Floristic Study and Conservation Status of Takhte-Sartashtak Tourist Area in Kerman, Iran

نوع مقاله : مقاله پژوهشی

نویسندگان

1 Ph.D. Student, Department of Plant Sciences, Faculty of Biological Sciences, Kharazmi University, Tehran, Iran

2 Professor, Department of Plant Sciences, Faculty of Biological Sciences, Kharazmi University, Tehran, Iran

3 Associate Professor, Department of Biology, Faculty of Science, Shahid Bahonar University of Kerman, Kerman, Iran

چکیده

Due to the high climatic diversity, Iran has a very rich flora, 20 to 25% of which is endemic to Iran. Of the 34 centers of endemism in the world, five centers are located in Iran; most of them belong to high and mountainous areas. Flora, plant diversity and conservation status of the tourism area of Takhte-Sartashtak in the southeast of Iran have been studied. The area is located in the southwest of Kerman province. Its average altitude is 3600 m above sea level, the range of the longitude is 57˚ 6ʹ to 57˚ 14ʹ and latitude is 29˚ 16ʹ to 29˚ 23ʹ. This area is mountainous and a part of the Irano-Turanian region. Nearly, all wild vascular plants species of the area were collected and identified. Life form, chorotype, phenology, and medicinal use were determined. A total of 306 plant species of 49 families with 195 genera were determined. Asteraceae with 51 species and Astragalus with 13 species were the largest family and genus respectively. There are 60 (19.6%) endemic and 46 (15.03%) rare identified plant taxa in this area. Because of various climatic conditions, different altitudes, and the creation of micro and macro-climates in the region, some species with various natures were seen. The conservation status of all plant species of the area in the world was determined using GeoCat online software; 191 (62.42%) plant species were identified as threatened, of which, 24 (7.85%) species are classified as Critically Endangered (CR), 114 (37.25%) Endangered (EN), and 53 (17.32%) Vulnerable (VU).

کلیدواژه‌ها

موضوعات


عنوان مقاله [English]

Floristic Study and Conservation Status of Takhte-Sartashtak Tourist Area in Kerman, Iran

نویسندگان [English]

  • Leila Malekpour Zadeh 1
  • Farrokh Ghahremani Nejad 2
  • Seyed Mansour Mir Tadzadini 3
1 Ph.D. Student, Department of Plant Sciences, Faculty of Biological Sciences, Kharazmi University, Tehran, Iran
2 Professor, Department of Plant Sciences, Faculty of Biological Sciences, Kharazmi University, Tehran, Iran
3 Associate Professor, Department of Biology, Faculty of Science, Shahid Bahonar University of Kerman, Kerman, Iran
چکیده [English]

Due to the high climatic diversity, Iran has a very rich flora, 20 to 25% of which is endemic to Iran. Of the 34 centers of endemism in the world, five centers are located in Iran; most of them belong to high and mountainous areas. Flora, plant diversity and conservation status of the tourism area of Takhte-Sartashtak in the southeast of Iran have been studied. The area is located in the southwest of Kerman province. Its average altitude is 3600 m above sea level, the range of the longitude is 57˚ 6ʹ to 57˚ 14ʹ and latitude is 29˚ 16ʹ to 29˚ 23ʹ. This area is mountainous and a part of the Irano-Turanian region. Nearly, all wild vascular plants species of the area were collected and identified. Life form, chorotype, phenology, and medicinal use were determined. A total of 306 plant species of 49 families with 195 genera were determined. Asteraceae with 51 species and Astragalus with 13 species were the largest family and genus respectively. There are 60 (19.6%) endemic and 46 (15.03%) rare identified plant taxa in this area. Because of various climatic conditions, different altitudes, and the creation of micro and macro-climates in the region, some species with various natures were seen. The conservation status of all plant species of the area in the world was determined using GeoCat online software; 191 (62.42%) plant species were identified as threatened, of which, 24 (7.85%) species are classified as Critically Endangered (CR), 114 (37.25%) Endangered (EN), and 53 (17.32%) Vulnerable (VU).

کلیدواژه‌ها [English]

  • Flora
  • Diversity
  • Protected area
  • Tourist Attraction
  • Iran

Introduction

Iran encompasses a vast and diverse area of South West Asia, this area has a rich flora and characteristic elements related to its major phytochoria, i.e., Irano-Turanian, Euxine-Hyrcanian, and Saharo-Sindian (Mousavi et al., 2020). The high diversity of vegetation in Iran is primarily due to its climatic diversity. Investigation and determination of the vegetation and flora of Iran are one of the goals of plant scientists and botanists. However, some parts of the country have not been studied in detail.

 The results obtained from around the world have shown that the rate of extinction and extinction of plant species is much faster than expected (Pimm, et al., 1995). According to the IUCN (International Union for Conservation of Nature), many plant species in the world have medicinal uses (Bentley, 2010), of which 20% are endangered (Ross, 2005). Fortunately, various ways to conserve and use plants properly have been studied (Larsen & Olsen, 2007; Uprety et al., 2012). One of the most important ways to protect plants is to first list the plant species and then check the status of their protection, which is certainly the best way to list floristic research. Therefore, conducting floristic research and using identification keys can be very useful and valuable (Majnounian, 1998; Ghahreman & Attar, 1999; Campbell, et al., 2003).

Many floristic works have been done in various parts of Iran; as examples, some floristic study in Lissar and Sorkhabad protected areas (Moghanloo et al., 2023; Ghahremaninejad et al., 2012), in Damilrli Mountains (Mahmoodi et al., 2022), in Bazarjan Region (Mohammadi et al., 2021), in Khabr National Park & Rouchoun Wildlife Refuge (Edmondson et al., 1980; Irannejad Parizi, et al., 2002), in Hezar Mountain (Rajaee, et al., 2011), in Sabalan altitudes (Alizadeh et al., 2024), in Riseh and Paghaleh areas (Saberi, et al., 2013), in Hanza Kooh (Payandeh, et al., 2015), in Raas Kooh area (Malekpourzadeh, et al., 2015), etc. The high number of plant species and the percentage of endemic and rare species indicate high species diversity in the region. However, there are many other areas where there is less or no work. It is worth mentioning that, by doing botanical studies in each region and comparing with past studies, the process of natural changes in the ecosystem can be studied and if there were any possible destruction by humans, suggested ways to control the ecosystem and finally, by defining the vegetation of each region, one can take a step toward determining the flora of Iran and the world, which has long been a concern for botanists and other scientists.

Kerman is the largest province of Iran. In of phytogeography, it is located in the Irano-Turanian region, which has two main parts, plain and mountainous (Zohari, 1973). Kerman province is geologically located in the central zone of Iran and in its eastern part it is connected with Lut Block which is a part of the eastern and southeastern zones of Iran. Kerman region is structurally divided into several structural units (Dimitrijevic, 1973). There are diverse types of cold, hot and temperate climates in different parts of this province. Given that the overall feature of Kerman province is desert, the rich flora of its mountainous regions holds significant ecological and ecosystem service importance. One of the high and mountainous areas of the province named "Takhte-Sartashtak".  This area, in addition to hosting nomadic tribes, attract a considerable number of tourists. The area of Takhte-Sartashtak has the basic capacity to set up a ski rink on grass and snow. The duration of snow for the ski resort depends on the amount of snowfall in the year, which has been different with some droughts in recent years. However, it can be said on average that the area is suitable for skiing for at least one month in terms of snow cover. This area is one of the most important tourist areas of the country with a natural tourism approach. Human interventions along with climate change threaten the species diversity of these regions. To preserve the diversity of plant species, efforts have been focused on conducting floristic studies in the Takhte-Sartashtak Mountainous area. Therefore, the main objective of this study is to compile a list of all plant species, including those that are threatened.

