通过改变叶结构，泌盐盐生黍稷草（Sporobolus ioclados Nees ex Trin.）对盐碱土进行植物修复。

Phytoremediation of hypersaline soils by salt excretory C halophytic pan dropseed grass (Sporobolus ioclados Nees ex Trin.) through alteration in foliar architecture.

作者信息

Naz Nargis, Shah Syed Mohsan Raza, Basharat Sana, Hameed Mansoor, Fatima Sana, Asghar Ansa, Ahmad Muhammad Sajid Aqeel, Ahmad Farooq, Abbas Zaheer, Ahmad Khawaja Shafique, Hashem Abeer, Avila-Quezada Graciela Dolores, Almutairi Khalid F, Abd-Allah Elsayed Fathi

机构信息

Department of Botany, The Islamia University of Bahawalpur, Bahawalpur, 63100, Pakistan.

Department of Botany, Division of Science and Technology, University of Education, Lahore, 54000, Pakistan.

出版信息

Sci Rep. 2025 Jul 10;15(1):24882. doi: 10.1038/s41598-025-01291-w.

DOI:10.1038/s41598-025-01291-w

PMID:40640178

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12246197/

Abstract

Plants inhabiting saline areas develop specific morpho-anatomical and physiological features to survive. Sporobolus ioclados is among the few grass species that dominate highly saline habitats. This is a salt excretory species and can potentially be important for phytoremediation of salt-affected lands. Three ecotypes of Sporobolus ioclados (Trin.) Nees (DF-Derawar Fort (LSE), BD-Bailahwala Dahar (MSE), LS-Ladam Sir) from the Cholistan Desert were evaluated to investigate structural and functional modifications for salt tolerance under controlled conditions in hydroponic growth medium using half-strength Hoagland's nutrient solution. Three salinity (NaCl) treatments were provided, namely 0 (control), 150, and 300 mM. All three ecotypes showed different structural and physiological modifications under salinity stress. Structural and functional traits were more developed in the HSE. Modifications. Structural features include intensity of sclerification and thicker leaves. Functional features were high concentration of toxic ions excretion, organic osmolytes accumulation, and maintenance of leaf turgor, photosynthesis and water use efficiency. All these confer it an excellent material for the phytoremediation as well as revegetation of highly saline lands.

摘要

生长在盐碱地区的植物会形成特定的形态解剖学和生理特征以存活下来。硬叶鼠尾粟是少数在高盐生境中占优势的禾本科物种之一。这是一种泌盐植物，对受盐影响土地的植物修复可能具有重要意义。对来自乔利斯坦沙漠的三种硬叶鼠尾粟生态型（DF - 德拉瓦尔堡（LSE）、BD - 拜拉瓦拉达哈尔（MSE）、LS - 拉丹爵士）进行了评估，以研究在水培生长介质中使用半强度霍格兰营养液的受控条件下，其耐盐性的结构和功能变化。设置了三种盐度（NaCl）处理，即0（对照）、150和300 mM。在盐胁迫下，所有三种生态型都表现出不同的结构和生理变化。HSE中的结构和功能特征更为发达。变化。结构特征包括硬化强度和叶片变厚。功能特征为高浓度有毒离子的排泄、有机渗透物的积累以及叶片膨压、光合作用和水分利用效率的维持。所有这些使其成为高盐碱土地植物修复和植被恢复的优良材料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/765f/12246197/9edc6d503170/41598_2025_1291_Fig1_HTML.jpg

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Phytoremediation of hypersaline soils by salt excretory C halophytic pan dropseed grass (Sporobolus ioclados Nees ex Trin.) through alteration in foliar architecture.通过改变叶结构，泌盐盐生黍稷草（Sporobolus ioclados Nees ex Trin.）对盐碱土进行植物修复。

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通过改变叶结构，泌盐盐生黍稷草（Sporobolus ioclados Nees ex Trin.）对盐碱土进行植物修复。

Phytoremediation of hypersaline soils by salt excretory C halophytic pan dropseed grass (Sporobolus ioclados Nees ex Trin.) through alteration in foliar architecture.

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