Test of soil extractants for their suitability in predicting Ca/Sr ratios in leaves and stems of sugar maple seedlings
Author:
Publisher
Springer Science and Business Media LLC
Subject
Earth-Surface Processes,Water Science and Technology,Environmental Chemistry
Link
http://link.springer.com/content/pdf/10.1007/s10533-008-9208-5.pdf
Reference36 articles.
1. Åberg G, Jacks G, Hamilton J (1989) Weathering rates and 87Sr/86Sr ratios: an isotopic approach. J Hydrol 109:65–78
2. Baes AU, Bloom PR (1988) Exchange of alkaline earth cations in soil organic matter. Soil Sci 146:6–14
3. Bailey SW (2000) Geologic and edaphic factors influencing susceptibility of forest soils to environmental change. In: Mickler RA et al (eds) Responses of northern U.S. forests to environmental change. Springer, New York, pp 27–49
4. Bailey SW, Horsley SB, Long RP, Hallett RA (2004) Influence of edaphic factors on sugar maple nutrition and health on the Allegheny Plateau. Soil Sci Soc Am J 55:497–502
5. Bernier B, Paré D, Brazeau M (1989) Natural stresses, nutrient imbalances and forest decline in southeastern Quebec. Water Air Soil Pollut 48:239–250
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1. Evaluating the use of Ca/Sr and 87Sr/86Sr ratios to track Ca sources in sugar maple in Ontario;Canadian Journal of Forest Research;2023-10-01
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3. Influence of deep soil horizons on Ca nutrition of forest stands along a loessic soil sequence;Plant and Soil;2015-06-07
4. Cation uptake and allocation by red pine seedlings under cation-nutrient stress in a column growth experiment;Plant and Soil;2014-01-10
5. Partitioning of the source of leaf calcium of American beech and sugar maple using leaf Ca/Sr ratios: a predominantly surficial but variable depth of Ca uptake;Plant and Soil;2013-06-11
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