Change in uptake, transport and accumulation of ions in Nerium oleander (Rosebay) as affected by different nitrogen sources and salinity

Ahmad Abdolzadeh, Kazuto Shima, Hans Lambers, Kyozo Chiba

Research output: Contribution to journalArticle

20 Citations (Scopus)

Abstract

• Background and Aims: The source of nitrogen plays an important role in salt tolerance of plants. In this study, the effects of NaCl on net uptake, accumulation and transport of ions were investigated in Nerium oleander with ammonium or nitrate as the nitrogen source in order to analyse differences in uptake and cycling of ions within plants. • Methods: Plants were grown in a greenhouse in hydroponics under different salt treatments (control vs. 100 mm NaCl) with ammonium or nitrate as the nitrogen source, and changes in ion concentration in plants, xylem sap exuded from roots and stems, and phloem sap were determined. • Key Results: Plant weight, leaf area and photosynthetic rate showed a higher salt tolerance of nitrate-fed plants compared with that of ammonium-fed plants. The total amount of Na+ transported in the xylem in roots, accumulated in the shoot and retranslocated in the phloem of ammonium-fed plants under salt treatment was 1·8, 1·9 and 2·7 times more, respectively, than that of nitrate-treated plants. However, the amount of Na+ accumulated in roots in nitrate-fed plants was about 1·5 times higher than that in ammonium-fed plants. Similarly, Cl- transport via the xylem to the shoot and its retranslocation via the phloem (Cl- cycling) were far greater with ammonium treatment than with nitrate treatment under conditions of salinity. The uptake and accumulation of K+ in shoots decreased more due to salinity in ammonium-fed plants compared with nitrate-fed plants. In contrast, K+ cycling in shoots increased due to salinity, with higher rates in the ammonium-treated plants. • Conclusions: The faster growth of nitrate-fed plants under conditions of salinity was associated with a lower transport and accumulation of Na+ and Cl- in the shoot, whereas in ammonium-fed plants accumulation and cycling of Na+ and Cl - in shoots probably caused harmful effects and reduced growth of plants.

Original languageEnglish
Pages (from-to)735-746
Number of pages12
JournalAnnals of Botany
Volume102
Issue number5
DOIs
Publication statusPublished - Nov 2008

Fingerprint

Nerium oleander
ions
salinity
uptake mechanisms
nitrogen
nitrates
shoots
phloem
xylem
salt tolerance
sap
salts
ion transport

Keywords

  • Mineral cycling
  • Nerium oleander
  • Nitrogen source
  • Salinity
  • Xylem and phloem transport

ASJC Scopus subject areas

  • Plant Science

Cite this

Change in uptake, transport and accumulation of ions in Nerium oleander (Rosebay) as affected by different nitrogen sources and salinity. / Abdolzadeh, Ahmad; Shima, Kazuto; Lambers, Hans; Chiba, Kyozo.

In: Annals of Botany, Vol. 102, No. 5, 11.2008, p. 735-746.

Research output: Contribution to journalArticle

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abstract = "• Background and Aims: The source of nitrogen plays an important role in salt tolerance of plants. In this study, the effects of NaCl on net uptake, accumulation and transport of ions were investigated in Nerium oleander with ammonium or nitrate as the nitrogen source in order to analyse differences in uptake and cycling of ions within plants. • Methods: Plants were grown in a greenhouse in hydroponics under different salt treatments (control vs. 100 mm NaCl) with ammonium or nitrate as the nitrogen source, and changes in ion concentration in plants, xylem sap exuded from roots and stems, and phloem sap were determined. • Key Results: Plant weight, leaf area and photosynthetic rate showed a higher salt tolerance of nitrate-fed plants compared with that of ammonium-fed plants. The total amount of Na+ transported in the xylem in roots, accumulated in the shoot and retranslocated in the phloem of ammonium-fed plants under salt treatment was 1·8, 1·9 and 2·7 times more, respectively, than that of nitrate-treated plants. However, the amount of Na+ accumulated in roots in nitrate-fed plants was about 1·5 times higher than that in ammonium-fed plants. Similarly, Cl- transport via the xylem to the shoot and its retranslocation via the phloem (Cl- cycling) were far greater with ammonium treatment than with nitrate treatment under conditions of salinity. The uptake and accumulation of K+ in shoots decreased more due to salinity in ammonium-fed plants compared with nitrate-fed plants. In contrast, K+ cycling in shoots increased due to salinity, with higher rates in the ammonium-treated plants. • Conclusions: The faster growth of nitrate-fed plants under conditions of salinity was associated with a lower transport and accumulation of Na+ and Cl- in the shoot, whereas in ammonium-fed plants accumulation and cycling of Na+ and Cl - in shoots probably caused harmful effects and reduced growth of plants.",
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AU - Chiba, Kyozo

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AB - • Background and Aims: The source of nitrogen plays an important role in salt tolerance of plants. In this study, the effects of NaCl on net uptake, accumulation and transport of ions were investigated in Nerium oleander with ammonium or nitrate as the nitrogen source in order to analyse differences in uptake and cycling of ions within plants. • Methods: Plants were grown in a greenhouse in hydroponics under different salt treatments (control vs. 100 mm NaCl) with ammonium or nitrate as the nitrogen source, and changes in ion concentration in plants, xylem sap exuded from roots and stems, and phloem sap were determined. • Key Results: Plant weight, leaf area and photosynthetic rate showed a higher salt tolerance of nitrate-fed plants compared with that of ammonium-fed plants. The total amount of Na+ transported in the xylem in roots, accumulated in the shoot and retranslocated in the phloem of ammonium-fed plants under salt treatment was 1·8, 1·9 and 2·7 times more, respectively, than that of nitrate-treated plants. However, the amount of Na+ accumulated in roots in nitrate-fed plants was about 1·5 times higher than that in ammonium-fed plants. Similarly, Cl- transport via the xylem to the shoot and its retranslocation via the phloem (Cl- cycling) were far greater with ammonium treatment than with nitrate treatment under conditions of salinity. The uptake and accumulation of K+ in shoots decreased more due to salinity in ammonium-fed plants compared with nitrate-fed plants. In contrast, K+ cycling in shoots increased due to salinity, with higher rates in the ammonium-treated plants. • Conclusions: The faster growth of nitrate-fed plants under conditions of salinity was associated with a lower transport and accumulation of Na+ and Cl- in the shoot, whereas in ammonium-fed plants accumulation and cycling of Na+ and Cl - in shoots probably caused harmful effects and reduced growth of plants.

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