 

 Materials and Methods

Study area

Takhte-Sartashtak region is one of the summer regions and one of the tourist attractions in the heights of Hezar and Lalehzar Mountains, which attracts many tourists every year (Figure 1). The region in question is located in the southeast of Iran, near the cities of Rabar, Baft, and Jiroft; and in the southwest of Kerman province. The altitude range in the region is from 2300 to 3800 and the average is 3600 meters above sea level. The average rainfall is 360 mm and the temperature fluctuates between -15 and +26 degrees Celsius. Lalehzar and Hezar Mountains, surrounding areas of this region, are considered as a part of the Yazd-Kerman endemism center. It is noteworthy that out of nearly 34 endemism centers around the world, the study area is part of one endemism center and therefore is very significant (Iran Meteorological Organization, 2000-2016). The ombrothermic curve of Baft city during the statistical period of 2000-2016 shown in Figure 2 (Iran Meteorological Organization, 2017). The longitude range is from 57˚ 6ʹ to 57˚ 14ʹ and latitude range is from 29˚ 16ʹ to 29˚ 23ʹ and included almost 40,000 hectares.

 

 

Figure 1: The geographical location of the studied area along with the aerial photograph (scale: 1cm=400km), (Google Earth, 2019).

 

 

Figure 2:  Ombrothermic curve of Baft city during the statistical period of 2000-2016 (Iran Meteorological Organization, 2017).

 

Data collection

The study area was identified using a topographic map (scale 1: 250,000) and GPS (Global Positioning System), then its boundaries were determined (Geographical Organization of the Armed Forces, 2010). During three consecutive years growing seasons, 2017 to 2019, nearly all wild plants taxa in the mountainous and highlands of Takhte-Sartashtak and the surrounding areas, including Hanza, Bandar Hanza, Sarmashk, Roghan House, Glouchar, and Baghoyeh, were collected. After the fieldwork, all steps related to the preparation of herbarium specimens carried out at the botanical laboratory for the determination. A herbarium number was assigned to each sheet and all archived in Tehran Herbarium (T) at the Kharazmi University (Tehran) (herbarium acronyms follow Thiers 2024+). The scientific names of the plants were verified using "POWO" website. Collected plants were indentified by using Flora Iranica (Rechinger, 1963-2015), Flora of Turkey (Davis, 1965-1988), Flora of Iraq (Townsend, 1966-1985), Flora of Iran (Assadi,1989-2023; Ghahreman, 1984-2008), Iranian Astragalus literatures (Ghahremaninejad, 2004; Maassoumi, 1987-2006; Podlech & Zarre, 2013), Vegetatives of Iran (Mobayen, 1976-1996), Checklist of Iranian grasses (Bidarlord & Ghahremaninejad, 2022). The growth forms and chorotype (Raunkiaer, 1934; Majnounian, 1998) were identified for each plant taxa. The medicinal properties of the plants were determined based on local knowledge. Finally, a comprehensive list of wild plants in the area with related data provided. The conservation status of all plants in the area assessed using GeoCAT online software and data points from GBIF. GeoCAT is an open source, browser-based tool that performs rapid spatial analysis for Red List assessment. This analysis, espatially referenced to use primary occurrence data, focuses on two aspects of a taxon's geographic range: extent of occurrence (EOO) and area of occupation (AOO). These criteria form part of the IUCN Red List categories and criteria, and achieving them in a precise, consistent and reproducible manner has often been challenging. In a familiar Google Maps environment, GeoCAT users can combine data from multiple sources such as GBIF as well as user-generated event data quickly and easily. The output of GeoCAT for EOO and AOO is in square kilometers, with the occupied area calculated using a default cell width of 2 km, equivalent to a 4 km square grid cell. The IUCN Red List guidelines recommend a cell width of 2 km. This tool enables users to conduct geographic analysis of species distribution (GeoCat, 2024).

 

Results

306 species of vascular plants belonging to 195 genera and 49 families have been identified, which belong to two species of Equisetophyta, one species of Coniferophyta, and 303 species of Magnoliophyta (49 species of monocots angiosperms, and 254 species of dicots angiosperms). Asteraceae, Poaceae, Fabaceae, Lamiaceae & Apiaceae, Brassicaceae, Caryophyllaceae, and Boraginaceae are the eight largest families with subsequently 51 (16.66%), 26 (8.5%), 25 (8.17%), 19 and 19 (6.2%), 18 (5.9%), 15 (4.8%), and 14 (4.6%) species respectively. Astragalus (13 species), Euphorbia (seven species), Polygonum (six species), and Salvia (six species) were the first four major genera respectively. It is necessary to mention that the most abundant genus in this region, i.e. Astragalus, is the largest genus in Iran and the world (Ghahremaninejad et al., 2022). Most species belong to the region of Irano-Turanians (66.7%), but due to the presence of a variety of climates, plants with other chorotypes such as Euro-Siberian, the Sindian Desert, the Mediterranean, etc. are also present in the region. Life forms of the determined species were detected therophytes 108 species (35.3%), hemicryptophytes 76 (24.83%), chamaephytes 52 (17%), geophytes 44 (14.38%), phanerophytes 19 (6.2%), hydrophytes with 5 (1.63%), and parasites with 2 species (0.65%). Due to different climatic conditions and different altitudes and the creation of micro and macro climates in the region, some species are seen with diverse nature. There are 60 endemic species (19.6%), 46 rare species (15.03%), and 116 species (37.9%) with medicinal values in the study area.

The results obtained using GeoCat online software for the conservation status of studied area’s plants, showed that 191 (62.42%) species are threatened, that 24 (7.85%) plant species are classified as Critically Endangered (CR), 114 (37.25%) Endangered (EN), and 53 (17.32%) Vulnerable (VU). The number of plant species in other IUCN categories are 85 (27.78%) Near Threatened (NT), and 30 (9.8%) Data Deficient (DD). Botanical species names and their families, their voucher numbers, life forms, chorotypes, phenology status, IUCN status, endemic, rare, and mono-species taxa, medicinal uses, the altitude of vegetation place of each species, were determined and are shown in Table 1.

 

 

Table 1: Botanical names and their families, voucher numbers, life forms, chorotypes, phenology, IUCN status, medicinal uses, endemic, rare and monospecies plants, and the altitude of vegetation places of each plant species in the studied area.

Botanical Name and Family, (Voucher Number)

Life Form

Chorotype

Phenology

EOO/AOO

MU(+)/ En, R, Mo1

Altitude

(Equisetophyta)

 

 

 

 

 

 

Equisetaceae

 

 

 

 

 

 

Equisetum fluviatile L. (T18527)

G

IT-ES

k

LC/NT

 

D-J

Equisetum ramosissimum Desf. (T18528)

G

IT-ES

k

LC/NT

+

E

(Coniferophyta)

 

 

 

 

 

 

Cupressaceae

 

 

 

 

 

 

Juniperus excelsa M.Bieb. (T18507)

Ph

IT

k

LC/VU

+

C-G

(Magnoliophyta)

 

 

 

 

 

 

Amaranthaceae

 

 

 

 

 

 

Amaranthus chlorostachys Willd. (T18530)

T

IT

k

DD/DD

+

E

Amaranthus retroflexus L. (T18531)

T

Co

k

LC/NT

 

H-J

Chenopodium botrys L. (T18532)

T

IT-ES

e

LC/VU

+

H-J

Chenopodium foliosum Asch. (T18533)

T

IT-ES

a

LC/NT

 

D-M

Krascheninnikovia ceratoides (L.) Gueldenst. (T18534)

C

IT-ES

e

DD/DD

 

M

Noaea mucronata (Forssk.) Asch. & Schweinf. (T18535)

C

IT

f

LC/NT

 

M

Amaryllidaceae

 

 

 

 

 

 

Allium atroviolaceum Boiss. (T18728)

G

IT

n

LC/EN

+

D-I

Allium cathodicarpum Wendelbo (T18730)

G

IT

n

CR/CR

En

E-K

Allium lalesaricum Freyn. (T18729)

G

IT

n

DD/DD

En-R

H-O

Anacardiaceae

 

 

 

 

 

 

Pistacia atlantica Desf. (T18536)

Ph

IT

k

LC/VU

+

H-J

Apiaceae

 

 

 

 

 

 

Astrodaucus orientalis (L.) Drude (T18537)

Hc

IT-ES

d

LC/VU

 

E

Bunium cylindricum (Boiss. & Hohen.) Drude (T18538)

G

IT

b

LC/EN

+/En

A-B

Bunium persicum (Boiss.) B.Fedtsch. (T18541)

G

IT

j

LC/EN

+/En

I

Bupleurum exaltatum M.Bieb. (T18539)

G

IT

k

DD/DD

 

K-M

Carum carvi L. (T18540)

Hc

IT

k

LC/NT

En

L

Dorema aucheri Boiss. (T18542)

Hc

IT

b

VU/EN

+/En-R

J

Ducrosia assadii Alava (T18545)

Hc

IT-ES

k

DD/DD

En

C-E

Eryngium billardieri Delile. (T18543)

Hc

IT

k

CR/CR

+

H

Eryngium bungei Boiss. (T18544)

Hc

IT

k

LC/EN

+

G-J

Ferulago angulata (Schltdl.) Boiss. (T18500)

Hc

IT

k

LC/EN

+/En

H-J

Ferulago carduchorum Boiss. & Hausskn. (T18602)

Hc

IT

j

DD/DD

+

I

Levisticum officinale W.D.J.Koch (T18501)

G

IT-ES

o

LC/NT

+/Mo-En

J

Physospermum cornubiense (L.) DC. (T18502)

G

IT

k

LC/VU

+

E

Prangos cheilanthifolia Boiss. (T18546)

Hc

IT

b

LC/EN

+/En-R

B

Rhabdosciadium petiolare Boiss. & Hausskn. (T18547)

T

IT

d

CR/CR

En

F-J

Scandix pecten-veneris L. (T18548)

T

IT

b

LC/NT

 

D

Semenovia suffruticosa (Freyn & Bornm.) Manden. (T18551)

C

IT

n

LC/EN

En

M

Semenovia tragioides (Boiss.) Pimenov & V.N.Tikhom. (T18549)

T

IT

m

LC/EN

 

E

Torilis leptophylla (L.) Rchb.f. (T18550)

T

IT

b

LC/VU

 

C-E

Asteraceae

 

 

 

 

 

 

Achillea willhelmsii K.Koch (T18552)

C

IT-ES

j

DD/DD

+

A-J

Acroptilon repens (L.) DC. (T18553)

G

IT-ES

e

LC/VU

Mo

A-J

Aegopordon berardioides Boiss. (T18554)

Hc

IT

m

LC/EN

Mo-En

A-J

Anthemis odontostephana Boiss. (T18555)

T

IT

b

LC/EN

 

D

Arctium lappa L. (T18556)

Hc

IT

d

LC/NT

+

E

Artemisia aucheri Boiss. (T18525)

C

IT

f

LC/EN

+/En

M

Artemisia persica Boiss. (T18526)

C

IT

f

LC/VU

+

H-M

Artemisia sieberi Besser (T18557)

C

IT

f

LC/VU

+

A-B

Carduus pycnocephalus L. (T18558)

T

IT-ES

c

LC/NT

 

A

Carthamus oxyacantha M.Bieb. (T18559)

T

IT

n

DD/DD

+

A

Centaurea iberica Trevir. ex Spreng. (T18560)

Hc

IT-ES

g

LC/NT

+

A-B

Centaurea virgata Lam. (T18562)

Hc

IT

k

LC/VU

 

F-L

Cichorium intybus L. (T18564)

T

IT

e

LC/NT

+

C-G

Cirsium congestum Fisch. & C.A.Mey. ex DC. (T18567)

T

IT

n

NT/EN

 

H-O

Cirsium rhizocephalum C.A.Mey. (T18579)

Hc

IT

f

LC/EN

 

N

Cirsium vulgare (Savi) Ten. (T18601)

Hc

IT

o

LC/NT

 

B-C

Conyza canadensis (L.) Cronquist (T18566)

T

Co

n

LC/NT

 

H-L

Cousinia calcitrapa Boiss. (T18582)

Hc

IT

k

LC/EN

En

D-J

Cousinia multiloba DC. (T18568)

Hc

IT

n

LC/EN

 

O

Cousinia quisarensis Rech.f. (T18590)

Hc

IT

b

DD/DD

 

H-L

Crepis pulchra L. (T18569)

T

IT

n

LC/NT

 

D-O

Crepis sancta (L.) Bornm. (T18570)

T

IT

n

LC/NT

+

A-B

Echinops ceratophorus Boiss. (T18571)

Hc

IT

m

LC/EN

En-R

K

Echinops lalesarensis Bornm. (T18572)

Hc

IT-ES

m

VU/EN

En-R

K

Erigeron acer f. acer (T18573)

C

IT

f

LC/NT

En

H-N

Filago hurdwarica (Wall. ex DC.) Wagenitz (T18574)

T

IT

n

LC/EN

 

H-J

Gnaphalium luteoalbum L. (T18576)

T

IT

b

LC/VU

 

A-J

Gundelia tournefortii L. (T18577)

G

IT

j

LC/NT

+

A-D

Hertia intermedia (Boiss.) Kuntze (T18503)

C

IT

k

LC/EN

+

A-D

Lactuca serriola L. (T18563)

Hc

IT-ES

k

LC/NT

 

E

Onopordum leptolepis DC. (T18580)

T

IT

m

LC/EN

+

H-I

Outreya carduiformis Jaub. & Spach (T18581)

T

IT

m

CR/CR

En-Mo

H-O

Picris strigosa M.Bieb. (T18583)

Hc

IT

f

LC/EN

 

H-N

Pseudognaphalium luteoalbum (L.) Hilliard & B.L.Burtt (T18584)

T

IT

j

LC/NT

 

K

Psychrogeton nigromontanus (Boiss. & Buhse) Griersson (T18565)

T

IT

n

LC/EN

 

H-J

Pulicaria gnaphalodes (Vent.) Boiss. (T18585)

T

IT

j

LC/EN

+

K

Scariola orientalis (Boiss.) Sojak (T18586)

C

IT

n

LC/EN

+

H-K

Scorzonera intricata Boiss. (T18587)

