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Noccaea caerulescens
Known as:
Thlaspi caerulescens
National Institutes of Health
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Papers overview
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2013
2013
Uncoupling of reactive oxygen species accumulation and defence signalling in the metal hyperaccumulator plant Noccaea caerulescens.
H. Fones
,
C. Eyles
,
M. Bennett
,
J. A. Smith
,
G. Preston
New Phytologist
2013
Corpus ID: 30778988
The metal hyperaccumulator plant Noccaea caerulescens is protected from disease by the accumulation of high concentrations of…
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Highly Cited
2008
Highly Cited
2008
Plant response to heavy metal toxicity: Comparative study between the hyperaccumulator Thlaspi caerulescens (ecotype Ganges) and nonaccumulator plants: Lettuce, radish, and alfalfa
S. Benzarti
,
S. Mohri
,
Y. Ono
Environmental Toxicology
2008
Corpus ID: 304735
Thlaspi caerulescens (alpine pennycress) is one of the best‐known heavy metal (HM) hyperaccumulating plant species. It exhibits…
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Highly Cited
2005
Highly Cited
2005
Distribution of cadmium in leaves of Thlaspi caerulescens.
Claudia Cosio
,
L. Desantis
,
B. Frey
,
Saliou Diallo
,
C. Keller
Journal of Experimental Botany
2005
Corpus ID: 2188003
Knowledge of the intracellular distribution of Cd in leaves is necessary in order to understand the mechanisms of…
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Highly Cited
2004
Highly Cited
2004
Applying a mechanistic model to cadmium uptake by Zea mays and Thlaspi caerulescens: Consequences for the assessment of the soil quantity and capacity factors
T. Sterckeman
,
Jérôme Perriguey
,
M. Caël
,
Christophe Schwartz
,
Jean-Louis Morel
Plant and Soil
2004
Corpus ID: 25061600
The Barber-Cushman model was evaluated for its ability to predict Cd uptake by maize (Zea mays L.) and by the Viviez ecotype of…
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Highly Cited
2003
Highly Cited
2003
Cadmium tolerance and antioxidative defenses in hairy roots of the cadmium hyperaccumulator, Thlaspi caerulescens.
R. Boominathan
,
P. Doran
Biotechnology and Bioengineering
2003
Corpus ID: 32954860
Plant species capable of hyperaccumulating heavy metals are of considerable interest for phytoremediation and phytomining. This…
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Highly Cited
2003
Highly Cited
2003
Phytoextraction of cadmium with Thlaspi caerulescens
C. Schwartz
,
G. Echevarria
,
J. Morel
Plant and Soil
2003
Corpus ID: 27008478
The in situ phytoextraction of cadmium from soils can only be achieved using plants that are both tolerant to high Cd…
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Highly Cited
2001
Highly Cited
2001
Hyperaccumulation of Zn by Thlaspi caerulescens can ameliorate Zn toxicity in the rhizosphere of cocropped Thlaspi arvense.
S. N. Whiting
,
J. Leake
,
Steve P. McGrath
,
Alan J. M. Baker
Environmental Science and Technology
2001
Corpus ID: 25315012
The metal hyperaccumulating plant Thlaspi caerulescens is effective in depleting plant-available metals from the soil. We…
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Highly Cited
2001
Highly Cited
2001
Assessment of Zn mobilization in the rhizosphere of Thlaspi caerulescens by bioassay with non-accumulator plants and soil extraction
S. N. Whiting
,
J. Leake
,
S. McGrath
,
A. Baker
Plant and Soil
2001
Corpus ID: 25874048
This study used co-cultivated plants as a bioassay to test the hypothesis that the roots of the zinc-hyperaccumulating plant…
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Highly Cited
2001
Highly Cited
2001
Influence of the zinc hyperaccumulator Thlaspi caerulescens J. & C. Presl. and the nonmetal accumulator Trifolium pratense L. on soil microbial populations.
T. Delorme
,
J. Gagliardi
,
J. Angle
,
R. Chaney
Canadian Journal of Microbiology (print)
2001
Corpus ID: 21355276
Metal hyperaccumulator plants like Thlaspi caerulescens J. & C. Presl. are used for phytoremediation of contaminated soils. Since…
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Highly Cited
2000
Highly Cited
2000
Availability of cadmium and zinc accumulated in the leaves of Thlaspi caerulescens incorporated into soil
K. Perronnet
,
C. Schwartz
,
E. Gérard
,
J. Morel
Plant and Soil
2000
Corpus ID: 24076309
When grown on contaminated soil, hyperaccumulator plants contain high concentrations of metals which may return to the soil after…
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