Negative impact of long-term exposure of salinity and drought stress on native Tetraena mandavillei L

Hasnain Alam^#¹, Jabar Z K Khattak¹, Taoufik S Ksiksi², Muhammad H Saleem^#³, Shah Fahad^#^{4

5}, Hamza Sohail⁶, Qasim Ali⁷, Muhammad Zamin⁸, Mohamed A El-Esawi⁹, Shah Saud¹⁰, Xue Jiang¹¹, Mona S Alwahibi¹², Jawaher Alkahtani¹²

Affiliations

¹ Department of Biological Sciences, International Islamic University, Islamabad, Pakistan.
² Department of Biology, College of Sciences, United Arab Emirates University, Al Ain, United Arab Emirates.
³ MOA Key Laboratory of Crop Ecophysiology and Farming System in the Middle Reaches of the Yangtze River, College of Plant Science and Technology, Huazhong Agricultural University, Wuhan, China.
⁴ Hainan Key Laboratory for Sustainable Utilization of Tropical Bioresource, College of Tropical Crops, Hainan University, Haikou, China.
⁵ Department of Agronomy, The University of Haripur, Haripur, Pakistan.
⁶ Key Laboratory of Horticultural Plant Biology, Ministry of Education, College of Horticulture and Forestry Sciences, Huazhong Agricultural University, Wuhan, China.
⁷ Department of Botany, Government College University, Faisalabad, Pakistan.
⁸ Department of Agriculture, University of Swabi, Swabi, Pakistan.
⁹ Botany Department, Faculty of Science, Tanta University, Tanta, Egypt.
¹⁰ Department of Horticulture, Northeast Agriculture University, Harbin, China.
¹¹ College of Life Sciences and Technology, Xinjiang University, Urumqi, China.
¹² Department of Botany and Microbiology, College of Science, King Saud University, Riyadh, Saudi Arabia.

^# Contributed equally.

PMID: 33179272
DOI: 10.1111/ppl.13273

Negative impact of long-term exposure of salinity and drought stress on native Tetraena mandavillei L

Hasnain Alam et al. Physiol Plant. 2021 Jun.

. 2021 Jun;172(2):1336-1351.

doi: 10.1111/ppl.13273. Epub 2020 Nov 20.

Authors

Affiliations

¹ Department of Biological Sciences, International Islamic University, Islamabad, Pakistan.
² Department of Biology, College of Sciences, United Arab Emirates University, Al Ain, United Arab Emirates.
³ MOA Key Laboratory of Crop Ecophysiology and Farming System in the Middle Reaches of the Yangtze River, College of Plant Science and Technology, Huazhong Agricultural University, Wuhan, China.
⁴ Hainan Key Laboratory for Sustainable Utilization of Tropical Bioresource, College of Tropical Crops, Hainan University, Haikou, China.
⁵ Department of Agronomy, The University of Haripur, Haripur, Pakistan.
⁶ Key Laboratory of Horticultural Plant Biology, Ministry of Education, College of Horticulture and Forestry Sciences, Huazhong Agricultural University, Wuhan, China.
⁷ Department of Botany, Government College University, Faisalabad, Pakistan.
⁸ Department of Agriculture, University of Swabi, Swabi, Pakistan.
⁹ Botany Department, Faculty of Science, Tanta University, Tanta, Egypt.
¹⁰ Department of Horticulture, Northeast Agriculture University, Harbin, China.
¹¹ College of Life Sciences and Technology, Xinjiang University, Urumqi, China.
¹² Department of Botany and Microbiology, College of Science, King Saud University, Riyadh, Saudi Arabia.

^# Contributed equally.

PMID: 33179272
DOI: 10.1111/ppl.13273

Abstract

Tetraena mandavillei L. is a perennial shrub native to the Middle Eastern countries of Asia, which is extensively regarded as a drought-tolerant plant. However, the plant reduces growth and biomass when grown in high concentrations of sodium chloride in the soil. We conducted a pot experiment to influence the negative impact of different levels of salinity (0, 10, and 20 dSm^-1 ) and drought stress (100, 80, 60, and 40% water field capacity), to study different growth-related parameters, physiological alterations and ion uptake by T. mandavillei. Both salinity and drought stress caused a negative impact by affecting several attributes of T. mandavillei, but the plants showed some resistance against drought stress conditions in terms of growth and biomass. In addition to that, we noticed that a combinatorial and individual impact of drought and salinity stress decreased photosynthetic pigments and gas exchange parameters in T. mandavillei. Results also depicted that the combination of the abiotic stress conditions drought and salinity induced reactive oxygen species (ROS), indicating that the plants undergo oxidative damaged. However, due to the active plant defense system, the plant enhanced its performance under abiotic stress conditions, but due to the severe drought condition (40% water field capacity), a significant (P < 0.05) decrease in the activities of antioxidant compounds was caused. Furthermore, osmolytes also increased under both salinity and drought stress conditions in this study. Our results also showed that increased salinity and drought stress in the soil caused a significant increase in sodium (Na⁺ ) and chloride (Cl^- ) ions in roots and shoots of T. mandavillei. In contrast to that, the contents of Calcium (Ca²⁺ ) and potassium (K⁺ ) were decreased in all organs of the plants with increasing levels of salinity and drought stress. Taken together, T. mandavillei can be classified as a facultative halophyte with the ability to tolerate drought stress and using salt accumulation mechanisms to tolerate salinity stress.

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References

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Negative impact of long-term exposure of salinity and drought stress on native Tetraena mandavillei L

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Negative impact of long-term exposure of salinity and drought stress on native Tetraena mandavillei L

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