Hc

IT

m

VU/EN

+/En

C-D

Scorzonera raddeana C.Winkl. (T18591)

G

IT

b

LC/EN

 

A-B

Senecio glaucus L. (T18592)

T

IT-ES-SS-M

a

LC/VU

+/En

H-N

Sonchus asper (L.) Hill (T18593)

T

IT-ES-SS

e

LC/NT

+

E

Sonchus maritimus L. (T18594)

T

IT-ES

k

LC/VU

 

F

Sonchus tenerrimus L. (T18595)

T

IT-ES

d

LC/NT

 

E

Tanacetum parthenium (L.) Sch.Bip. (T18504)

C

Co

e

LC/NT

+

H-J

Taraxacum montanum (C.A.Mey.) DC. (T18596)

G

IT

d

CR/CR

 

E-J

Taraxacum pseudocalocephalum Soest (T18597)

G

IT

a

LC/EN

 

E-J

Taraxacum syriacum Boiss. (T18598)

G

IT

a

LC/EN

+

C-E

Tragopogon caricifolius Boiss. (T18599)

Hc

IT

b

LC/EN

En-R

A-D

Tragopogon graminifolius DC. (T18600)

Hc

IT-ES

n

LC/EN

 

A-E

Tripleurospermum disciforme (C.A.Mey.) Sch.Bip. (T18806)

C

IT

n

LC/EN

 

M

Varthemia persica DC. (T18505)

C

IT

n

LC/EN

+/En

H-K

Berberidaceae

 

 

 

 

 

 

Berberis integerrima Bunge (T18506)

Ph

IT

b

LC/VU

+

A-K

Boraginaceae

 

 

 

 

 

 

Anchusa ovata Lehm. (T18603)

T

IT

n

LC/VU

 

H-M

Arnebia euchroma (Royle) I.M.Johnst. (T18604)

Hc

IT

n

LC/VU

 

G-J

Asperugo procumbens L. (T18605)

T

IT-ES

b

LC/NT

Mo

H-K

Lappula microcarpa (Ledeb.) Gurke (T18606)

Hc

IT-SS

k

LC/EN

 

D-K

Lithospermum officinale L. (T18607)

G

IT-ES

c

LC/NT

+

C

Myosotis refracta Boiss. (T18608)

T

IT

m

LC/EN

 

L

Nonnea caspica G.Don (T18609)

T

IT-ES

j

CR/CR

+

M

Nonnea persica Boiss. (T18610)

Hc

IT

j

DD/DD

+

A-M

Onosma stenosiphon Boiss. (T18611)

Hc

IT

j

VU/EN

+/En-R

D-K

Paracaryum persicum Boiss. (T18612)

Hc

IT

b

NT/EN

En

D-K

Paracaryum rugulosum (DC.) Boiss. (T18613)

Hc

IT

b

LC/EN

 

C-K

Rochelia disperma (L.f.) K.Koch (T18614)

T

IT

k

LC/VU

 

N

Rochelia peduncularis Boiss. (T18615)

T

IT

b

LC/EN

 

D-E

Rochelia persica Bunge ex Boiss. (T18616)

T

IT

b

LC/EN

 

D-E

Brassicaceae

 

 

 

 

 

 

Alyssum iranicum Haussk. ex Baumg. (T18618)

Hc

IT

b

LC/EN

En

C

Alyssum linifolium Stephan ex Willd. (T18619)

T

IT-ES

b

LC/VU

 

D-E

Alyssum marginatum Steud. ex Boiss. (T18620)

T

IT

b

DD/DD

 

D-F

Alyssum scovitsianum Fisch. & C.A.Mey. (T18621)

T

IT-ES

b

DD/DD

+

B-C

Barbarea plantaginea DC. (T18622)

T

IT-ES

b

LC/EN

 

D-E

Camelina rumelica Velen. (T18624)

T

IT

b

LC/VU

 

C-F

Capsella bursa-pastoris (L.) Medk. (T18625)

T

IT

j

LC/NT

+

D-E

Cardaria draba (L.) Desv. (T18626)

T

IT-ES

j

LC/VU

Mo

D-E

Choriospora persica Boiss. (T18627)

T

IT

b

DD/DD

En

D-E

Choriospora tenella (Pall.) DC. (T18628)

T

IT-ES

b

DD/DD

 

D-E

Cithareloma lehmanii Bunge (T18629)

T

IT

b

DD/DD

 

C-F

Conringia orientalis (L.) C.Presl (T18630)

T

IT-ES

b

LC/VU

 

C-F

Descurainia sophia (L.) Webb ex Parntl (T18631)

T

IT-ES

b

LC/NT

+

A-F

Erysimum repandum L. (T18634)

T

IT-ES

b

LC/NT

 

D-E

Euclidium syriacum (L.) R.Br. (T18635)

T

IT

b

LC/NT

 

D-E

Graellsia saxifragifolia (DC.) Boiss. (T18636)

C

IT

k

LC/EN

 

E-F

Hirschfeldia incana (L.) Lagr.-Foss (T18623)

T

IT

b

LC/NT

 

L

Neslia apiculata Fisch., C.A.Mey. & Ave-Lall. (T18617)

C

IT

g

LC/VU

 

B-E

Campanulaceae

 

 

 

 

 

 

Campanula kermanica (Rech.f., Aellen & Esfand.) Rech.f. (T18638)

C

IT

j

VU/EN

+/En-R

D-K

Caprifoliaceae

 

 

 

 

 

 

Lonicera nummulariifolia Jaub. & Spach (T18639)

Ph

IT

e

LC/EN

 

E-F

Pterocephalus afghanicus Boiss. (T18640)

C

IT

b

CR/CR

 

D-E

Valerianella pumila (L.) DC. (T18641)

T

IT

b

LC/VU

 

C-E

Caryophyllaceae

 

 

 

 

 

 

Acanthophyllum glandulosum Bunge ex Boiss. (T18642)

C

IT

e

LC/EN

 

E-N

Acanthophyllum sordidum Bunge ex Boiss. (T18643)

C

IT

e

LC/EN

En-R

D-N

Buffonia mauritanica Murbeck (T18644)

T

IT

e

DD/DD

 

H-K

Cerastium inflatum Link ex Desf. (T18645)

T

IT

b

LC/EN

 

C-E

Dianthus crinitus Sm. (T18646)

C

IT

k

LC/VU

+/En

E-F

Holosteum glutinosum (M.Bieb.) Fisch. & C.A.Mey. (T18648)

T

IT

b

LC/VU

 

M-N

Lepyrodiclis holosteoides (C.A.Mey.) Fenzl ex Fisch. & C.A.Mey. (T18649)

T

IT

k

LC/VU

 

C-K

Minuartia meyeri (Boiss.) Bornm. (T18650)

T

IT

k

LC/EN

 

M-N

Silene conoidea L. (T18651)

T

Co

b

LC/NT

+

A-I

Silene dschuparensis Bornm. (T18652)

C

IT

j

EN/EN

En

E-N

Silene spergulifolia (Willd.) M.Bieb. (T18653)

C

IT-ES

j

LC/EN

+

C-G

Silene stapfii Melzh. (T18654)

C

IT

k

CR/CR

En-R

E-O

Silene viscosa (L.) Pers. (T18647)

C

IT

k

LC/NT

 

F-I

Spergularia diandra (Guss.) Heldr. (T18655)

T

IT-ES

j

LC/NT

 

