Articles citing this paper
cfArticle2ecfc1291681887$funcTITLE@58569e5a
Naveen P. Bhatia A B D , Kerry B. Walsh A , Ivo Orlic B , Rainer Siegele B , Nanjappa Ashwath A and Alan J. M. Baker C
+ Author Affiliations
- Author Affiliations
A Primary Industries Research Centre, School of Biological and Environmental Sciences, Central Queensland University, Rockhampton, Qld 4702, Australia.
B Environment Division, Australian Nuclear Science and Technology Organisation (ANSTO), Lucas Heights, NSW 2234, Australia.
C School of Botany, The University of Melbourne, Vic. 3010, Australia.
D Corresponding author. Email: naveen.bhatia@ansto.gov.au
Functional Plant Biology 31(11) 1061-1074 https://doi.org/10.1071/FP03192
Submitted: 22 October 2003 Accepted: 21 June 2004 Published: 18 November 2004
62 articles found in Crossref database.
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van der Ent Antony,
Vinya Royd,
Erskine Peter D,
Malaisse François,
Przybyłowicz Wojciech J,
Barnabas Alban D,
Harris Hugh H, Mesjasz-Przybyłowicz Jolanta
Metallomics. 2020 12(5). p.682
Zinc and lead accumulation characteristics and in vivo distribution of Zn2+ in the hyperaccumulator Noccaea caerulescens elucidated with fluorescent probes and laser confocal microscopy
Dinh Ngoc,
van der Ent Antony,
Mulligan David R., Nguyen Anh V.
Environmental and Experimental Botany. 2018 147 p.1
Agromining: Farming for Metals (2018)
Pollen morphology and localization of Ni in some Ni-hyperaccumulator taxa of Alyssum L. (Brassicaceae)
Pavlova D.,
De La Fuente V.,
SÁNchez-Mata D., Rufo L.
Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology. 2016 150(4). p.671
Improved resolution and sensitivity on the ANSTO microprobe and it’s application to μ-PIXE
Siegele R.,
Kachenko A.G.,
Ionescu M., Cohen D.D.
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. 2009 267(12-13). p.2054
PIXE and metal hyperaccumulation: from soil to plants and insects
Mesjasz‐Przybyłowicz J., Przybyłowicz W. J.
X-Ray Spectrometry. 2011 40(3). p.181
Sulfur Assimilation and Abiotic Stress in Plants (2008)
Improving the phytoextraction capacity of plants to scavenge metal(loid)-contaminated sites
Iqbal Muhammad,
Ahmad Altaf,
Ansari M.K.A.,
Qureshi M.I.,
Aref Ibrahim M.,
Khan P.R.,
Hegazy S.S.,
El-Atta Hashim,
Husen Azamal, Hakeem Khalid R.
Environmental Reviews. 2015 23(1). p.44
Physiological Responses and Adaptations of the Halophyte Atriplex halimus to Soil Contaminated with Cd, Ni, and NaCl
Ishtiyaq Shumailah,
Kumar Harsh,
D’Souza Rohan J.,
Varun Mayank,
Favas Paulo J. C., Paul Manoj S.
Soil Systems. 2023 7(2). p.46
Soil Heavy Metals (2010)
Detection of nickel in maize roots: A novel nondestructive approach by reflectance spectroscopy and colorimetric models
Fedenko Volodymyr S.,
Landi Marco, Shemet Sergiy A.
Ecological Indicators. 2017 82 p.463
Arsenic hyperaccumulation and localization in the pinnule and stipe tissues of the gold-dust fern (Pityrogramma calomelanos (L.) Link var. austroamericana (Domin) Farw.) using quantitative micro-PIXE spectroscopy
Kachenko Anthony G.,
Bhatia Naveen P.,
Singh Balwant, Siegele Rainer
Plant and Soil. 2007 300(1-2). p.207
Soil chemistry, elemental profiles and elemental distribution in nickel hyperaccumulator species from New Caledonia
Gei Vidiro,
Echevarria Guillaume,
Erskine Peter D.,
Isnard Sandrine,
Fogliani Bruno,
Montargès-Pelletier Emmanuelle,
Jaffré Tanguy,
Spiers Kathryn M.,
Garrevoet Jan, van der Ent Antony
Plant and Soil. 2020 457(1-2). p.293
Do high‐nickel leaves shed by the nickel hyperaccumulator Alyssum murale inhibit seed germination of competing plants?
Zhang Lan,
Angle J. Scott, Chaney Rufus L.
