镉和铅胁迫下[植物名称未给出]的生长、酶活性、电解质渗漏及植物修复效率评估。

Evaluation of the growth, enzymatic activity, electrolyte leakage, and phytoremediation efficiency of under cadmium and lead stress.

作者信息

El-Mahrouk El-Sayed Mohamed, Eldawansy Shereen Mostafa, El-Tarawy Ahmed Mohamed, Ebrahim Hayam Mohamed Aly, Eisa Eman Abdelhakim, Tilly-Mándy Andrea, Honfi Péter

机构信息

Horticulture Department, Faculty of Agriculture, Kafrelshaikh University, Kafrelsheik, Egypt.

Floriculture and Landscape Gardens Department, Horticulture Research Institute Alex. Branch (Antoniadis), Alexandria, Egypt.

出版信息

Front Plant Sci. 2024 Sep 30;15:1466697. doi: 10.3389/fpls.2024.1466697. eCollection 2024.

DOI:10.3389/fpls.2024.1466697

PMID:39403617

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11471550/

Abstract

Contamination of agricultural soil by heavy metals poses a significant threat to soil quality and crop yields. Using plants as a natural remediation approach attracts researchers' attention around the world. A 16-month pot experiment was conducted using in a randomized complete block design. The growth, enzymatic activity, electrolyte leakage, and remediation potential were estimated under Cd nitrate]40 low (L), 60 medium (M), 80 high (H) mg/kg soil [and Pb nitrate]400 (L), 700 (M), 1,000 (H) mg/kg soil [applied individually and in combination. demonstrated a good tolerance (over 70%) against lower and medium cadmium (Cd) and lead (Pb) levels and a medium resistance against high Cd and Pb levels, with a survival rate of 100% under all the treatments used. The most negative treatment on the growth traits and tolerance of was (H) Cd and (H) Pb, which reduced plant height; chlorophyll index; dry weights of the leaves, stems, and roots; root length; and tolerance index of biomass and roots by 25.87%, 48.97%, 50.56%, 47.25%, 58.67%, 50.18%, 51.00%, and 50% in comparison to the respective control, consecutively. Relative to the control, all Cd and Pb applications increased polyphenol oxidase (PPO), peroxidase (POD), and catalase (CAT) activities, and the increment was parallel up to medium Cd and Pb levels and then decreased with their high levels but still higher than the control. Electrolyte leakage (EL) was upheaved by raising the levels of Cd and Pb, and it reached the maximum (52.79%) at the (H) Cd (H) Pb treatment. Cd and Pb in the leaves, stems, and roots were boosted by raising their levels in the treatments. is considered a phytoextractor for the Cd levels used because the bioconcentration factor of the stem (BCF) and the translocation factor (TF) of Cd were >1, and it is a suitable plant for Pb phytoextraction at (L) Pb, (M) Pb, and (M) Cd (M) Pb levels because its Pb BCF and bioconcentration factor of the root (BCF) were <1 and its Pb TF was >1. On the other hand, is considered a phytostabilizator for Pb at (H) Pb, (L) Cd, (L) Pb, and (H) Cd (H) Pb levels because its Pb BCF, BCF, and TF were <1.

摘要

重金属对农业土壤的污染对土壤质量和作物产量构成了重大威胁。利用植物进行自然修复的方法吸引了世界各地研究人员的关注。采用随机完全区组设计进行了为期16个月的盆栽试验。分别单独及联合施加硝酸镉40低（L）、60中（M）、80高（H）mg/kg土壤以及硝酸铅400（L）、700（M）、1000（H）mg/kg土壤，对其生长、酶活性、电解质渗漏及修复潜力进行了评估。[植物名称]对较低和中等镉（Cd）及铅（Pb）水平表现出良好的耐受性（超过70%），对高Cd和Pb水平具有中等抗性，在所有处理下存活率均为100%。对[植物名称]生长性状和耐受性最不利的处理是（H）Cd和（H）Pb，与各自对照相比，其株高、叶绿素指数、叶、茎和根的干重、根长以及生物量和根的耐受性指数分别降低了25.87%、48.97%、50.56%、47.25%、58.67%、50.18%、51.00%和50%。相对于对照，所有Cd和Pb处理均提高了多酚氧化酶（PPO）、过氧化物酶（POD）和过氧化氢酶（CAT）的活性，在中等Cd和Pb水平之前增量呈平行趋势，之后随着其高水平而下降，但仍高于对照。电解质渗漏（EL）随着Cd和Pb水平的提高而升高，在（H）Cd（H）Pb处理时达到最大值（52.79%）。处理中Cd和Pb水平的提高促进了叶、茎和根中Cd和Pb的积累。对于所使用的Cd水平，[植物名称]被认为是一种植物提取剂，因为其茎的生物富集系数（BCF）和Cd的转运系数（TF）>1，并且在（L）Pb、（M）Pb以及（M）Cd（M）Pb水平下它是适合Pb植物提取的植物，因为其Pb BCF和根的生物富集系数（BCF）<1且其Pb TF>1。另一方面，在（H）Pb、（L）Cd、（L）Pb以及（H）Cd（H）Pb水平下，[植物名称]被认为是Pb的植物稳定化剂，因为其Pb BCF、BCF和TF<1。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7b6a/11471550/55b78abeb577/fpls-15-1466697-g001.jpg

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镉和铅胁迫下[植物名称未给出]的生长、酶活性、电解质渗漏及植物修复效率评估。

Evaluation of the growth, enzymatic activity, electrolyte leakage, and phytoremediation efficiency of under cadmium and lead stress.

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