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Sex-related responses of European aspen (Populus tremula L.) to combined stress: TiO2 nanoparticles, elevated temperature and CO2 concentration.

Identifieur interne : 000C82 ( Main/Exploration ); précédent : 000C81; suivant : 000C83

Sex-related responses of European aspen (Populus tremula L.) to combined stress: TiO2 nanoparticles, elevated temperature and CO2 concentration.

Auteurs : Yaodan Zhang [Finlande] ; Virpi Virjamo [Finlande] ; Norul Sobuj [Finlande] ; Wenchao Du [République populaire de Chine] ; Ying Yin [République populaire de Chine] ; Line Nybakken [Norvège] ; Hongyan Guo [République populaire de Chine] ; Riitta Julkunen-Tiitto [Finlande]

Source :

RBID : pubmed:29602072

Descripteurs français

English descriptors

Abstract

The combined effects of climate change and chemical contaminants on plant performance are still not well understood. Especially, whether different sexes of dioecious plants respond differently to combined stresses is unknown. In order to study the sex-related responses of European aspen to soil nTiO2 contamination (0, 50, 300 mg kg-1) under elevated temperature (+1.6 °C) and CO2 (730 ppm), we conducted a study in greenhouses. Ti accumulated in roots exposed to nTiO2 (1.1-3.3 and 2.7-21.1 mg kg-1 in 50 and 300 mg kg-1 treatments, respectively). Elevated CO2 had no effects on Ti uptake, while elevated temperature increased it in the 300 mg kg-1 treatment. Males grew taller than females under ambient conditions, but females had greater height and biomass increment under elevated temperature. In all climate treatments, nTiO2 increased leaf phenolics in females by 12-19% and 15-26% at 50 and 300 mg kg-1, respectively. Leaf phenolics decreased under elevated temperature, but increased under elevated CO2 in both sexes. Results suggest that females have better chemical defense against nTiO2 than males under future climate conditions. In the longer run, this may cause changes in the competitive abilities of both sexes, which again may affect sex ratios and genetic variation in nature.

DOI: 10.1016/j.jhazmat.2018.03.031
PubMed: 29602072


Affiliations:

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Le document en format XML

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<div type="abstract" xml:lang="en">The combined effects of climate change and chemical contaminants on plant performance are still not well understood. Especially, whether different sexes of dioecious plants respond differently to combined stresses is unknown. In order to study the sex-related responses of European aspen to soil nTiO
<sub>2</sub>
contamination (0, 50, 300 mg kg
<sup>-1</sup>
) under elevated temperature (+1.6 °C) and CO
<sub>2</sub>
(730 ppm), we conducted a study in greenhouses. Ti accumulated in roots exposed to nTiO
<sub>2</sub>
(1.1-3.3 and 2.7-21.1 mg kg
<sup>-1</sup>
in 50 and 300 mg kg
<sup>-1</sup>
treatments, respectively). Elevated CO
<sub>2</sub>
had no effects on Ti uptake, while elevated temperature increased it in the 300 mg kg
<sup>-1</sup>
treatment. Males grew taller than females under ambient conditions, but females had greater height and biomass increment under elevated temperature. In all climate treatments, nTiO
<sub>2</sub>
increased leaf phenolics in females by 12-19% and 15-26% at 50 and 300 mg kg
<sup>-1</sup>
, respectively. Leaf phenolics decreased under elevated temperature, but increased under elevated CO
<sub>2</sub>
in both sexes. Results suggest that females have better chemical defense against nTiO
<sub>2</sub>
than males under future climate conditions. In the longer run, this may cause changes in the competitive abilities of both sexes, which again may affect sex ratios and genetic variation in nature.</div>
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<sub>2</sub>
contamination (0, 50, 300 mg kg
<sup>-1</sup>
) under elevated temperature (+1.6 °C) and CO
<sub>2</sub>
(730 ppm), we conducted a study in greenhouses. Ti accumulated in roots exposed to nTiO
<sub>2</sub>
(1.1-3.3 and 2.7-21.1 mg kg
<sup>-1</sup>
in 50 and 300 mg kg
<sup>-1</sup>
treatments, respectively). Elevated CO
<sub>2</sub>
had no effects on Ti uptake, while elevated temperature increased it in the 300 mg kg
<sup>-1</sup>
treatment. Males grew taller than females under ambient conditions, but females had greater height and biomass increment under elevated temperature. In all climate treatments, nTiO
<sub>2</sub>
increased leaf phenolics in females by 12-19% and 15-26% at 50 and 300 mg kg
<sup>-1</sup>
, respectively. Leaf phenolics decreased under elevated temperature, but increased under elevated CO
<sub>2</sub>
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<sub>2</sub>
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