Leaf life span and the mobility of ‘non-mobile’ mineral nutrients – the case of boron in conifers

Leaf life span and the mobility of ‘non-mobile’ mineral nutrients – the case of boron in conifers

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Article ID: iaor20031947
Country: Finland
Volume: 36
Issue: 3
Start Page Number: 671
End Page Number: 680
Publication Date: Sep 2002
Journal: Silva Fennica
Authors: , ,
Keywords: ecology, biology, simulation: applications
Abstract:

Nutrient conservation is considered important for the adaptation of plants to infertile environments. The importance of leaf life spans in controlling mean residence time of nutrients in plants has usually been analyzed in relation to nutrients that can be retranslocated within the plant. Longer leaf life spans increase the mean residence time of all mineral nutrients, but for non-mobile nutrients long leaf life spans concurrently cause concentrations in tissues to increase with leaf age, and conseuqently may reduce non-mobile nutrient use efficiency. Here we analyze how the role of leaf life span is related to the mobility of nutrients within the plant. We use optimality concepts to derive testable hypotheses, and preliminarily test them for boron (B), a nutrient for which mobility varies among plant species. We review published and unpublished data and use a simple model to assess the quantitative importance of B retranslocation for the B budget of mature conifer forests and as a mechanism for avoiding toxicity.

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