New Phytologist. 2007 173(3). p.509
Mycorrhiza (2008)
Mapping of nickel in root cross-sections of the hyperaccumulator plant Berkheya coddii using laser ablation ICP-MS
Moradi Ahmad B.,
Swoboda Siegfried,
Robinson Brett,
Prohaska Thomas,
Kaestner Anders,
Oswald Sascha E.,
Wenzel Walter W., Schulin Rainer
Environmental and Experimental Botany. 2010 69(1). p.24
Agromining: Farming for Metals (2021)
Relationships between Ni-hyperaccumulation and mycorrhizal status of different endemic plant species from New Caledonian ultramafic soils
Amir H.,
Perrier N.,
Rigault F., Jaffré T.
Plant and Soil. 2007 293(1-2). p.23
Freeze-substitution methods for Ni localization and quantitative analysis in Berkheya coddii leaves by means of PIXE
Budka D.,
Mesjasz-Przybyłowicz J.,
Tylko G., Przybyłowicz W.J.
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. 2005 231(1-4). p.338
Quantitative mapping of elemental distribution in leaves of the metallophytes Helichrysum candolleanum, Blepharis aspera, and Blepharis diversispina from Selkirk Cu–Ni mine, Botswana
Koosaletse-Mswela Pulane,
Przybyłowicz Wojciech J.,
Cloete Karen J.,
Barnabas Alban D.,
Torto Nelson, Mesjasz-Przybyłowicz Jolanta
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. 2015 363 p.188
Nickel: An Overview of Uptake, Essentiality and Toxicity in Plants
Yusuf M.,
Fariduddin Q.,
Hayat S., Ahmad A.
Bulletin of Environmental Contamination and Toxicology. 2011 86(1). p.1
Accumulation of Nickel in Trichomes of a Nickel Hyperaccumulator Plant,Alyssum inflatum
Ghasemi Rasoul,
Ghaderian Seyed Majid, Krämer Ute
Northeastern Naturalist. 2009 16(sp5). p.81
A role for nickel in osmotic adjustment in drought-stressed plants of the nickel hyperaccumulator Stackhousia tryonii Bailey
Bhatia Naveen P.,
Baker Alan J. M.,
Walsh Kerry B., Midmore David J.
Planta. 2005 223(1). p.134
Dimethylglyoxime (DMG) staining for semi-quantitative mapping of Ni in plant tissue
Gramlich Anja,
Moradi Ahmad B.,
Robinson Brett H.,
Kaestner Anders, Schulin Rainer
Environmental and Experimental Botany. 2011 71(2). p.232
(2012)
Nickel distribution in
van der Ent Antony,
Spiers Kathryn M.,
Brueckner Dennis,
Erskine Peter D., Williams Dick
Australian Journal of Botany. 2022 70(4). p.304
In situ analysis of metal(loid)s in plants: State of the art and artefacts
Lombi Enzo,
Scheckel Kirk G., Kempson Ivan M.
Environmental and Experimental Botany. 2011 72(1). p.3
Extreme nickel hyperaccumulation in the vascular tracts of the tree Phyllanthus balgooyi from Borneo
Mesjasz‐Przybylowicz Jolanta,
Przybylowicz Wojciech,
Barnabas Alban, van der Ent Antony
New Phytologist. 2016 209(4). p.1513
Evolution of nickel hyperaccumulation by Stackhousia tryonii (Celastraceae), a serpentinite-endemic plant from Queensland, Australia
Burge Dylan O., Barker W. R.
Australian Systematic Botany. 2010 23(6). p.415
Effects of soil contamination by trace elements on white poplar progeny: seed germination and seedling vigour
Madejón Paula,
Cantos Manuel,
Jiménez-Ramos María C.,
Marañón Teodoro, Murillo José M.
Environmental Monitoring and Assessment. 2015 187(11).
Distribution correlations of cadmium to calcium, phosphorus, sodium and chloridion in mangrove Aegiceras corniculatum root tissues
Li Jian,
Yu Junyi,
Yan Chongling,
Du Daolin,
Liu Jingchun, Lu Haoliang
Marine Pollution Bulletin. 2018 126 p.179
Nickel elicits a fast antioxidant response in Coffea arabica cells
Gomes-Junior R.A.,
Moldes C.A.,
Delite F.S.,
Gratão P.L.,
Mazzafera P.,
Lea P.J., Azevedo R.A.