M-N

Vaccaria oxyodonta Boiss. (T18656)

T

IT

b

LC/EN

 

K

Colchicaceae

 

 

 

 

 

 

Colchicum kotschyi Boiss. (T18731)

G

IT

b

LC/EN

 

A-C

Colchicum schimperi Janka ex Stef. (T18732)

G

IT-M

f

LC/EN

 

A-K

Convolvulaceae

 

 

 

 

 

 

Convolvulus leiocalycinus Boiss. (T18659)

C

IT

k

LC/EN

+

D-L

Cuscuta monogyna Vahl (T18661)

Pa

IT

o

LC/VU

 

A-K

Cucurbitaceae

 

 

 

 

 

 

Bryonia aspera Steven ex Ledeb. (T18660)

G

IT

o

LC/EN

 

H-M

Cyperaceae

 

 

 

 

 

 

Carex divisa Huds. (T18662)

Hc

IT-ES

k

LC/VU

 

H-K

Carex hirta L. (T18663)

G

IT

k

LC/NT

 

E-N

Carx secalina Willd. ex Wahlenb. (T18664)

Hc

IT-ES

k

DD/DD

 

C-N

Carex stenophylla Wahlenb. (T18665)

G

IT-ES

b

LC/NT

 

B

Isolepis setacea (L.) R.Br. (T18666)

Hc

Co

k

LC/VU

 

E-F

Schoenus nigricans L. (T18667)

Hc

IT-ES

b

LC/VU

 

F

Datiscaceae

 

 

 

 

 

 

Datisca cannabina L. (T18508)

Hc

IT

e

LC/VU

+

E

Euphorbiaceae

 

 

 

 

 

 

Euphorbia gedrosiaca Rech.f., Aellen & Esfand (T18509)

Hc

IT

k

LC/EN

+/En-R

D-J

Euphorbia hebecarpa Boiss. (T18670)

Hc

IT

n

LC/EN

+/En

D-M

Euphorbia helioscopia L. (T18671)

T

IT-ES-M

b

LC/NT

+

C-F

Euphorbia heteradena Jaub. & Spach (T18672)

Hc

IT

j

LC/EN

+

A-I

Euphorbia microsciadia Boiss. (T18673)

Hc

IT

g

LC/EN

 

B-C

Euphorbia szovitsii Fisch. & C.A.Mey. (T18674)

T

IT

j

LC/EN

 

K

Euphorbia turcomanica Boiss. (T18675)

T

IT

g

LC/EN

 

A-C

Fabaceae

 

 

 

 

 

 

Astragalus baftensis Ranjbar & Maassoumi (T18676)

C

IT

m

DD/DD

+/En-R

D-E

Astragalus campylorrhynchus Fisch. & C.A.Mey. (T18677)

T

IT

m

LC/EN

 

K

Astragalus carmanicus Bornm. (T18520)

C

IT

m

CR/CR

+/En

C-F

Astragalus cephalanthus DC. (T18679)

C

IT

m

LC/EN

+/En-R

H-K

Astragalus commixtus Bunge (T18681)

T

IT

j

LC/EN

 

G-H

Astragalus dactylocarpus Boiss. (T18521)

C

IT-ES

m

LC/EN

+

D-E

Astragalus hezarensis Zarre & Podlech (T18680)

C

IT

m

CR/CR

En-R

H-O

Astragalus lalesarensis Bornm. (T18682)

C

IT

m

LC/EN

En-R

H-O

Astragalus microcephalus Willd. (T18683)

C

IT

j

LC/EN

R

D-E

Astragalus myriacanthus Boiss. (T18684)

C

IT

m

LC/EN

+/En-R

D-O

Astragalus rhodosemius Boiss. & Hausskn. (T18523)

C

IT

m

NT/EN

+/En

M-N

Astragalus siliquosus Boiss. (T18524)

C

IT

j

LC/EN

+

D-E

Astragalus spachianus Boiss. (T18686)

C

IT

j

DD/DD

En

D-E

Colutea gracilis Freyn & Sint. (T18685)

Ph

IT

b

VU/EN

+/R

D-K

Glycyrrhiza glabra L. (T18687)

Hc

IT-ES

n

LC/NT

+/R

A-K

Medicago lupulina L. (T18688)

T

IT

k

LC/NT

 

A-K

Medicago sativa L. (T18689)

Hc

IT-ES

k

LC/NT

+

A-K

Melilotus officinalis (L.) Pall. (T18690)

Hc

IT-ES

k

LC/NT

+

A-K

Onobrychis altissima Grossh. (T18691)

Hc

IT

j

LC/EN

 

C-F

Onobrychis cornuta (L.) Desv. (T18692)

C

IT

k

LC/VU

R

M-N

Onobrychis kermanensis (Sirj. & Rech.f.) Rech.f. (T18693)

Hc

IT

k

CR/CR

En-R

H-K

Oxytropis hirsutiuscula Freyn (T18694)

Hc

IT

e

LC/EN

 

M-N

Trifolium pratense L. (T18696)

G

IT-ES

m

LC/NT

 

A-K

Trifolium repens L. (T18697)

G

IT-ES-SS

m

LC/NT

 

A-E

Vicia monthana Retz. (T18699)

T

IT-ES

b

DD/DD

 

A-G

Geraniaceae

 

 

 

 

 

 

Erodium cicutarium (L.) L'Hér. (T18701)

G

IT-ES

a

LC/NT

+

C-F

Geranium collinum Stephan ex Wild (T18668)

G

IT

a

LC/NT

 

C-F

Geranium stepporum L. (T18702)

G

IT

b

CR/CR

 

C-F

Ixioliriaceae

 

 

 

 

 

 

Ixiolirion tataricum (Pall.) Schult. & Schult.f. (T18705)

G

IT

a

LC/NT

 

A-E

Juncaceae

 

 

 

 

 

 

Juncus gerardii Loisel. (T18706)

Hc

IT

g

DD/DD

 

C-D

Juncus heldreichianus T.Marsson ex Parl. (T18707)

Hc

IT

e

LC/VU

 

D-M

Juncus inflexus L. (T18708)

Hc

IT-ES

e

LC/NT

 

E-F

Juncus interior Wiegand (T18709)

Hc

IT

e

LC/NT

 

M-N

Lamiaceae

 

 

 

 

 

 

Ajuga chamaecistus Ging. ex Benth. (T18710)

C

IT

b

LC/EN

+/En-R

A-C

Lamium amplexicaule L. (T18712)

T

IT-ES-SS

k

LC/NT

+

C-K

Marrubium crassidens Boiss. (T18713)

Hc

IT

k

LC/EN

+

D-E

Marrubium vulgare L. (T18714)

Hc

IT-ES

k

LC/NT

+

A-M

Mentha longifolia (L.) L. (T18510)

G

IT-ES-SS

o

LC/NT

+/En

A-L

Nepeta assurgens Hausskn. & Bornm. (T18715)

Hc

IT

o

CR/EN

En

D-M

Nepeta bornmuelleri Hausskn. ex Bornm. (T18720)

Hc

IT

j

CR/CR

+/En

E-F

Nepeta rivularis Bornm. (T18511)

Hc

IT

k

CR/CR

+/En

D-N

Salvia macrosiphon Boiss. (T18721)

Hc

IT-SS

j

LC/EN

+/En

D-K

Salvia nemorosa L. (T18722)

