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Distribution of rivers, pools and grasslands, being large or small and perennial or temporary, have created conditions suitable for the establishment of wetlands, especially in the highland regions of the Country. These habitats are highly important for the preservation of biodiversity and other ecological aspects. The present study aimed to identify wetlands in the Kermanshah Province, Iran, and map their distribution. The investigation was carried out on the basis of the conventional taxonomic studies of the region by doing field observation in 31 aqueous habitats in Kermanshah Province. The flora of each habitats and the life form and geographical distribution of the species were investigated. In total, 617 plant specimens, belonging to 288 species, 218 genera and 62 families, were collected identified and stored in the herbarium of the research center of agriculture and natural resources of Kermanshah Province (RANK). Asteraceae with 41 species, Poaceae with 31 species, Fabaceae with 31 species and Brassicaceae with 24 species were found to be the most important families of the wetlands studied.  Trifolium with 11 species and Bromus with 6 species were the most important genera, in terms of species richness. Detection of the biological forms showed that 40.3% of the species were trophytes, 35/5% were hemicryptophyts, 6/1% were phanerophytes, 14/23% were cryptophytes and 3/72% were chamaephytes. The chorology of species showed that 93 species belonged to more than two elements (32%), 92 species (31%) to the Irano-Touranin elements, 32 species to Irano-Touranin- Mediterranean (11%), 9 species to Irano-Touranin- Euro-Siberian with (3%) and 23 species were found to be cosmopolitan elements (8%).
 
 

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Climate change is currently considered a serious threat for many species and recognized as one of the most important factors in the global biodiversity loss. Among animal groups, amphibians are known to be among the most sensitive groups of vertebrates to climate change due to their inability to travel long distances, and mountain habitat species are more exposed to climate change pressures than other species. Therefore, in this study, the current distribution potential of five species of amphibians living in the Zagros Mountains was assesed and their response to climate change in 2070 was predicted. To do so, a group approach for modeling the distribution of species (SDMs) was utilized to estimate the risks of losing the desired habitat potential in the event of climate change. Also, to estimate the desired habitat area in the context of climate change, calculations related to habitat area changes for each species were performed. Predictions showed that two out of five species studied, i.e., Azarbaijan Mountain Newt (Neurergus crocatus) and Yellow Spotted Newt (Neurergus derjugini) negatively reaction to climate change and their distribution range was predicted to be decreased and contracted. Habitat displacement behavior in the face of new changes is predictable for two species, i.e., Lorestan Toad (Bufotes luristanicus) and Fire Salamander (Salamandra infraimmaculata semenovi). Considering the speed of climate change in the Zagros Mountains, the present study is a step towards identifying the dynamics of habitat changes affecting amphibians of Zasgros region to cope with the impacts of climate change.

 

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 Piptatherum ferganense is recorded as a new grass species for the flora of Iran collected from Ghorkhod Protected Area and Aladagh Mountains in North Khorassan province. The core distribution range of the species is Eastern Irano-Turanian with a disjunction in northeastern Iran. The morphological characters of P. ferganense are illustrated and compared with the closely related P. latifolium. It can be distinguished from P. latifolium by its evenly arranged spikelets in the panicle, lanceolate fertile lemma, and shorter lemma awns. Notes on taxonomy, ecology, phytogeography, and conservation status of the recorded species are provided.

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Understanding the different patterns of plant diversity and distribution along the environmental gradients is essential for managing ecosystems, especially in fragmented habitats due to intensive human pressure. The Darkash area is located in the western Aladagh Mountains in Khorassan-Kopet Dagh Floristic Province. The easternmost patches of the Hyrcanian montane forests grow in this area. The three main vegetation types in the area are shrublands/scrub forests, oak forests (Quercus castaneifolia), and subalpine vegetation. In this study, we aimed to evaluate the plant diversity in the understory of plant communities along the elevational gradient. We sampled 187 vegetation plots (2m x  2m) along a 1300m elevational gradient (in 100-m classes) using the stratified-random method and estimated the abundance and canopy cover of the species. Floristic characteristics and different diversity indices were measured. In total, 252 plant species belonging to 161 genera and 44 families were identified. Of these, 41 species were found to be endemic or semi-endemic. Hemicryptophytes and therophytes are the dominant life-forms in the study area. The Irano-Turanian elements (46.8%) make the major chorotype in the flora of the area, followed by Bi-regional (17.5%), Tri-regional (17.5%), Pluri-regional (11.5%), and Euro-Siberian (6.7%) elements. The shrubland understory has the highest Hill's and beta diversity indices, followed by the oak forest and the subalpine understory. The biodiversity changes sinusoidally along the elevation. In order to protect plant species, especially young oak seedlings, it is recommended to create a protective corridor along the elevational gradient in this area. This strategy is essential to protect plant diversity in these habitats.


 

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The Roodbast Wetland in Babolsar city is a crucial source of agricultural water and supports various living organisms near human settlements. Preserving the quality of this habitat is vital for both natural and human reasons. This study investigates the ecological status of Roodbast Wetland using algae as biological indicators of pollution. Diverse samplings were conducted in different seasons. Pollution levels were assessed using the Palmer index and various biological indicators. The study cataloged 81 genera across 7 phyla of algae. Chlorophyta had the highest species diversity, while Chrysophyta had the fewest. Peak algae proliferation occurred in summer and spring. Chlorophyta and Bacillariophyta were predominant throughout most of the year. In summer, Palmer’s pollution index peaked at stations 3 and 4, with a value of 35. In winter, stations 2, 4, and 5 showed minimal pollution with indices of 6, 9, and 7, respectively. During summer and autumn, all stations recorded Palmer indices exceeding 24. The primary cause of wetland pollution in spring is the influx of sub-branches from Babolrood, carrying village sewage and agricultural runoff. The rise in pollution in summer and autumn is due to elevated water temperatures, reduced rainfall, and increased extraction of lagoon water for rice replanting.
 

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      This study aimed to assess the ecological and environmental conditions of the Talar River using epilithic and epipelic diatoms. Sampling was conducted seasonally from summer 2023 to spring 2024 at three selected stations. Simultaneous with diatom sampling, one-liter water samples were collected to measure physical and chemical parameters. Diatom samples were prepared and identified based on standard protocols. In total, 84 species from 24 genera were identified. The most diverse genera were Navicula, Nitzschia, and Gomphonema. Navicula cryptotenella had the highest cell abundance, followed by Nitzschia palea and Navicula rhynchocephala. Diversity indices such as Shannon, Simpson, and species evenness showed no significant spatial difference. The results of the Canonical Correspondence Analysis (CCA) between environmental variables and epilithic species showed that the first and second axes explained 41.09 and 14.81% of the total variance, respectively, accounting for 55.9% of the constrained variance. For epipelic species, the first and second axes explained 37.37 and 14.40% of the total variance, respectively, and together accounted for 51.77% of the constrained variance. Moreover, the analysis revealed a strong correlation between environmental variables (especially pH and phosphate) and diatom community structure in both habitats, underscoring the role of environmental factors in shaping their distribution patterns.