Plant Physiology and Biochemistry. 2006 44(5-6). p.420
Incidence of hyperaccumulation and tissue-level distribution of manganese, cobalt, and zinc in the genus Gossia (Myrtaceae)
Abubakari Farida,
Nkrumah Philip Nti,
Fernando Denise R,
Brown Gillian K,
Erskine Peter D,
Echevarria Guillaume, van der Ent Antony
Metallomics. 2021 13(4).
Localisation and quantification of elements within seeds of Cd/Zn hyperaccumulator Thlaspi praecox by micro-PIXE
Vogel-Mikuš Katarina,
Pongrac Paula,
Kump Peter,
Nečemer Marijan,
Simčič Jure,
Pelicon Primož,
Budnar Miloš,
Povh Bogdan, Regvar Marjana
Environmental Pollution. 2007 147(1). p.50
Analysis of anatomical changes and cadmium distribution in Aegiceras corniculatum (L.) Blanco roots under cadmium stress
Li Jian,
Yu Junyi,
Du Daolin,
Liu Jingchun,
Lu Haoliang, Yan Chongling
Marine Pollution Bulletin. 2019 149 p.110536
Accumulation and in vivo tissue distribution of pollutant elements in Erica andevalensis
Rossini Oliva S.,
Valdés B., Leidi E.O.
Science of The Total Environment. 2009 407(6). p.1929
Evaluation of specimen preparation techniques for micro-PIXE localisation of elements in hyperaccumulating plants
Kachenko Anthony G.,
Siegele Rainer,
Bhatia Naveen P.,
Singh Balwant, Ionescu Mihail
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. 2008 266(8). p.1598
Soil Heavy Metals (2010)
Cadmium stress alleviation potential of Bruguiera cylindrica (L.) Blume enhances in combination with NaCl
Sruthi Palliyath, Puthur Jos T.
Bioremediation Journal. 2022 26(2). p.89
Detection and quantification of ligands involved in nickel detoxification in a herbaceous Ni hyperaccumulator Stackhousia tryonii Bailey
Bhatia Naveen P.,
Walsh Kerry B., Baker Alan J. M.
Journal of Experimental Botany. 2005 56(415). p.1343
Cd induced redistribution of elements within leaves of the Cd/Zn hyperaccumulator Thlaspi praecox as revealed by micro-PIXE
Pongrac Paula,
Vogel-Mikuš Katarina,
Vavpetič Primož,
Tratnik Janja,
Regvar Marjana,
Simčič Jurij,
Grlj Nataša, Pelicon Primož
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. 2010 268(11-12). p.2205
X-ray fluorescence elemental mapping of roots, stems and leaves of the nickel hyperaccumulators Rinorea cf. bengalensis and Rinorea cf. javanica (Violaceae) from Sabah (Malaysia), Borneo
van der Ent Antony,
de Jonge Martin D.,
Mak Rachel,
Mesjasz-Przybyłowicz Jolanta,
Przybyłowicz Wojciech J.,
Barnabas Alban D., Harris Hugh H.
Plant and Soil. 2020 448(1-2). p.15
Plant Metallomics and Functional Omics (2019)
Making the life of heavy metal-stressed plants a little easier
Gratão Priscila L.,
Polle Andrea,
Lea Peter J., Azevedo Ricardo A.
Functional Plant Biology. 2005 32(6). p.481
The influence of EDTA on the accumulation, movement, and distribution of cadmium in dwarf elephant grass
Tananonchai Aekkacha, Sampanpanish Pantawat
Environmental Technology & Innovation. 2020 17 p.100555
Comparison of essential and non‐essential element distribution in leaves of the Cd/Zn hyperaccumulator Thlaspi praecox as revealed by micro‐PIXE
VOGEL‐MIKUŠ KATARINA,
SIMČIČ JURE,
PELICON PRIMOŽ,
BUDNAR MILOŠ,
KUMP PETER,
NEČEMER MARIJAN,
MESJASZ‐PRZYBYŁOWICZ JOLANTA,
PRZYBYŁOWICZ WOJCIECH J., REGVAR MARJANA
Plant, Cell & Environment. 2008 31(10). p.1484
Quantitative elemental localisation in leaves and stems of nickel hyperaccumulating shrub Hybanthusfloribundus subsp. floribundus using micro-PIXE spectroscopy
Kachenko Anthony G,
Singh Balwant,
Bhatia Naveen P, Siegele Rainer
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. 2008 266(4). p.667
Ultramafic geoecology of South and Southeast Asia
Galey M. L.,
van der Ent A.,
Iqbal M. C. M., Rajakaruna N.
Botanical Studies. 2017 58(1).
