University of Guilan Caspian Journal of Environmental Sciences 1735-3033 24 1 2026 01 01 Physiological characteristics of fruit and berry plants ex situ under arid conditions of Mangystau, Kazakhstan 1 16 9487 10.22124/cjes.2026.9487 EN Akzhunis Imanbayeva Laboratory of Natural Flora and Dendrology, Mangyshlak Experimental Botanical Garden, Aktau 130000, Kazakhstan Nurzhaugan Duisenova Laboratory of Natural Flora and Dendrology, Mangyshlak Experimental Botanical Garden, Aktau 130000, Kazakhstan Gulfara Bekbosyn Laboratory of Natural Flora and Dendrology, Mangyshlak Experimental Botanical Garden, Aktau 130000, Kazakhstan Nazerkе Tolep Laboratory of Natural Flora and Dendrology, Mangyshlak Experimental Botanical Garden, Aktau 130000, Kazakhstan Almagul Nazarova Laboratory of Natural Flora and Dendrology, Mangyshlak Experimental Botanical Garden, Aktau 130000, Kazakhstan Kuanysh Bekesov Laboratory of Natural Flora and Dendrology, Mangyshlak Experimental Botanical Garden, Aktau 130000, Kazakhstan Gulnara Gassanova Laboratory of Natural Flora and Dendrology, Mangyshlak Experimental Botanical Garden, Aktau 130000, Kazakhstan Gulmira Tlepiyeva Laboratory of Natural Flora and Dendrology, Mangyshlak Experimental Botanical Garden, Aktau 130000, Kazakhstan Journal Article 2026 02 28 The article presents the results of a comprehensive physiological study on the fruit and berry plants introduced <em>ex situ</em> under the arid conditions of Mangystau, Kazakhstan. The research focused on species belonging to the genera <em>Crataegus</em>, <em>Hippophae</em>, <em>Lonicera</em>, <em>Ribes</em>, and <em>Rosa</em> grown at the Mangyshlak Experimental Botanical Garden. During the 2024–2025 growing seasons. Key indicators of plant water regime (transpiration rate, leaf water content, and water retention capacity) and photosynthetic performance (chlorophyll <em>a</em>, chlorophyll <em>b</em>, and carotenoids) were analysed in relation to temperature and hydrothermal conditions. The results revealed that, compared to 2024, most species in 2025 exhibited a 30–35% decrease in transpiration rate, accompanied by a 1.4–2.3-fold increase in leaf water content and elevated chlorophyll <em>a</em> and <em>b</em> concentrations. These shifts indicate a transition from an intensive to a water-saving water-use strategy under more favourable hydrothermal conditions. Correlation analysis demonstrated a significant negative relationship between leaf water content and air temperature, while a positive association with photosynthetic pigments. At the same time, carotenoids served as key indicators of photoprotective responses to thermal stress. Principal component analysis (PCA) and hierarchical clustering distinguished three major physiological adaptation strategies: hydration-stable, stress-adaptive, and plastic. Integrated physiological stability indices (PSI and WBI) identified <em>Hippophae rhamnoides</em> and <em>Rosa canina</em> as the most physiologically resilient species, whereas <em>Lonicera</em> species showed pronounced physiological plasticity. The findings provide a scientific basis for selecting drought- and heat-tolerant fruit and berry plants for introduction, landscaping, and phytomelioration in the arid regions of Mangystau and Western Kazakhstan. https://cjes.guilan.ac.ir/article_9487_e0b0ffb787f8ed0ef680373e2d744de6.pdf