Hc

IT-ES

m

LC/NT

+

H-M

Salvia rhytidea Benth. (T18512)

Hc

IT

n

LC/EN

+/En

E-N

Salvia sclarea L. (T18723)

Hc

IT

n

LC/NT

+

H-K

Salvia virgata Jacq. (T18717)

Hc

IT

e

LC/VU

 

H-K

Scutellaria multicaulis Boiss. (T18513)

C

IT

n

LC/EN

+/En

D-O

Sideritis comosa (Rochel ex Benth.) Stankov (T18724)

T

IT

j

LC/EN

 

E

Sideritis montana L. (T18725)

T

IT-ES

j

LC/NT

 

C-F

Stachys acerosa Boiss. (T18514)

C

IT

n

LC/EN

+/En-R

C-O

Stachys setifera C.A.Mey. (T18726)

G

IT

n

LC/EN

+/En

B-D

Thymus carmanicus Jalas (T18515)

Hc

IT

e

CR/CR

+/En-R

H-O

Liliaceae

 

 

 

 

 

 

Eremurus persicus (Jaub. & Spach) Boiss. (T18733)

G

IT

g

LC/EN

+

C-E

Gagea capillifolia Vved. (T18734)

G

IT

b

LC/EN

R

B-C

Gagea gageoides (Zucc.) Vved. (T18735)

G

IT

b

LC/VU

 

B-M

Gagea stipitata Merckl. ex Bunge (T18736)

G

IT

b

LC/EN

 

B-C

Tulipa biflora Pall. (T18738)

G

IT-M

b

LC/VU

 

A-D

Linaceae

 

 

 

 

 

 

Linum album Kotschy ex Boiss. (T18739)

G

IT

j

LC/EN

+/En-R

C-E

Malvaceae

 

 

 

 

 

 

Malva neglecta Wallr. (T18741)

Hc

IT-ES-SS

l

LC/NT

+

A-M

Malva sylvestris L. (T18742)

Hc

IT-ES

l

LC/NT

+

A-C

Moraceae

 

 

 

 

 

 

Ficus johannis Boiss. (T18743)

Ph

IT

b

LC/EN

R

L

Nitrariaceae

 

 

 

 

 

 

Peganum harmala L. (T18657)

Hc

IT-ES-SS

o

LC/NT

+/En

A-I

Onagraceae

 

 

 

 

 

 

Epilobium hirsutum L. (T18744)

G

IT-ES

k

LC/NT

+

H-M

Epilobium minutiflorum Hausskn. (T18745)

G

IT-ES

o

LC/VU

 

H-K

Orchidaceae

 

 

 

 

 

 

Dactylorhiza umbrosa (Kar. & Kir) Nevski (T18746)

G

IT

m

LC/EN

R

K

Orobanchaceae

 

 

 

 

 

 

Orobanche cernua Loefl. (T18747)

Pa

IT

n

LC/NT

 

E-F

Pedicularis lalesarensis Bornm. (T18748)

Hc

IT

e

CR/CR

R

N

Papaveraceae

 

 

 

 

 

 

Fumaria parviflora Lam. (T18700)

T

IT-ES-SS

c

LC/NT

+

C-E

Glaucium vitellinum Boiss. & Buhse (T18749)

T

IT-ES

c

CR/CR

+

H-K

Glaucium grandiflorum Boiss. & A.Huet (T18516)

T

IT-ES

j

LC/EN

+

C-E

Hypecoum pendulum L. (T18750)

T

IT-ES-SS

b

LC/VU

 

D-E

Papaver decaisnei Hochst & Steud. ex Elkan (T18751)

T

IT

j

LC/EN

+

D-E

Papaver dubium L. (T18752)

T

IT

j

LC/NT

 

D-K

Plantaginaceae

 

 

 

 

 

 

Linaria remotifolia Patzak (T18561)

T

IT

k

DD/DD

 

D-O

Plantago gentianoides Sm. (T18753)

T

IT

n

LC/EN

 

C-M

Plantago lanceolata L. (T18754)

T

IT-ES

n

LC/NT

+

A-G

Veronica anagalis-aquatica L. (T18756)

Hyd

IT-ES

k

DD/DD

+

D-N

Veronica beccabunga L. (T18757)

Hyd

IT-ES

k

LC/NT

 

D-E

Plumbaginaceae

 

 

 

 

 

 

Acantholimon cupreo-olivascens Rech.f. & Schiman-Czeika (T18760)

C

IT

k

CR/CR

 

H-O

Acantholimon haesarensis Bornm. ex Rech.f. & Schiman-Czeika (T18758)

C

IT

k

CR/CR

En

J-O

Acantholimon kermanense Assadi & Mirtadz. (T18761)

C

IT

k

DD/DD

 

N

Acantholimon modestum Bornm. ex Rech.f. & Schiman-Czeika (T18759)

C

IT

k

CR/CR

En

K-N

Poaceae

 

 

 

 

 

 

Agrostis stolonifera L. (T18762)

T

IT

k

LC/NT

R

C-F

Apera intermedia (Hack.) Hack. (T18763)

T

IT

m

LC/EN

 

H-M

Asthenatherum forskalii (Vahl) Nevski (T18764)

T

IT-SS

m

DD/DD

R-Mo

K

Avena fatua L. (T18765)

T

Co

c

LC/NT

 

A-G

Boissiera squarrosa (Sol.) Nevski (T18766)

T

IT-M

c

LC/EN

+/Mo

D-E

Bromus danthoniae Trin. (T18767)

T

Co

c

LC/VU

 

H-I

Bromus rubens L. (T18768)

T

IT

m

LC/NT

R

K

Bromus tectorum L. (T18769)

T

Co

c

LC/NT

 

C-F

Calamagrostis pseudophragmites (Haller f.) Koeler (T18771)

Hc

IT-ES-M

n

LC/VU

+

E-K

Chloris barbata Sw. (T18772)

T

IT

n

LC/NT

 

D-M

Cutandia maritima (L.) Benth. (T18773)

T

IT-M

m

LC/VU

 

E-F

Cutandia memphitica (Spreng.) Benth. (T18774)

T

IT

m

LC/VU

 

H-M

Cutandia stenostachya Boiss. (T18775)

T

IT

j

LC/EN

 

D-E

Heteranthelium piliferum (Sol.) Hochst. ex Jaub. & Spach (T18776)

Hc

IT

j

LC/EN

Mo

H-K

Hordeum glaucum Steud. (T18777)

T

IT

m

LC/NT

 

H-K

Lolium perenne L. (T18778)

T

Co

j

LC/NT

 

A-H

Melica jacquemontii Decne. (T18779)

G

IT

m

LC/EN

 

H-K

Melica persica Kunth (T18780)

G

IT

m

LC/VU

 

H-K

Nardurus maritimus (L.) Murb. (T18781)

T

IT

n

LC/VU

 

H-N

Oryzopsis barbellata (Mez) Bor (T18782)

G

IT

b

CR/CR

En-R

B-C

Poa sinaica Steud. (T18783)

G

IT-SS

n

LC/EN

 

H-K

Polypogon fugax Nees ex Steud. (T18784)

T

IT-SS

j

LC/NT

 

D-N

Polypogon maritimus Willd. (T18785)

T

IT-M

j

LC/VU

 

H-J

Schimus barbatus (L.) Thell. (T18786)

T

IT

j

DD/DD

 

H-M

Stipa arabica Trin. & Rupr. (T18787)

