Nazari, Fatemeh

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  • Nazari, Fatemeh (1)
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Author's Bibliography

Weed Species from Tea Gardens as a Source of Novel Aluminum Hyperaccumulators

Hajiboland, Roghieh; Moradi, Aiuob; Kahneh, Ehsan; Poschenrieder, Charlotte; Nazari, Fatemeh; Pavlović, Jelena; Tolra, Roser; Salehi-Lisar, Seyed-Yahya; Nikolic, Miroslav

(MDPI, Basel, Switzerland, 2023) 

TY  - JOUR
AU  - Hajiboland, Roghieh
AU  - Moradi, Aiuob
AU  - Kahneh, Ehsan
AU  - Poschenrieder, Charlotte
AU  - Nazari, Fatemeh
AU  - Pavlović, Jelena
AU  - Tolra, Roser
AU  - Salehi-Lisar, Seyed-Yahya
AU  - Nikolic, Miroslav
PY  - 2023
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/1979
AB  - Increased availability of toxic Al3+ is the main constraint limiting plant growth on acid soils. Plants adapted to acid soils, however, tolerate toxic Al3+, and some can accumulate Al in their aerial parts to a significant degree. Studies on Al-tolerant and Al-accumulating species have mainly focused on the vegetation of acid soils distributed as two global belts in the northern and southern hemispheres, while acid soils formed outside these regions have been largely neglected. The acid soils (pH 3.4–4.2) of the tea plantations in the south Caspian region of Northern Iran were surveyed over three seasons at two main locations. Aluminum and other mineral elements (including nutrients) were measured in 499 plant specimens representing 86 species from 43 families. Al accumulation exceeding the criterion for accumulator species (>1000 μg g−1 DW) was found in 36 species belonging to 23 families of herbaceous annual or perennial angiosperms, in addition to three bryophyte species. Besides Al, Fe accumulation (1026–5155 μg g−1 DW) was also observed in the accumulator species that exceeded the critical toxicity concentration, whereas no such accumulation was observed for Mn. The majority of analyzed accumulator plants (64%) were cosmopolitan or pluriregional species, with a considerable rate of Euro-Siberian elements (37%). Our findings, which may contribute to phylogenetic studies of Al accumulators, also suggest suitable accumulator and excluder species for the rehabilitation of acid-eroded soils and introduce new model species for investigating Al accumulation and exclusion mechanisms.
PB  - MDPI, Basel, Switzerland
T2  - Plants
T1  - Weed Species from Tea Gardens as a Source of Novel Aluminum Hyperaccumulators
SP  - 2129
VL  - 12
DO  - doi.org/10.3390/plants12112129
ER  - 
@article{
author = "Hajiboland, Roghieh and Moradi, Aiuob and Kahneh, Ehsan and Poschenrieder, Charlotte and Nazari, Fatemeh and Pavlović, Jelena and Tolra, Roser and Salehi-Lisar, Seyed-Yahya and Nikolic, Miroslav",
year = "2023",
abstract = "Increased availability of toxic Al3+ is the main constraint limiting plant growth on acid soils. Plants adapted to acid soils, however, tolerate toxic Al3+, and some can accumulate Al in their aerial parts to a significant degree. Studies on Al-tolerant and Al-accumulating species have mainly focused on the vegetation of acid soils distributed as two global belts in the northern and southern hemispheres, while acid soils formed outside these regions have been largely neglected. The acid soils (pH 3.4–4.2) of the tea plantations in the south Caspian region of Northern Iran were surveyed over three seasons at two main locations. Aluminum and other mineral elements (including nutrients) were measured in 499 plant specimens representing 86 species from 43 families. Al accumulation exceeding the criterion for accumulator species (>1000 μg g−1 DW) was found in 36 species belonging to 23 families of herbaceous annual or perennial angiosperms, in addition to three bryophyte species. Besides Al, Fe accumulation (1026–5155 μg g−1 DW) was also observed in the accumulator species that exceeded the critical toxicity concentration, whereas no such accumulation was observed for Mn. The majority of analyzed accumulator plants (64%) were cosmopolitan or pluriregional species, with a considerable rate of Euro-Siberian elements (37%). Our findings, which may contribute to phylogenetic studies of Al accumulators, also suggest suitable accumulator and excluder species for the rehabilitation of acid-eroded soils and introduce new model species for investigating Al accumulation and exclusion mechanisms.",
publisher = "MDPI, Basel, Switzerland",
journal = "Plants",
title = "Weed Species from Tea Gardens as a Source of Novel Aluminum Hyperaccumulators",
pages = "2129",
volume = "12",
doi = "doi.org/10.3390/plants12112129"
}
Hajiboland, R., Moradi, A., Kahneh, E., Poschenrieder, C., Nazari, F., Pavlović, J., Tolra, R., Salehi-Lisar, S.,& Nikolic, M.. (2023). Weed Species from Tea Gardens as a Source of Novel Aluminum Hyperaccumulators. in Plants
MDPI, Basel, Switzerland., 12, 2129.
https://doi.org/doi.org/10.3390/plants12112129
Hajiboland R, Moradi A, Kahneh E, Poschenrieder C, Nazari F, Pavlović J, Tolra R, Salehi-Lisar S, Nikolic M. Weed Species from Tea Gardens as a Source of Novel Aluminum Hyperaccumulators. in Plants. 2023;12:2129.
doi:doi.org/10.3390/plants12112129 .
Hajiboland, Roghieh, Moradi, Aiuob, Kahneh, Ehsan, Poschenrieder, Charlotte, Nazari, Fatemeh, Pavlović, Jelena, Tolra, Roser, Salehi-Lisar, Seyed-Yahya, Nikolic, Miroslav, "Weed Species from Tea Gardens as a Source of Novel Aluminum Hyperaccumulators" in Plants, 12 (2023):2129,
https://doi.org/doi.org/10.3390/plants12112129 . .