Nickel, Zn and Cd localisation in seeds of metal hyperaccumulators using μ-PIXE spectroscopy
Kachenko Anthony G.,
Bhatia Naveen P.,
Siegele Rainer,
Walsh Kerry B., Singh Balwant
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. 2009 267(12-13). p.2176
Nickel biopathways in tropical nickel hyperaccumulating trees from Sabah (Malaysia)
van der Ent Antony,
Callahan Damien L.,
Noller Barry N.,
Mesjasz-Przybylowicz Jolanta,
Przybylowicz Wojciech J.,
Barnabas Alban, Harris Hugh H.
Scientific Reports. 2017 7(1).
Roles of root and shoot tissues in transport and accumulation of cadmium, lead, nickel, and strontium
Seregin I. V., Kozhevnikova A. D.
Russian Journal of Plant Physiology. 2008 55(1). p.1
Phosphorus toxicity in the Proteaceae: A problem in post-agricultural lands
Hawkins Heidi-Jayne,
Hettasch Hans,
Mesjasz-Przybylowicz Jolanta,
Przybylowicz Wojciech, Cramer Michael D.
Scientia Horticulturae. 2008 117(4). p.357
Cadmium uptake and sequestration kinetics in individual leaf cell protoplasts of the Cd/Zn hyperaccumulator Thlaspi caerulescens
LEITENMAIER BARBARA, KÜPPER HENDRIK
Plant, Cell & Environment. 2011 34(2). p.208
Cellular-level distribution of manganese in Macadamia integrifolia, M. ternifolia, and M. tetraphylla from Australia
Abubakari Farida,
Fernando Denise R,
Nkrumah Philip Nti,
Harris Hugh H,
Erskine Peter D, van der Ent Antony
Metallomics. 2022 14(8).
Elemental imaging of leaves from the metal hyperaccumulating plant Noccaea caerulescens shows different spatial distribution of Ni, Zn and Cd
Callahan Damien L.,
Hare Dominic J.,
Bishop David P.,
Doble Philip A., Roessner Ute
RSC Advances. 2016 6(3). p.2337
Localisation of trace metals in metal‐accumulating plants using µ‐PIXE
Siegele R.,
Kachenko A. G.,
Bhatia N. P.,
Wang Y. D.,
Ionescu M.,
Singh B.,
Baker A. J. M., Cohen D. D.
X-Ray Spectrometry. 2008 37(2). p.133
Transient Influx of Nickel in Root Mitochondria Modulates Organic Acid and Reactive Oxygen Species Production in Nickel Hyperaccumulator Alyssum murale
Agrawal Bhavana,
Czymmek Kirk J.,
Sparks Donald L., Bais Harsh P.
Journal of Biological Chemistry. 2013 288(10). p.7351
Cadmium‐induced inhibition of photosynthesis and long‐term acclimation to cadmium stress in the hyperaccumulator Thlaspi caerulescens
Küpper Hendrik,
Parameswaran Aravind,
Leitenmaier Barbara,
Trtílek Martin, Šetlík Ivan
New Phytologist. 2007 175(4). p.655
Uptake, Localization, and Speciation of Cobalt in Triticum aestivum L. (Wheat) and Lycopersicon esculentum M. (Tomato)
Collins Richard N.,
Bakkaus Estelle,
Carrière Marie,
Khodja Hicham,
Proux Olivier,
Morel Jean-Louis, Gouget Barbara
Environmental Science & Technology. 2010 44(8). p.2904
Convergent patterns of tissue-level distribution of elements in different tropical woody nickel hyperaccumulator species from Borneo Island
Abubakari Farida,
Mesjasz-Przybyłowicz Jolanta,
Przybyłowicz Wojciech J,
van der Ent Antony, Rajakaruna Nishanta
AoB PLANTS. 2020 12(6).
X‐ray absorption spectroscopy at the NiK edge in Stackhousia tryonii Bailey hyperaccumulator
Ionescu M.,
Bhatia N. P.,
Cohen D. D.,
Kachenko A.,
Siegele R.,
Marcus M. A.,
Fakra S., Foran G.
X-Ray Spectrometry. 2008 37(6). p.629
Synchrotron µXRF imaging of live seedlings of Berkheya coddii and Odontarrhena muralis during germination and seedling growth
Paul Adrian L. D.,
Harris Hugh H.,
Erskine Peter D.,
Przybyłowicz Wojciech,
Mesjasz-Przybyłowicz Jolanta,
Echevarria Guillaume, van der Ent Antony
Plant and Soil. 2020 453(1-2). p.487