier.Their resistant stems and thorny, leathery leaves cannot be easily broken by domestic cattle, and they reach up to 4 m in height.In addition, their flowers are edible and provide delicious seasonal food, which is also consumed in the center of the country in the state of Hidalgo [100].In drier areas of Iturbide, dried stems from Fouquieria splendens are widely used as barriers, for instance, to fence goats and chickens.

Dye
Natural dyes obtained from plants have been widely used in Mexico since the pre-Hispanic era.Indigenous cultures in the western United States have used various plant species as dyes [98], several of which are also found in Iturbide, including Arundo donax, Cucumis melo, Gutierrezia sarothrae, Juglans major, Junieprus deppeana, Larrea trdientata, Opuntia engelmanii, Phaselus vulgaris, Prunus persica, Taraxacum officinale and Zea mays.
In Iturbide, we have registered the use of five species with dyeing properties (Appendix A).The leaves, branches and fruits of species of Juglandaceae (Carya and Juglans) are boiled in water to create black or dark brown dye used to color hair.In eastern North America, Juglans cinerea is used as a dye, but also in construction as veneer, wood carvings, furniture and cabinetry [101].The ripe and raw fruits of Hylocereus undatus (Cactaceae) and Morus celtidifolia (Moraceae) provide intense bright red and dark purple colors of great beauty which are used directly or boiled in water to create dye for clothes, tablecloths and fibers.Currently, in Iturbide, the use of these techniques is sporadic and practiced by very few people, especially older adults from neighboring towns who continue practicing artisan staining methods.The betacyanins extracted from the fruit of Hylocereus polyrhizus are used as a natural colorant in the manufacture of traditional ice cream; its application causes color changes in the raw material, similar to the artificial colorant (E-162), having greater acceptability than the artificial colorant [102].

Roof
Dry leaves of Arecaceae species, such as Washingtonia and Brahea, and stems of Poaceae, such as Bambusa and Arundo, are excellent elements for making roofs.The leaves are intertwined or spliced one on top of the other and tied; the large interwoven surface that the leaves provide creates an effective barrier against sun, wind and rain.The stems of the grasses Bambusa and Arundo are cut to a homogeneous size and tied with twine to create roof panels.Although these are more fragile and less resistant to inclement weather, they are common in many of Iturbide's houses.This custom extends in the northwestern region of Mexico (Sonora), where, in addition to roofing houses, brooms are made.Their trunks (Bambusa) are also used for construction, and the fruit, the palm heart for food [103].

