Anatomical Adaptations of Halophyte Leaves (<i>Nitraria retusa</i> [Forsskal] Asch. and <i>Atriplex halimus</i> L.) in Response to Cement Dust Pollution in Arid Environments
This study investigates the anatomical adaptations of leaves from two halophyte species, <i>Nitraria retusa</i> (Forsskal) Asch. and <i>Atriplex halimus</i> L., in response to pollutants from a cement factory and human activities. In industrial areas, these plants absorb poll...
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2025-01-01
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| author | Nouha Krir Mounira Mkaddem Guedri Mehrez Romdhane Manel Abdullah Alshaqha |
| author_facet | Nouha Krir Mounira Mkaddem Guedri Mehrez Romdhane Manel Abdullah Alshaqha |
| author_sort | Nouha Krir |
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| description | This study investigates the anatomical adaptations of leaves from two halophyte species, <i>Nitraria retusa</i> (Forsskal) Asch. and <i>Atriplex halimus</i> L., in response to pollutants from a cement factory and human activities. In industrial areas, these plants absorb pollutants through their leaf surfaces, including Cu, Zn, and Pb. The two species were examined for anatomical changes under air pollution, and key factors including leaf blade thickness, palisade parenchyma cell height, spongy parenchyma cell diameter, epidermal characteristics, and stomatal traits were assessed. Under pollution, the leaves displayed smaller and denser stomata and idioblasts in the palisade and spongy parenchyma. These anatomical responses suggest that <i>N. retusa</i> and <i>A. halimus</i> could be effective bioindicators for detecting cement dust pollutants. Their leaf relative water content (RWC) exhibited a range of values: 70.1% and 87% for <i>N. retusa</i> and 64.8% to 74.2% for <i>A. halimus</i> on the highly polluted site (S1) and the control site (S4), respectively. Notably, a statistically significant site effect was observed (<i>p</i> > 0.01), confirming previous studies, and indicating reduced leaf relative water content (RWC) values in plants exposed to heavy metals like Cd and Pb. Heavy metals can lead to mineralization by binding to cell walls, altering their physicochemical properties and plasticity. Furthermore, significant correlations between specific heavy metals and histological parameters in <i>A. halimus</i> leaves indicated potential interactions between metal composition and leaf structure, highlighting their role in modulating anatomical adaptations. The correlation of leaf thickness, upper epidermal thickness, and stomatal density with Zn and Pb levels underlines the importance of these anatomical features in heavy metal accumulation and retention in plant tissues. |
| format | Article |
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| institution | Kabale University |
| issn | 2075-1729 |
| language | English |
| publishDate | 2025-01-01 |
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| series | Life |
| spelling | doaj-art-a98eebcb10dd4fcf9887cb402ce1c3362025-01-24T13:38:37ZengMDPI AGLife2075-17292025-01-011516110.3390/life15010061Anatomical Adaptations of Halophyte Leaves (<i>Nitraria retusa</i> [Forsskal] Asch. and <i>Atriplex halimus</i> L.) in Response to Cement Dust Pollution in Arid EnvironmentsNouha Krir0Mounira Mkaddem Guedri1Mehrez Romdhane2Manel Abdullah Alshaqha3Laboratory of Energy, Water, Environment and Process (LR18ES35), National Engineering School of Gabes, University of Gabes, Rue Omar Elkhattab-ZRIG-6029, Gabes 6072, TunisiaLaboratory of Energy, Water, Environment and Process (LR18ES35), National Engineering School of Gabes, University of Gabes, Rue Omar Elkhattab-ZRIG-6029, Gabes 6072, TunisiaLaboratory of Energy, Water, Environment and Process (LR18ES35), National Engineering School of Gabes, University of Gabes, Rue Omar Elkhattab-ZRIG-6029, Gabes 6072, TunisiaBiology