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Internal Nitrogen Dynamics in the Graminoid Molinia caerulea Under Higher N Supply and Elevated CO2 Concentrations

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Abstract

Nutrient resorption from senescing leaves is an important aspect of internal plant nutrient cycling. Global environmental change very likely affects this process. In an 8-month experiment, we investigated the effect of increased nitrogen (N) availability and CO2 concentration on the contribution of leaf N resorption to the internal nitrogen dynamics of the perennial deciduous graminoid Molinia caerulea (L.) Moench. Plants were grown in a factorial combination of two levels of N (65 and 265 N ha−1 year−1) and CO2 (380 and 700 μL L−1) in a greenhouse. Both N and CO2 addition increased the total biomass and the total N pools of mature Molinia plants considerably, without a significant interaction. Nitrogen-resorption efficiency from senescing leaves (% of the mature leaf N pool that is resorbed) was neither affected by the N- nor by the CO2 treatments. When averaged over the treatments, the N-resorption efficiency was 85% ± 1 (SE). The final N concentration in the litter (N-resorption proficiency) was also not affected by the treatments and was on average 3.6 mg N g−1 ± 0.25 (SE). The contribution of resorbed N from senescing leaves to the late seasonal N requirements (seed and stem production and storage of N for next year’s growth) of M. caerulea plants was (negatively) affected by the N treatment only, and no interaction effects with CO2 were found. Resorption from stems and/or direct reserve and seed formation during growth became relatively more important. Thus, internal N cycling processes in Molinia caerulea are only affected when N availability is increased, but not under elevated CO2 concentrations. Under high N conditions, this species shifts from a N recycling strategy to reserve formation during growth.

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Authors and Affiliations

  1. Institute of Ecological Science, Department of Systems Ecology, Vrije Universiteit, De Boelelaan 1085, NL-1081, HV, Amsterdam, The Netherlands

    L. M. van Heerwaarden, S. Toet, R. S. P. van Logtestijn & R. Aerts

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  1. L. M. van Heerwaarden
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  2. S. Toet
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  3. R. S. P. van Logtestijn
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  4. R. Aerts
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Correspondence to R. Aerts.

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van Heerwaarden, L.M., Toet, S., van Logtestijn, R.S.P. et al. Internal Nitrogen Dynamics in the Graminoid Molinia caerulea Under Higher N Supply and Elevated CO2 Concentrations. Plant Soil 277, 255–264 (2005). https://doi.org/10.1007/s11104-005-7140-1

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