Hc

IT-ES

j

LC/VU

 

E-F

Stipa parviflora Desf. (T18788)

Hc

IT-ES-SS

j

LC/VU

 

H-J

Polygonaceae

 

 

 

 

 

 

Polygonum aviculare L. (T18789)

T

Co

n

LC/NT

+

A-G

Polygonum convolvulus L. (T18790)

T

IT-ES-SS

n

LC/VU

 

E

Polygonum molliiforme Boiss. (T18791)

T

IT

n

LC/EN

 

H-K

Polygonum paronychioides C.A.Mey. (T18792)

C

IT

j

LC/VU

+

D-N

Polygonum salicornioides Jaub. & Spach ex Boiss. (T18793)

C

IT

b

CR/CR

En

H-I

Polygonum spinosum H.Gross (T18794)

C

IT

j

VU/EN

En-R

C-O

Rumex chalepensis Mill. (T18796)

Hc

IT

j

LC/EN

+

M-N

Rumex crispus L. (T18797)

Hc

IT

e

LC/NT

+

C-G

Potamogetonaceae

 

 

 

 

 

 

Zannichellia palustris L. (T18637)

Hyd

IT

e

LC/NT

 

N

Primulaceae

 

 

 

 

 

 

Primula capitellata Boiss. (T18798)

Hc

IT

n

LC/EN

+/R

H-K

Ranunculaceae

 

 

 

 

 

 

Adonis aestivalis L. (T18770)

T

IT-ES

b

LC/NT

+

C-F

Batrachium sphaerospermum (Boiss. & C.I.Blanche) Iranshahr (T18795)

Hyd

IT-ES

e

DD/DD

 

N

Batrachium trichophyllum (Chaix) Bosch (T18755)

Hyd

IT-ES

e

LC/NT

 

E

Clematis ispahanica Boiss. (T18704)

Ph

IT

o

LC/EN

+

H-K

Ranunculus arvensis L. (T18703)

T

IT-ES-SS

b

LC/NT

+

C-F

Ranunculus eriorrhizus Boiss. & Buhse (T18740)

G

IT

n

NT/EN

En

H-N

Ranunculus papyrocarpus Rech.f., Aellen & Esfand. (T18737)

T

IT

n

EN/EN

 

H-N

Thalictrum minus L. (T18669)

Hc

IT-ES

j

LC/NT

+/R

H-L

Rhamnaceae

 

 

 

 

 

 

Rhamnus persica P.Lawson (T18518)

Ph

IT

b

LC/EN

+/En

D-K

Sageretia thea (Osbck.) M.C.Johnst. (T18658)

Ph

IT

b

LC/VU

+

C

Rosaceae

 

 

 

 

 

 

Cotoneaster kotschyi (C.K.Schneid.) G.Klotz (T18799)

Ph

IT

b

CR/CR

+/En

C-K

Cotoneaster nummularius Fisch. & C.A.Mey. (T18800)

Ph

IT

b

LC/VU

+

D-K

Prunus eburnean Aitch. (T18801)

Ph

IT

b

DD/DD

+/En-R

D-K

Prunus elaeagnifolia (Spach) A.E.Murray (T18802)

Ph

IT

b

LC/EN

+/En-R

K

Prunus scoparia Spach (T18803)

Ph

IT-SS

b

LC/EN

+/En

D-K

Rosa beggeriana Schrenk ex Fisch. & C.A.Mey. (T18804)

Ph

IT

n

LC/VU

+/En

K-N

Rubus sanctus Schreb. (T18805)

C

IT-ES

k

LC/NT

 

F-G

Sanguisorba minor Scop. (T18517)

Hc

IT-ES-M

k

LC/NT

+

A-M

Rubiaceae

 

 

 

 

 

 

Asperula glomerata (M.Bieb.) Grisb. (T18727)

C

IT

n

LC/EN

 

D-N

Callipeltis cucullaria (L.) DC. (T18719)

T

IT-ES

b

LC/EN

 

D-K

Galium aparine L. (T18718)

T

IT

b

LC/NT

 

A-C

Galium humifusum M.Bieb. (T18716)

T

IT

b

LC/NT

 

C-F

Galium spurium L. (T18711)

T

IT

b

LC/NT

 

D-M

Salicaceae

 

 

 

 

 

 

Salix pycnostachya Andersson (T18578)

Ph

IT

n

LC/EN

+

A-K

Sapindaceae

 

 

 

 

 

 

Acer monspessulanum L. (T18529)

Ph

IT

b

LC/NT

En-R

B-D

Scrophulariaceae

 

 

 

 

 

 

Scrophularia kermanica Ghahr. & Mirtadz. (T18588)

C

IT

k

DD/DD

R

D-O

Scrophularia striata Boiss. (T18589)

C

IT

k

LC/EN

+

F-M

Verbascum songaricum Schrenk (T18695)

Hc

IT-ES

k

LC/EN

+

A-L

Solanaceae

 

 

 

 

 

 

Hyoscyamus reticulatus L. (T18698)

Hc

IT-ES

k

LC/EN

 

M-N

Hyoscyamus senecionis Willd. (T18678)

G

IT

k

LC/EN

+

A-L

Thymelaeaceae

 

 

 

 

 

 

Daphne mucronata Royle (T18522)

Ph

IT

n

DD/DD

+

C-G

Daphne oleoides Schreb. (T18519)

Ph

IT

n

LC/VU

+/En

A-F

Urticaceae

 

 

 

 

 

 

Parietaria judaica L. (T18632)

C

IT-ES-SS

n

LC/NT

 

K

Urtica urens L. (T18633)

T

IT

n

LC/NT

+/En

K

               

 

Life Form (C: Chamaephyte, G: Geophyte, Hc: Hemicryptophyte, Hyd: Hydrophyte, Pa: Parasite, Ph: Phanerophyte, T: Therophyte), Chorotype (Co: Cosmopolitan, ES: European-Siberian Region, IT: Irano-Turanian Region, M: Mediterranean Region, SS: Saharo-Sindian Region), Phenology (a: Early to mid-spring, b: Early to late spring, c: Mid to late spring, d: Early to mid-summer, e: Early to late summer, f: Mid to late summer, g: Early spring to early summer, h: Early spring to mid-summer, i: Early spring to late summer, j: Mid spring to early summer, k: Mid spring to mid-summer, l: Mid spring to late summer, m: Late spring to early summer, n: Late spring to mid-summer, o: Late spring to late summer), IUCN Status (CR: Critically Endangered, DD: Data Deficient, EN: Endangered, LC: Least Concern, NT: Near Threatened, VU: Vulnerable), 1-MU: Medicinal Use (+) / Endemic (En), Rare (R) and Monospecies (Mo) plants, Altitude (m asl) (A: 2300-2400, B: 2400-2500, C: 2500-2600, D: 2600-2700, E: 2700-2800, F: 2800-2900, G: 2900-3000, H: 3000-3100, I: 3100-3200, J: 3200-3300, K: 3300-3400, L: 3400-3500, M: 3500-3600, N: 3600-3700, O: 3700-3800).

Some of the region's edible plants include walnut, almond, peach, apricot, plum, cherry, apple, pear, wheat, barley, lentil, pea, bean, mung, garlic, onion, tomato, potato, squash, eggplant, cucumber, etc. The phenology of most of the plant species was in early to late spring (b), mid-spring to mid-summer (k) and late spring to mid-summer (n). The number of each life form, chorotypes, the first eight phenology times, and the first ten plant families with most species is shown in Figures 3, 4, 5, and 6 respectively. Some photos of the studied area and some of the plants in them are shown in Figure 7.

