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Journal articles on the topic 'Carpobrotus rossii'

Author: Grafiati
Published: 10 January 2023
Last updated: 31 July 2025

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1

Zhang, Chengjun, Peter W. G. Sale, and Caixian Tang. "Cadmium uptake by Carpobrotus rossii (Haw.) Schwantes under different saline conditions." Environmental Science and Pollution Research 23, no. 13 (2016): 13480–88. http://dx.doi.org/10.1007/s11356-016-6508-5.

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2

Pirie, Adam D., Noel W. Davies, Kiran D. K. Ahuja, et al. "Hypolipidaemic effect of crude extract from Carpobrotus rossii (pigface) in healthy rats." Food and Chemical Toxicology 66 (April 2014): 134–39. http://dx.doi.org/10.1016/j.fct.2014.01.034.

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3

Pirie, Adam, David Parsons, Jolanda Renggli, Christian Narkowicz, Glenn A. Jacobson, and Sergey Shabala. "Modulation of flavonoid and tannin production of Carpobrotus rossii by environmental conditions." Environmental and Experimental Botany 87 (March 2013): 19–31. http://dx.doi.org/10.1016/j.envexpbot.2012.10.001.

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4

Geraghty, Dominic P., Kiran D. K. Ahuja, Jane Pittaway, et al. "In vitro antioxidant, antiplatelet and anti-inflammatory activity of Carpobrotus rossii (pigface) extract." Journal of Ethnopharmacology 134, no. 1 (2011): 97–103. http://dx.doi.org/10.1016/j.jep.2010.11.060.

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5

Pirie, Adam, Sergey Shabala, David Parsons, Christian Narkowicz, Glenn Jacobson, and Jolanda Renggli. "Ecophysiology of Carpobrotus rossii in Tasmania: Linking plant’s antioxidant pctivity with a natural habitat." Ecological Questions 14 (July 8, 2011): 91. http://dx.doi.org/10.12775/v10090-011-0026-3.

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6

Pirie, A. D., K. D. K. Ahuja, G. A. Jacobson, D. P. Geraghty, C. K. Narkowicz, and M. A. Keske. "Glucose tolerance is improved by supplementation with carpobrotus rossii flavonoids in insulin resistant mice." Journal of Nutrition & Intermediary Metabolism 1 (December 2014): 42. http://dx.doi.org/10.1016/j.jnim.2014.10.154.

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7

Zhang, Chengjun, Peter W. G. Sale, Augustine I. Doronila, Gary J. Clark, Caitlin Livesay, and Caixian Tang. "Australian native plant species Carpobrotus rossii (Haw.) Schwantes shows the potential of cadmium phytoremediation." Environmental Science and Pollution Research 21, no. 16 (2014): 9843–51. http://dx.doi.org/10.1007/s11356-014-2919-3.

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8

Miranzadeh, Mohammad Bagher, Parnia Bashardoust, Fatemeh Atoof, et al. "Effect of salinity on the potential cadmium phytoremediation from the polluted soil by carpobrotus rossii." Heliyon 9, no. 3 (2023): e13858. http://dx.doi.org/10.1016/j.heliyon.2023.e13858.

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9

Cheng, Miaomiao, Anan Wang, and Caixian Tang. "Ammonium-based fertilizers enhance Cd accumulation in Carpobrotus rossii grown in two soils differing in pH." Chemosphere 188 (December 2017): 689–96. http://dx.doi.org/10.1016/j.chemosphere.2017.09.032.

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10

Liu, Wuxing, Chengjun Zhang, Pengjie Hu, et al. "Influence of nitrogen form on the phytoextraction of cadmium by a newly discovered hyperaccumulator Carpobrotus rossii." Environmental Science and Pollution Research 23, no. 2 (2015): 1246–53. http://dx.doi.org/10.1007/s11356-015-5231-y.

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11

Cheng, Miaomiao, Peter M. Kopittke, Anan Wang, Peter W. G. Sale, and Caixian Tang. "Cadmium reduces zinc uptake but enhances its translocation in the cadmium-accumulator, Carpobrotus rossii, without affecting speciation." Plant and Soil 430, no. 1-2 (2018): 219–31. http://dx.doi.org/10.1007/s11104-018-3707-5.

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12

Cheng, Miaomiao, Anan Wang, Zhiqian Liu, Anthony R. Gendall, Simone Rochfort, and Caixian Tang. "Sodium chloride decreases cadmium accumulation and changes the response of metabolites to cadmium stress in the halophyte Carpobrotus rossii." Annals of Botany 122, no. 3 (2018): 373–85. http://dx.doi.org/10.1093/aob/mcy077.

