Effect of pH on Na induced Ca deficiency

Kopittke, Peter M.; Menzies, Neal W.

doi:10.1007/s11104-004-0395-0

Cited by 30 publications

(19 citation statements)

References 42 publications

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“…While the critical CAR of 0.050 established in Mg dominated solutions in this study is consistent with published values for other Mg dominated systems, it is higher than the value of 0.024 obtained using mungbeans in this experimental system using nutrient solutions dominated by Na (Kopittke and Menzies, 2004b). This greater antagonistic effect of solution Mg on Ca uptake has previously been observed in acidic conditions.…”

Section: Discussionsupporting

confidence: 89%

“…Calculated Ca activities were greater than the critical value of 270 µM (corresponding to 90% relative mungbean root length (Kopittke and Menzies, 2004b)) in all treatments, being 426 µM Ca at a CAR of 0.074, 421 µM at 0.07, 410 µM at 0.06, 400 µM at 0.05, 373 µM at 0.04, 368 µM at 0.03, 363 µM at 0.02, and 337 µM at 0.015. However, although solution Ca activities were greater than that observed to reduce growth under normal conditions, the reduction in root growth observed below the critical CAR of 0.050 was due to Ca deficiency.…”

Section: Discussionmentioning

confidence: 74%

“…As found previously (Kopittke and Menzies, 2004b), CAR is therefore thought to be a suitable index of salinity toxicity under neutral to alkaline conditions, although under acidic conditions the empirical CAR equation is likely to fail due to the additional challenges placed on root growth (such as Al toxicity, and H + induced Ca deficiency).…”

Section: Discussionmentioning

confidence: 98%

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Mg induced Ca deficiency under alkaline conditions

Kopittke

Menzies

2005

Plant Soil

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Little is known about Mg induced Ca deficiency in alkaline conditions, and the relationship between Mg induced Ca deficiency and Na induced Ca deficiency. Dilute nutrient solutions (dominated by Mg) were used to investigate the effect of Ca activity ratio (CAR) on the growth of mungbeans (Vigna radiata (L.) Wilczek cv. Emerald). At pH 9.0, root growth was reduced below a critical CAR of 0.050 (corresponding to 90% relative root length). Root growth was found to be limited more in Mg solutions than had been previously observed for Na solutions. Using a CAR equation modified with plasma membrane binding constants (to incorporate the differing antagonistic effects of Mg and Na), new critical CAR values were calculated for both Na (0.56) and Mg (0.44) dominated solutions. This modified CAR equation permits the calculation of CAR irrespective of the dominant salt present.Abbreviations: CAR -calcium activity ratio, DI -deionised, EC -electrical conductivity, TDI -triple deionised

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Section: Discussionsupporting

confidence: 89%

Section: Discussionmentioning

confidence: 74%

Section: Discussionmentioning

confidence: 98%

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Mg induced Ca deficiency under alkaline conditions

Kopittke

Menzies

2005

Plant Soil

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“…In slurry application trials in Finland, in some circumstances Ca content in herbage declined as the availability of K increased (Mattila et al 2003). Low Na content in the cow slurry treated herbage would also have been caused by the high content of K in that slurry (Kopittke and Menzies 2005). Magnesium content was generally low in all principal species fractions.…”

Section: Discussionmentioning

confidence: 98%

Botanical composition, production and nutrient status of an originally Lolium perenne-dominant cut grass sward receiving long-term manure applications

et al. 2009

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fertilizer N in 2006, whereas about 100 m 3 ha −1 pig slurry were required to produce a similar amount of DM. The highest slurry application rate significantly influenced sward botanical composition without depressing DM yield. The principal invading species were creeping bent and meadow grasses (similar to findings at a previous assessment in 1981) except in the unamended control (which were common bent and Yorkshire fog). Perennial ryegrass remained a main species in plots receiving fertilizer (31 % annual DM yield) and low slurry rates (38 %) but declined to 3 % annual DM yield at the highest slurry rate where the ability of ryegrass to utilize slurry N and P may have been affected by chemically or physically induced deficiencies of other nutrients (e.g. Ca) or direct physical effects such as smothering.

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“…Enzyme reactions can be inhibited by accumulation of Na in the cytoplasm while dehydration and death of leaf cells can occur where Na accumulates in the leaf apoplasm (Keren, 2000). In addition, high concentrations of Na in soil solution reduce Ca uptake (Kopittke and Menzies, 2005) and Ca deficiency often occurs (Kopittke and Menzies, 2005) while deficiencies of N, K, Mn, Zn and Cu have also been noted (Levy, 2000;Yadav et al, 2011). Although some previous studies have linked increased plant growth in bauxite residues to an increase in tissue K/Na ratios (Jones et al, 2012b;Chapter 5), no such trend was evident here except plants in amended treatments had a higher ratio than those from the Control treatment.…”

Section: Discussionmentioning

confidence: 99%

Revegetation strategies for seawater neutralized bauxite residue at Rio Tinto Alcan using various amendments

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Effect of pH on Na induced Ca deficiency

Cited by 30 publications

References 42 publications

Mg induced Ca deficiency under alkaline conditions

Mg induced Ca deficiency under alkaline conditions

Botanical composition, production and nutrient status of an originally Lolium perenne-dominant cut grass sward receiving long-term manure applications

Revegetation strategies for seawater neutralized bauxite residue at Rio Tinto Alcan using various amendments

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