 

 

 

Figure 4: Number of chorotypes in the study area, Takhte-Sartashtak, Kerman province

Figure 3: Number of life form in the Takhte-Sartashtak, Kerman province

 

 

Figure 6: List of rich families in the Takhte-Sartashtak, Kerman province

Figure 5: Phenology of plant  in the Takhte-Sartashtak

 

 

c

b

a

 

f

e

d

 

i

h

g

 

l

k

j

 

o

n

m

 

r

q

p

 

u

t

s

 

x

w

v

Figure 7 : Photos of the studied area (a-i), photos of some mosses in the area (j-l), photos of some lichens in the area (m-o), Thymus carmanicus (p), Epilobium hirsutum (q), Glaucium grandiflorum (r), Campanula kermanica (s), Datisca cannabina (t), Rhamnus persica (u), Echinops lalesarensis (v), Verbascum songaricum (w), and Juniperus excelsa (x).

 

Discussion

There are several ways to protect biodiversity as well as balance natural ecosystems. One of the most important and main methods is to prepare a list of plant species and determine their conservation status (Hamilton, 2004). It has been found that more than 10% of all plant species are somehow used in medicines and natural products (Huang, 2011; Rafieian Koopai, 2013). In addition to the above, some plant species due to their native or rarity are at risk (Figueriedo & Grelle, 2009).

The region covers about 0.024% of Iran's area. About 29.4% of families, 17.4% of genera, and 3.8% of Iranian plant species are found in the study area. The dominant families and genera of the Takhte-Sartashtak region are similar to the flora of the Iranian plateau (based on Rechinger, 1963-2015; Assadi, 1989-2023).

 The findings have shown that some plant species are endangered and threatened, including the reasons for the threat of plants can be named as follows, overgrazing of livestock, over-harvesting for medicinal uses of plants, their use as a form of fuel, destruction of various habitats for the development of agricultural lands (Ghahremaninejad et al., 2021a), and the creation of tourist attractions, destruction of ecosystems for extraction of minerals and so on. Some of these taxa are more important for conservation because of overharvesting including Achillea willhelmsii, Artemisia persica, Berberis integerrima, Bunium persicum, Cichorium intybus, Dianthus crinitus, Glycyrrhiza glabra, Gundelia tournefortii, Levisticum officinale, Pistacia atlantica, Prunus scoparia, Rosa beggeriana, Sanguisorba minor, and Thymus carmanicus.

Due to the importance of floristic work and to achieve this goal, a lot of research has been done in the field of vegetation in different regions of Iran and Kerman province. The high life forms of therophyte and hemicryptophyte were indicated severe environmental conditions, especially drought so that the living part of the plants in the unfavorable season is either under the soil or in the form of seeds and a state of sleep. The lack of phanerophytes is indicative of harsh conditions, in addition to drought, heavy snowfall in winter, as well as severe and dry winds, make it difficult to grow trees. Most species are from the Irano-Turanian region this ratio indicates the dominance of the conditions of this region. Other species, often of European-Siberian chorotype, show scattered wet microclimates.

Takhte-Sartashtak area and neighboring areas have rural tourist attractions. Attracting tourists to the villages helps to develop them and can provide good opportunities for the villagers to create jobs and income.Obviously, tourism, in addition to all the positive aspects that it can have, also has many negative aspects (Mohamadinia, et al., 2014). For example, over-harvesting of some plant species such as Levisticum officinale W.D.J.Koch (Apiaceae) and Thymus carmanicus Jalas (Lamiaceae) have reduced their populations in the study area and put them at risk of extinction. It is very imperative that in tourism areas, with proper management, harmful effects can be prevented as much as possible.

There are several approaches to protect plant species that can be divided into two groups: in-situ and ex-situ conservation (Huang, 2011; Liu et al., 2011). The two types of protection in-situ and ex-situ conservation are often not separate and in fact, complement each other (Hamilton, 2004; Havens et al., 2006; Yu et al., 2010). Ex-situ conservation aims to cultivate and naturalize endangered plant species and ensure their survival (Swarts & Dixon, 2009). One example of this is educating the native people about the proper use of wild plants in their area. However, the creation of protected areas today is one of the most important strategies for the conservation of biodiversity, which in many cases leads to the preservation, recovery, and increase of biodiversity (Chiarucci et al., 2001; Rodriguez et al., 2007; Ghahremaninejad et al., 2021b). The Galuchar Protected Area is one example of this in the study area to preserve and preserve a rare species Juniperus excelsa, which has largely been conserved. In general, in-situ conservation strategies can be very effective in preserving and balancing ecosystems by protecting plant and animal species diversity and are therefore definitely the best way to protect species in nature (Coley et al., 2003; Figueriedo & Grelle, 2009; Malekpourzadeh, et al., 2024). Creating natural gardens near the main site of plant growth in nature to cultivate and isolate endangered native plants in an area is another way to protect plant species (Hamilton, 2004; Schipmann et al., 2005; Strandby & Olsen, 2008). Especially for native, rare plant species, those with low growth and abundance, species that are very susceptible to disease, those that are widely exploited, and species that are generally endangered. These include the cultivation of large quantities of plants, the establishment of botanical gardens, and the establishment of a seed bank. In the case of plant cultivation, they can be produced in large quantities, in which case natural plants are protected and cultivated plants are used. On the other hand, access to these plants is easier and the costs of using them are reduced (Hamilton, 2004; Schipmann et al., 2005; Larsen & Olsen, 2007). Another advantage of plant cultivation is the controllability of various factors such as light, temperature, water, and humidity and such things as the level of toxins and pollutants in plant growth, so it is possible to increase productivity (Liu et al., 2011; Raina et al., 2011; Wong et al., 2014). In botanical gardens, a wide range of economically and ecologically diverse plant species are grown (Primack et al., 2009).

 Even though there is a high level of biodiversity in the study area and on the other hand, there are various factors threatening this diversity, the implementation of strategies for the protection of natural ecosystems in the region is necessary.

The results obtained from a research in the region showed that the soils of the studied region have the soil texture of Sand, Loam Sandy, Loam Silt (according to the USDA soil texture classification). Some of the physical and chemical characteristics of soils depend on the elevation of the area. The results of saturation percentage and clay percentage decrease with increasing height, on the other hand with increasing. The percentage of lime, organic matter, organic carbon and gravel have increased. The results of the data obtained from the soil science studies and the analysis of the relevant samples showed that the average soil depth in the area where forest encroachment is mostly of juniper type is 20-50 cm, in the areas where the cover is dominated by log type, it is 10-40 cm in the areas where its vegetation is of almond type, it is 20-75 cm. The results of soil particle size distribution in relation to the type of forest vegetation also showed that the abundance of sand percentage in the texture of the soils under the dominant forest cover of juniper, bane, and almond, respectively, is 50-60, 80-90, 60-70%; and the abundance percentage of the above soils, respectively, 20-30, 5-20, and 50-22 (Esfandiarpour, 2005).

 

Acknowledgments

We thank Dr. John Edmondson and anonymous reviewers for their support and constructive suggestions on the manuscript. This study is part of LM’s Ph.D. thesis at Kharazmi University (Tehran, Iran).

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