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13

Percey, William J., Andrew McMinn, Jayakumar Bose, Michael C. Breadmore, Rosanne M. Guijt, and Sergey Shabala. "Salinity effects on chloroplast PSII performance in glycophytes and halophytes." Functional Plant Biology 43, no. 11 (2016): 1003. http://dx.doi.org/10.1071/fp16135.

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The effects of NaCl stress and K+ nutrition on photosynthetic parameters of isolated chloroplasts were investigated using PAM fluorescence. Intact mesophyll cells were able to maintain optimal photosynthetic performance when exposed to salinity for more than 24 h whereas isolated chloroplasts showed declines in both the relative electron transport rate (rETR) and the maximal photochemical efficiency of PSII (Fv/Fm) within the first hour of treatment. The rETR was much more sensitive to salt stress compared with Fv/Fm, with 40% inhibition of rETR observed at apoplastic NaCl concentration as low
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14

François, Charlotte J., Steven Batinovic, Steve Petrovski, and Anthony R. Gendall. "Draft Genome Sequence of Enterobacter asburiae NCR1, a Plant Growth-Promoting Rhizobacterium Isolated from a Cadmium-Contaminated Environment." Microbiology Resource Announcements 10, no. 35 (2021). http://dx.doi.org/10.1128/mra.00478-21.

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Enterobacter asburiae NCR1 is a plant growth-promoting rhizobacterium isolated from the rhizosphere of Carpobrotus rossii . We report the draft genome sequence of E. asburiae strain NCR1, which revealed many genes facilitating beneficial interactions with plant hosts.
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15

Egidi, Eleonora, Jennifer L. Wood, Edward M. Fox, Wuxing Liu, and Ashley E. Franks. "Draft Genome Sequence of Leifsonia sp. Strain NCR5, a Rhizobacterium Isolated from Cadmium-Contaminated Soil." Genome Announcements 5, no. 23 (2017). http://dx.doi.org/10.1128/genomea.00520-17.

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ABSTRACT We report here the draft genome sequence of Leifsonia sp. strain NCR5, a Gram-positive actinomycete isolated from Carpobrotus rossii (Haw.) Schwantes rhizosphere. The de novo genome of Leifsonia sp. strain NCR5 was assembled with 69 scaffolds and a G+C content of 69%, was 4.2 Mb in length, and contained 3,952 coding sequences.
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16

Egidi, Eleonora, Jennifer L. Wood, Sanja Aracic, et al. "Draft Genome Sequence of Enterobacter ludwigii NCR3, a Heavy Metal–Resistant Rhizobacterium." Genome Announcements 4, no. 5 (2016). http://dx.doi.org/10.1128/genomea.01076-16.

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We report here the draft genome of Enterobacter ludwigii NCR3, a Gram-negative bacterium isolated from the Carpobrotus rossii (Haw.) Schwantes rhizosphere. The analysis of the ~4.8-Mb draft genome shows that this strain harbors several genes associated with heavy metal resistance and plant growth–promoting activity, suggesting its potential application in microbe-assisted phytoremediation.
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17

Pirie, Adam, Sergey Shabala, David Parsons, Christian Narkowicz, Glenn Jacobson, and Jolanda Renggli. "Ecophysiology of Carpobrotus rossii in Tasmania: Linking plant’s antioxidant pctivity with a natural habitat." Ecological Questions 14, no. 1 (2010). http://dx.doi.org/10.2478/v10090-011-0026-3.

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18

Guo, Bihan, Stefan K. Arndt, Rebecca E. Miller, Christopher Szota, and Claire Farrell. "How does leaf succulence relate with plant drought resistance in woody shrubs?" Tree Physiology, May 19, 2023. http://dx.doi.org/10.1093/treephys/tpad066.

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Abstract Succulence describes the amount of water stored in cells or organs, regardless of plant life-form, including woody and herbaceous plants. In dry environments, plants with greater survival often have greater leaf succulence. However, it is unclear how leaf succulence relates with plant drought resistance strategies, including isohydry (closing stomata to maintain leaf water status) and anisohydry (adjusting cell turgor to tolerate low leaf water status), which exist on a continuum that can be quantified by hydroscape area (larger hydroscape area indicates more anisohydric). We evaluate
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