Zinc tolerance and accumulation in metallicolous and nonmetallicolous populations of Arabidopsis halleri (Brassicaceae)

V. BERT; M. R. MACNAIR; P. DE LAGUERIE; P. SAUMITOU-LAPRADE; D. PETIT

doi:10.1046/j.1469-8137.2000.00634.x

Abstract

Zinc tolerance was investigated in five populations of Arabidopsis halleri (syn.: Cardaminopsis halleri) raised from seeds collected from contaminated and uncontaminated sites. Tolerance was measured by determining the concentration which inhibited root growth (EC100). A. halleri populations from contaminated and uncontaminated sites were found to be Zn-tolerant compared with the Zn-nontolerant species Arabidopsis thaliana and A. lyrata subsp. petraea. At very high Zn concentrations, populations of A. halleri from uncontaminated sites were slightly less Zn-tolerant than those from contaminated sites. These observations support the hypothesis that in A. halleri, Zn tolerance is largely a constitutive property. One population from an uncontaminated site and one population from a contaminated site were studied for Zn uptake. Zinc content was measured in shoots and roots using a colorimetric test under laboratory conditions. The results showed that whatever their origin, individuals from both populations are Zn accumulators compared with the nonaccumulator species A. thaliana. Moreover, the population from the uncontaminated area accumulated Zn in its shoots and roots more quickly than the population from the contaminated site. These results suggest that, in A. halleri, Zn accumulation to very high concentration is a constitutive property.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Macnair, Mark R. Bert, Valerie Huitson, Simone B. Saumitou-Laprade, Pierre and Petit, D. 1999. Zinc tolerance and hyperaccumulation are genetically independent characters. Proceedings of the Royal Society of London. Series B: Biological Sciences, Vol. 266, Issue. 1434, p. 2175.

Schwartz, Christophe Gérard, Emilie Perronnet, Karen and Morel, Jean Louis 2001. Measurement of in situ phytoextraction of zinc by spontaneous metallophytes growing on a former smelter site. Science of The Total Environment, Vol. 279, Issue. 1-3, p. 215.

Palmer, Constantine E. Warwick, Suzanne and Keller, Wilf 2001. Brassicaceae (Cruciferae) Family, Plant Biotechnology, and Phytoremediation. International Journal of Phytoremediation, Vol. 3, Issue. 3, p. 245.

Efroymson, Rebecca A. Sample, Bradley E. and Suter, Glenn W. 2001. Uptake of inorganic chemicals from soil by plant leaves: Regressions of field data. Environmental Toxicology and Chemistry, Vol. 20, Issue. 11, p. 2561.

Assunção, A. G. L. Martins, P. Da Costa De Folter, S. Vooijs, R. Schat, H. and Aarts, M. G. M. 2001. Elevated expression of metal transporter genes in three accessions of the metal hyperaccumulatorThlaspi caerulescens. Plant, Cell & Environment, Vol. 24, Issue. 2, p. 217.

McGrath, S.P. Zhao, J. and Lombi, E. 2002. Vol. 75, Issue. , p. 1.

CrossRef

Sarret, Géraldine Saumitou-Laprade, Pierre Bert, Valérie Proux, Olivier Hazemann, Jean-Louis Traverse, Agnès Marcus, Matthew A. and Manceau, Alain 2002. Forms of Zinc Accumulated in the HyperaccumulatorArabidopsis halleri . Plant Physiology, Vol. 130, Issue. 4, p. 1815.

Baker, Alan J. M. and Whiting, Steven N. 2002. In search of the Holy Grail – a further step in understanding metal hyperaccumulation?. New Phytologist, Vol. 155, Issue. 1, p. 1.

Bert, Valérie Bonnin, Isabelle Saumitou‐Laprade, Pierre De Laguérie, Patrick and Petit, Daniel 2002. Do Arabidopsis halleri from nonmetallicolous populations accumulate zinc and cadmium more effectively than those from metallicolous populations?. New Phytologist, Vol. 155, Issue. 1, p. 47.

Clauss, M. J. Cobban, H. and Mitchell‐Olds, T. 2002. Cross‐species microsatellite markers for elucidating population genetic structure in Arabidopsis and Arabis (Brassicaeae). Molecular Ecology, Vol. 11, Issue. 3, p. 591.

Macnair, Mark R. 2002. Within and between population genetic variation for zinc accumulation in Arabidopsis halleri. New Phytologist, Vol. 155, Issue. 1, p. 59.

ROOSENS, N. VERBRUGGEN, N. MEERTS, P. XIMÉNEZ‐EMBÚN, P. and SMITH, J. A. C. 2003. Natural variation in cadmium tolerance and its relationship to metal hyperaccumulation for seven populations of Thlaspi caerulescens from western Europe. Plant, Cell & Environment, Vol. 26, Issue. 10, p. 1657.

Cho, Misuk Chardonnens, Agnes N. and Dietz, Karl‐Josef 2003. Differential heavy metal tolerance of Arabidopsis halleri and Arabidopsis thaliana: a leaf slice test. New Phytologist, Vol. 158, Issue. 2, p. 287.

Macnair, Mark R. 2003. Vol. 40, Issue. , p. 63.

CrossRef

Coolong, Timothy W. and Randle, William M. 2003. Zinc Concentration in Hydroponic Solution Culture Influences Zinc and Sulfur Accumulation inBrassica rapaL. Journal of Plant Nutrition, Vol. 26, Issue. 5, p. 949.

Assunção, Ana G. L. Ten Bookum, Wilma M. Nelissen, Hans J. M. Vooijs, Riet Schat, Henk and Ernst, Wilfried H. O. 2003. A cosegregation analysis of zinc (Zn) accumulation and Zn tolerance in the Zn hyperaccumulator Thlaspi caerulescens. New Phytologist, Vol. 159, Issue. 2, p. 383.

Assunção, Ana G. L. Schat, Henk and Aarts, Mark G. M. 2003. Thlaspi caerulescens, an attractive model species to study heavy metal hyperaccumulation in plants. New Phytologist, Vol. 159, Issue. 2, p. 351.

Huitson, Simone B. and Macnair, Mark R. 2003. Does zinc protect the zinc hyperaccumulator Arabidopsis halleri from herbivory by snails?. New Phytologist, Vol. 159, Issue. 2, p. 453.

Freeman, John L. Persans, Michael W. Nieman, Ken Albrecht, Carrie Peer, Wendy Pickering, Ingrid J. and Salt, David E. 2004. Increased Glutathione Biosynthesis Plays a Role in Nickel Tolerance in Thlaspi Nickel Hyperaccumulators[W]. The Plant Cell, Vol. 16, Issue. 8, p. 2176.

VAN ROSSUM, FABIENNE BONNIN, ISABELLE FÉNART, STÉPHANE PAUWELS, MAXIME PETIT, DANIEL and SAUMITOU‐LAPRADE, PIERRE 2004. Spatial genetic structure within a metallicolous population of Arabidopsis halleri, a clonal, self‐incompatible and heavy‐metal‐tolerant species. Molecular Ecology, Vol. 13, Issue. 10, p. 2959.

Download full list

Article contents

Zinc tolerance and accumulation in metallicolous and nonmetallicolous populations of Arabidopsis halleri (Brassicaceae)

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Zinc tolerance and accumulation in metallicolous and nonmetallicolous populations of Arabidopsis halleri (Brassicaceae)

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests