Mineral nutrient transport by sunflower seedlings grown under saline conditions (NaCl)

The effects of exogenous NaCl and silicon on ion distribution were investigated in two alfalfa (Medicago sativa. L.) cultivars: the high salt tolerant Zhongmu No. 1 and the low salt tolerant Defor. The cultivars were grown in a hydroponic system with a control (that had neither NaCl nor Si added), a Si treatment (1 mmol L −1 Si), a NaCl treatment (120 mmol L −1 NaCl), and a Si and NaCl treatment (120 mmol LNaCl + 1 mmol L −1 Si). After 15 days of the NaCl and Si treatments, four plants of the cultivars were removed and divided into root, shoot and leaf parts for Na

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“…2000). In addition to this, Sanchez‐Raya and Delgado (1996) reported that salinity reduced the Fe 3+ and Mn 2+ contents in sunflower seedlings.…”

Section: Introductionmentioning

confidence: 67%

Effects of NaCl and silicon on ion distribution in the roots, shoots and leaves of two alfalfa cultivars with different salt tolerance

Wang

Han

2007

Soil Science and Plant Nutrition

107

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“…In our experiments, the saline stress reduced the Ca 2+ and Mg 2+ concentrations only in the shoots, while in the roots they remained constant. This effect has been reported in other species such as Helianthus annuus [28] or Solanum melongena [29]. Lynch and Läuchli [16] proposed that the decrease in the concentration of these cations in the shoots may be related to the reduced Ca 2+ release into the root xylem, possibly by affecting the cation active loading in the xylem vessels.…”

Section: Discussionmentioning

confidence: 95%

Response of eight Cucumis melo cultivars to salinity during germination and early vegetative growth

et al. 1998

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“…In the same way, concentrations of Fe, Mn and Zn in leaves of zucchini were increased by intensifying the salt stress; however, the concentration of Cu was reduced [10]. Moreover, Sanchez-Raya and Delgado suggested that salinity generally decreased Fe and Mn transportation from seed to seedling in the growth period in sunflower plants [11]. They also reported that transportation of Fe to aerial parts was distinctly reduced.…”

Section: Introductionmentioning

confidence: 90%

Calcium effects on changes in chlorophyll contents, dry weight and micronutrients of strawberry (Fragaria ×ananassaDuch.) plants under salt-stress conditions

Khayyat

Rajaee

Eshghi

et al. 2009

Fruits

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Calcium effects on changes in chlorophyll contents, dry weight and micronutrients of strawberry (Fragaria × ananassa Duch.) plants under salt-stress conditions. Abstract-Introduction. Today, approximately one-third of the world's irrigated lands suffer some degree of salinity. Although there are several reports about the effects of calcium treatments on strawberry growth and development under saline conditions, there are no reports demonstrating the effect on micronutrient concentrations of strawberry due to supplementary calcium applied to the saltstressed plants. Consequently, we investigated the effects of high salinity levels, with application of supplementary calcium, on chlorophyll contents, dry weight and micronutrients of strawberry. Materials and methods. Strawberry (Fragaria × ananassa Duch.) plants cv. 'Selva' were grown in hydroponic culture in a heated greenhouse to investigate the effectiveness of calcium (Ca) added to nutrient solution applied to plants. Six treatments were applied: nutrient solution alone (= [N]); [N] + NaCl salt (35 mM) (= [NS]); [NS] + CaCl 2 (5 mM); [NS] + CaCl 2 (10 mM); [NS] + CaSO 4 (5 mM); and [NS] + CaSO 4 (10 mM). The effect of calcium (different forms and different concentrations) on chlorophyll contents and dry weight of salt-stressed plants was determined. Additionally, micronutrient contents were studied. Results. The results indicated that chlorophyll contents and plant dry weight were decreased by salinity. NaCl application increased Cu, Zn, Mn and Fe concentrations of root parts. In shoot parts, Cu accumulation decreased, while other elements increased. Supplementary calcium could ameliorate the negative effects of salinity on chlorophyll and dry mass production. However, micronutrient concentrations of plant parts as influenced by calcium had contradictory results: calcium induced high levels of zinc, manganese and iron concentrations in roots, but high levels of copper and zinc concentrations in shoots. Moreover, there were significant differences between calcium forms in their actions. Conclusion. Our results suggest that CaSO 4 could be applied to improve the growth of salt-stressed strawberry plants. Iran Islamic Republic / Fragaria ananassa / salt tolerance / chlorophylls / dry matter content / mineral content Effets du calcium sur la teneur en chlorophylle, le poids sec et les oligoéléments du fraisier (Fragaria × ananassa Duch.) en condition de stress salin. Résumé-Introduction. Aujourd'hui, près d'un tiers des terres irriguées du monde souffrent d'un certain degré de salinité. S'il existe plusieurs rapports sur les effets du calcium sur la croissance et le développement du fraisier en conditions salines, il n'y rien sur l'effet du calcium sur les concentrations en oligoélément de fraisiers cultivés en présence de NaCl. En conséquence, nous avons étudié les effets d'un niveau élevé de salinité combiné avec l'application de calcium supplémentaire, sur les teneurs en chlorophylle, en poids secs et en oligoéléments du fraisier. Matériel et méthodes. Des plants...

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Mineral nutrient transport by sunflower seedlings grown under saline conditions (NaCl)

Cited by 18 publications

References 23 publications

Effects of NaCl and silicon on ion distribution in the roots, shoots and leaves of two alfalfa cultivars with different salt tolerance

Effects of NaCl and silicon on ion distribution in the roots, shoots and leaves of two alfalfa cultivars with different salt tolerance

Response of eight Cucumis melo cultivars to salinity during germination and early vegetative growth

Calcium effects on changes in chlorophyll contents, dry weight and micronutrients of strawberry (Fragaria ×ananassaDuch.) plants under salt-stress conditions

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