Quantitative Ethnobotanical Indices (IFC, UVI, FL)
Nowadays, the harnessed botanical taxa and the importance that people give to the medicinal properties are relevant factors to determine the ethnobotanical value of the regional flora [1,[4][5][6]13,20,24,55].According to the number of uses recorded for the different ailments, the highest IFC values were obtained for the respiratory (0.92), genitourinary (0.91), ophthalmic (0.90), digestive (0.89) and nervous (0.88) systems (Table 3).These systems represent the main health problems recognized by the World Health Organization (WHO [60]), as well as in research on the documentation of traditional medicine [1,2,7].Among the taxa that had the most mentions to heal respiratory illnesses were those from the families Lamiaceae, (Ocimum basilicum, Mentha piperita and Monarda citriodora), Asteraceae (Tagetes lucida), Liliaceae (Allium sativa) and Rutaceae (Citrus limon).These taxonomic families are reported for other traditional peoples in different parts of the world, e.g., in the Himalayas, Amazon and Australia.This is because plant families share common biochemistry (chemosystematics), which helps us understand traditional ethnobotanical knowledge around the world [104].
Few species were cited for the treatment of genitourinary and circulatory diseases, but those seemed to be particularly effective, especially Turnera difussa, Eryngium heterophyllum and Equisetum laevigatum.The most commonly mentioned species included Eryngium heterophyllum, which has proven to be an excellent remedy for high cholesterol levels [105], and the multipurpose medicinal species Petroselinum crispum, which is used as a diuretic, carminative, gastronomic agent and anti-inflammatory; these properties of the plant have been corroborated in formal studies [106].Moreover, this species is used to treat amenorrhea, cardiac disease, gastrointestinal disorder, hypertension, urinary disease, otitis, nasal congestion, diabetes and several dermal diseases.It is worth noting that, although there are only three species used for the cure of ophthalmic ailments, Matricaria recutita, Echeveria simulans and Sedum palmeri, they are invariably used for that particular purpose.Although the IFC value for the gastrointestinal system ranked fourth, it is almost quantitatively equal to the respiratory, genitourinary and ophthalmic systems.
The Use Value Index (UVI) is interpreted as the potential use of a particular species that is used to cure or counteract a specific ailment.Therefore, higher values determine the frequency of medicinal species [13].In our study, it is interesting to note that the highest UVI values were obtained for exotic species, which reflects the importance of their inclusion in the traditional medicine of Iturbide residents.The species in order of descending importance are Lepidium peruvianum (3), Ocimum basilicum (2.4), Rosmarinus officinale (2.29), Mentha piperita (2.25), Cinnamomum verna (2.06) and Plectranthus coleoides (2, Table 4).The native species with the greatest UVI values were Conyza filaginoides (2), Psidium guajava (1.86) and Zea mays (1.72).All interviewees mentioned that Lepidium peruvianum relieves gastrointestinal, endocrine (prostate) and urinary (kidney) ailments.The other mentioned species, especially those belonging to the Lamiaceae family, are frequently cited in the literature as having medicinal properties, especially to treat ailments of the respiratory system [107].A total of seventeen medicinal taxa obtained 100% of Fidelity Level.These plants were the most commonly mentioned to heal a specific type of disease.A total of thirteen medicinal taxa with the highest Fidelity Level are native and four are exotic, with the families Asteraceae [108] and Lamiaceae [107] being the most well-represented (Table 5).Moreover, at least eleven families are used for medicinal purposes (Appendix A), and the fact that almost all species used have a fidelity level of 100% indicates that these species are quite well-known for their healing properties.The taxa with the highest number of mentions were Equisetum laevigatum, Turnera diffusa, Artemisia ludoviciana, Flouresnia cernua, Ficus carica and Verbena canescens.
Table 5.The highest values obtained in the Fidelity Label (FL%) index determine the ethnobotanical species with greater relevance in the medicinal categories.Its weighting is given from the number of informants who mention the species i to cure a specific disease (Ip), with respect to the frequency of mention of the mentioned species (Iu).

Conclusions
Iturbide presents a high biocultural diversity of ethnobotanical taxa.This diversity is made up of native and exotic species; in general, it is very similar to that of other nearby areas with similar climate, relief and vegetation in the state of Nuevo León [13,[24][25][26][27], for the northeast zone [59], the northern macro-region [48,86] and in general, for arid and semiarid zones in Mexico [50].In addition, this diversity at the local level has a relationship with the variation in altitude within Iturbide, being possible to find several types of vegetation, including scrub vegetation at lower altitudes and coniferous forests at higher altitudes, forming an ecotone between these vegetations.This heterogeneity means that there are no differences in its diversity, even concerning pine-oak forest sites [49].
Comparing the level of knowledge and use of ethnobotany in Iturbide and the significance with respect to other sites shown in the investigation, we can conclude that there is a strong cultural attachment to native and exotic flora; it is complete with a multifunctional roll.The traditional ethnobotanical knowledge of the local inhabitants of the Iturbide mestizo region is highly important.Our results contribute to the ethnobotanical biocultural diversity in northeast Mexico and in general in the north of the country.We maintain that the knowledge and practices of plants used in rural mestizo regions, arid and semiarid zones as well as transition zones are as relevant as those rooted in localities of indigenous tradition and high biological diversity.
In the study site, the inclusion of exotic species concerning the native ones is important and this has also been reported in other localities of the region [13].This pattern demonstrates the learning capacity of local communities in the face of the entry of new plant species, creating new knowledge and taking advantage of them and even promoting a phenomenon of co-evolution.
Both native and exotic plants play a multifunctional role, taking advantage of various anthropocentric categories and highlighting the ornamental use.Regarding the ornamental flora, it shows the abundance of species for this purpose, which are cultivated in public parks and private gardens.This phenomenon has been documented in other localities [13], and its relevance is associated with the population's interest in mitigating solar radiation, enhancing the landscape beauty of arid and semiarid areas, contributing significantly to the reduction in stress caused by climate change and improving physical and emotional human health and well-being [18].
Despite showing cultural changes, where medicinal and food plants go into the background, after being more relevant for their role in primary human functions, they continue to be important and are used to cure a series of diseases.Interestingly, species with higher use values (UVI) are introduced, further promoting these cultural changes and meeting new health needs of local residents.However, the level of fidelity (FL) maintains certain native species to address problems with the digestive and respiratory systems.Regarding edible plants, these are seasonal and continue to be included in the local gastronomy.All this shows that traditional knowledge, despite undergoing adaptations, continues to prevail and is transmitted from generation to generation.However, they are at risk from the increasing loss of the younger population.

