Contrasting effects of long term versus short-term nitrogen addition on photosynthesis and respiration in the Arctic

Martine J. van de Weg, Gaius R. Shaver, Verity G. Salmon

Research output: Contribution to journalArticlepeer-review

12 Scopus citations

Abstract

We examined the effects of short (<1-4 years) and long-term (22 years) nitrogen (N) and/or phosphorus (P) addition on the foliar CO2 exchange parameters of the Arctic species Betula nana and Eriophorum vaginatum in northern Alaska. Measured variables included: the carboxylation efficiency of Rubisco (Vcmax), electron transport capacity (Jmax), dark respiration (Rd), chlorophyll a and b content (Chl), and total foliar N (N). For both B. nana and E. vaginatum, foliar N increased by 20-50 % as a consequence of 1-22 years of fertilisation, respectively, and for B. nana foliar N increase was consistent throughout the whole canopy. However, despite this large increase in foliar N, no significant changes in Vcmax and Jmax were observed. In contrast, Rd was significantly higher (>25 %) in both species after 22 years of N addition, but not in the shorter-term treatments. Surprisingly, Chl only increased in both species the first year of fertilisation (i.e. the first season of nutrients applied), but not in the longer-term treatments. These results imply that: (1) under current (low) N availability, these Arctic species either already optimize their photosynthetic capacity per leaf area, or are limited by other nutrients; (2) observed increases in Arctic NEE and GPP with increased nutrient availability are caused by structural changes like increased leaf area index, rather than increased foliar photosynthetic capacity and (3) short-term effects (1-4 years) of nutrient addition cannot always be extrapolated to a larger time scale, which emphasizes the importance of long-term ecological experiments.

Original languageEnglish
Pages (from-to)1273-1286
Number of pages14
JournalPlant Ecology
Volume214
Issue number10
DOIs
StatePublished - Oct 2013
Externally publishedYes

Funding

Acknowledgments This work was funded by NSF Grants from the division of Environmental Biology (Arctic LTER Project) and from the office of Polar Programs (Arctic Natural Sciences, Arctic Systems Science). We would also like to thank the Toolik Lake Field Station and the Arctic LTER Project (NSF-DEB-1026843) for logistical support.

FundersFunder number
National Science Foundation1107707, 1065587
Office of Polar Programs
Division of Environmental Biology

    Keywords

    • Alaska
    • Canopy
    • Chlorophyll
    • Fertilisation
    • LTER
    • Leaf mass per area
    • Nitrogen use efficiency

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