2007
DOI: 10.1007/s11104-007-9459-2
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Evaluation of the mobility and discrimination of Ca, Sr and Ba in forest ecosystems: consequence on the use of alkaline-earth element ratios as tracers of Ca

Abstract: A comprehensive understanding of Ca cycling in an ecosystem is desirable because of the role of this element in tree mineral nutrition and its status as a major base cation on the soil exchange complex. The determination of the origin of Ca in forests is particularly indicated in regard of important changes linked to acid inputs and intensive logging. Natural strontium isotopes are increasingly used as tracers of Ca in forest ecosystems for qualitative and quantitative assessments. Nevertheless this method is … Show more

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Cited by 48 publications
(44 citation statements)
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“…Until recently most studies assumed that the Ca/Sr ratio did not change appreciably upon plant uptake (Ba factor of 1.4) based on studies of nutrient uptake from solutions into crop plants (Runia 1987), but recently several studies have showed more widely variable Ca/Sr ratios across various tree tissues (Poszwa et al 2000;Watmough and Dillon 2003;Bullen and Bailey 2005;Drouet and Herbauts 2007). Studies in a wide range of locations have used 87 Sr/ 86 Sr ratios to determine Sr sources to foliage and wood and to then infer Ca sources based on the assumption that Ca/Sr discrimination was not large (Dambrine et al 1997;Poszwa et al 2002Poszwa et al , 2004Kennedy et al 2002;Blum et al 2002;Dijkstra et al 2003;Drouet et al 2005;Berger et al 2006).…”
Section: Introductionmentioning
confidence: 99%
“…Until recently most studies assumed that the Ca/Sr ratio did not change appreciably upon plant uptake (Ba factor of 1.4) based on studies of nutrient uptake from solutions into crop plants (Runia 1987), but recently several studies have showed more widely variable Ca/Sr ratios across various tree tissues (Poszwa et al 2000;Watmough and Dillon 2003;Bullen and Bailey 2005;Drouet and Herbauts 2007). Studies in a wide range of locations have used 87 Sr/ 86 Sr ratios to determine Sr sources to foliage and wood and to then infer Ca sources based on the assumption that Ca/Sr discrimination was not large (Dambrine et al 1997;Poszwa et al 2002Poszwa et al , 2004Kennedy et al 2002;Blum et al 2002;Dijkstra et al 2003;Drouet et al 2005;Berger et al 2006).…”
Section: Introductionmentioning
confidence: 99%
“…Large variation in leaf Ca/Sr ratios were observed between trees (results not shown) but leaf Ca/Sr ratios for the 3, 6 and 13 m heights within individual trees did not vary significantly ( Figure 2) with variation within a tree averaging less than +5%. The preferential uptake of Ca over Sr is therefore likely limited to the bole/canopy interface and independent of the length of the bole as suggested by Drouet and Herbauts (2008). With a discrimination factor of 1.78 ± 0.17 for beech as measured by Blum et al (2012), an overestimation or underestimation of a few percentage points would be of no consequence for the partitioning of leaf Ca/Sr.…”
Section: The Effect Of Height On Leaf Ca/sr Ratiomentioning
confidence: 87%
“…Strontium closely matches Ca behavior in plant-soil systems because of its similar charge and ionic radius (Capo et al 1998). However, a preferential plant uptake and translocation of Ca over Sr is usually observed (Bailey et al 1996;Drouet and Herbauts 2008;Poszwa et al 2000).…”
Section: Many Forests Of Southern Quebec and Eastern Ontario As Wellmentioning
confidence: 99%
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