Differential responses of Myriophyllum alterniflorum DC (Haloragaceae) organs to copper: physiological and developmental approaches-Reference-Cited by-同舟云学术

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Differential responses of Myriophyllum alterniflorum DC (Haloragaceae) organs to copper: physiological and developmental approaches

Published:2011-01-11 Issue:1 Volume:664 Page:95-105
ISSN:0018-8158
Container-title:Hydrobiologia
language:en
Short-container-title:Hydrobiologia

Author:

Delmail David,Labrousse Pascal,Hourdin Philippe,Larcher Laure,Moesch Christian,Botineau Michel

Publisher

Springer Science and Business Media LLC

Subject

Aquatic Science

Link

http://link.springer.com/content/pdf/10.1007/s10750-010-0589-9.pdf

Reference39 articles.

1. Ahmad, S. H., Z. Reshi, J. Ahmad & M. Iqbal, 2005. Morpho-anatomical responses of Trigonella foenum graecum Linn. to induced cadmium and lead stress. Journal of Plant Biology 48: 64–84.

2. Ashraf, M. & M. R. Foolad, 2007. Roles of glycine betaine and proline in improving plant abiotic stress resistance. Environmental and Experimental Botany 59: 206–216.

3. Balaganskaya, E. D. & O. V. Kudrjavtseva, 1998. Change of the morphological structure of leaves of Vaccinium vitis-idaea caused by heavy metal pollution. Chemosphere 36: 721–726.

4. Banas, D., B. Marin, S. Skraber, E. I. B. Chopin & A. Zanella, 2010. Copper mobilization affected by weather conditions in a stormwater detention system receiving runoff waters from vineyard soils (Champagne, France). Environmental Pollution 158: 476–482.

5. Bates, L. S., R. P. Waldren & I. D. Teare, 1973. Rapid determination of free proline for water stress studies. Plant and Soil 39: 205–207.

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1. Impact of Rare Earth Elements in sediments on the growth and photosynthetic efficiency of the benthic plant Myriophyllum aquaticum;Journal of Soils and Sediments;2024-08-02

2. Habitat requirements of Myriophyllum alterniflorum DC. in river stands of the Upper Palatinate Forest, Bavaria;Aquatic Botany;2023-09

3. Aquatic macrophytes and trace elements: Deleterious effects, biomarkers, adaptation mechanisms, and potential new wave of phytoremediation processes;Plants and Their Interaction to Environmental Pollution;2023

4. Asymmetric interaction and concurrent remediation of copper and atrazine by Acorus tatarinowii in an aquatic system;Journal of Hazardous Materials;2022-08

5. Are cysteine, glutathione and phytochelatins responses of Myriophyllum alterniflorum to copper and arsenic stress affected by trophic conditions?;BioMetals;2022-05-31

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