Department, College of Science, King Khalid University [KKU], Abha 61413, Saudi ArabiaThis study investigates the anatomical adaptations of leaves from two halophyte species, <i>Nitraria retusa</i> (Forsskal) Asch. and <i>Atriplex halimus</i> L., in response to pollutants from a cement factory and human activities. In industrial areas, these plants absorb pollutants through their leaf surfaces, including Cu, Zn, and Pb. The two species were examined for anatomical changes under air pollution, and key factors including leaf blade thickness, palisade parenchyma cell height, spongy parenchyma cell diameter, epidermal characteristics, and stomatal traits were assessed. Under pollution, the leaves displayed smaller and denser stomata and idioblasts in the palisade and spongy parenchyma. These anatomical responses suggest that <i>N. retusa</i> and <i>A. halimus</i> could be effective bioindicators for detecting cement dust pollutants. Their leaf relative water content (RWC) exhibited a range of values: 70.1% and 87% for <i>N. retusa</i> and 64.8% to 74.2% for <i>A. halimus</i> on the highly polluted site (S1) and the control site (S4), respectively. Notably, a statistically significant site effect was observed (<i>p</i> > 0.01), confirming previous studies, and indicating reduced leaf relative water content (RWC) values in plants exposed to heavy metals like Cd and Pb. Heavy metals can lead to mineralization by binding to cell walls, altering their physicochemical properties and plasticity. Furthermore, significant correlations between specific heavy metals and histological parameters in <i>A. halimus</i> leaves indicated potential interactions between metal composition and leaf structure, highlighting their role in modulating anatomical adaptations. The correlation of leaf thickness, upper epidermal thickness, and stomatal density with Zn and Pb levels underlines the importance of these anatomical features in heavy metal accumulation and retention in plant tissues.https://www.mdpi.com/2075-1729/15/1/61bioindicatorcement dustenvironmental pollutionphytoremediation<i>Nitraria retusa</i><i>Atriplex halimus</i> |
| spellingShingle | Nouha Krir Mounira Mkaddem Guedri Mehrez Romdhane Manel Abdullah Alshaqha Anatomical Adaptations of Halophyte Leaves (<i>Nitraria retusa</i> [Forsskal] Asch. and <i>Atriplex halimus</i> L.) in Response to Cement Dust Pollution in Arid Environments Life bioindicator cement dust environmental pollution phytoremediation <i>Nitraria retusa</i> <i>Atriplex halimus</i> |
| title | Anatomical Adaptations of Halophyte Leaves (<i>Nitraria retusa</i> [Forsskal] Asch. and <i>Atriplex halimus</i> L.) in Response to Cement Dust Pollution in Arid Environments |
| title_full | Anatomical Adaptations of Halophyte Leaves (<i>Nitraria retusa</i> [Forsskal] Asch. and <i>Atriplex halimus</i> L.) in Response to Cement Dust Pollution in Arid Environments |
| title_fullStr | Anatomical Adaptations of Halophyte Leaves (<i>Nitraria retusa</i> [Forsskal] Asch. and <i>Atriplex halimus</i> L.) in Response to Cement Dust Pollution in Arid Environments |
| title_full_unstemmed | Anatomical Adaptations of Halophyte Leaves (<i>Nitraria retusa</i> [Forsskal] Asch. and <i>Atriplex halimus</i> L.) in Response to Cement Dust Pollution in Arid Environments |
| title_short | Anatomical Adaptations of Halophyte Leaves (<i>Nitraria retusa</i> [Forsskal] Asch. and <i>Atriplex halimus</i> L.) in Response to Cement Dust Pollution in Arid Environments |
| title_sort | anatomical adaptations of halophyte leaves i nitraria retusa i forsskal asch and i atriplex halimus i l in response to cement dust pollution in arid environments |
| topic | bioindicator cement dust environmental pollution phytoremediation <i>Nitraria retusa</i> <i>Atriplex halimus</i> |
| url | https://www.mdpi.com/2075-1729/15/1/61 |
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