Figure 2 .
Figure 2. Ethnobotanical work in Iturbide, Nuevo León, Mexico.NOTE: Prior and informed consent was obtained during the application of the interviews for the taking of photographs, as well as the authorization of informants photographed for publication [42,43].(a) Local square of the municipality of Iturbide, (b,c) work team during the application of the interviews, (d) sale of ornamental plants through the streets of various colonies of Iturbide, (e) caring for ornamental plants in private gardens by residents, (f) taking photographs of ornamental plants for their taxonomic identification, (g) kitchen table used as a support to cut fruits, vegetables and meats for food preparation.

Figure 2 .
Figure 2. Ethnobotanical work in Iturbide, Nuevo León, Mexico.NOTE: Prior and informed consent was obtained during the application of the interviews for the taking of photographs, as well as the authorization of informants photographed for publication [42,43].(a) Local square of the municipality of Iturbide, (b,c) work team during the application of the interviews, (d) sale of ornamental plants through the streets of various colonies of Iturbide, (e) caring for ornamental plants in private gardens by residents, (f) taking photographs of ornamental plants for their taxonomic identification, (g) kitchen table used as a support to cut fruits, vegetables and meats for food preparation.

Sustainability 2022, 14 , 12751 9 of 61 Figure 3 .
Figure 3. (a) Best represented families, in terms of genera (in yellow) and species (in green), of ethnobotanical importance in the study site (Iturbide, Nuevo León, Mexico), (b) main ethnobotanical uses of plants registered in the flora, according to the interviewed, (c) number of mentions of the plant part used to heal ills and diseases by the interviewed individuals and (d) identified methods by the interviewed for the medical use of the sampled species in Iturbide, Nuevo León.

Figure 3 .
Figure 3. (a) Best represented families, in terms of genera (in yellow) and species (in green), of ethnobotanical importance in the study site (Iturbide, Nuevo León, Mexico), (b) main ethnobotanical uses of plants registered in the flora, according to the interviewed, (c) number of mentions of the plant part used to heal ills and diseases by the interviewed individuals and (d) identified methods by the interviewed for the medical use of the sampled species in Iturbide, Nuevo León.

Table 1 .
Richness of ethnobotanical taxa known and used by residents of Iturbide, Nuevo León, Mexico.These plants were separated between eudicots, monocots, conifers and allies and ferns and allies.

Table 3 .
The diseases mentioned by Iturbide's informants were classified into 10 categories.Each category presents a variation in the frequency of mention (nt); therefore, there are different values in the Informant Consensus Factor (IFC) index.

Table 4 .
Plant species with medicinal uses that obtained the highest UVI values in Iturbide, Nuevo León, Mexico.The letters 'E' and 'N' refer to the Exotic and Native origin of each species, respectively.