Effects of nutrient addition on leaf chemistry, morphology, and photosynthetic capacity of three bog shrubs

Authors

Jill L. Bubier, Mount Holyoke College
Rose Smith, Mount Holyoke College
Sari Juutinen, Mount Holyoke College
Tim R. Moore, McGill University
Rakesh Minocha, U.S. Department of Agriculture Forest ServiceFollow
Stephanie Long, U.S. Department of Agriculture Forest ServiceFollow
Subhash C. Minocha, University of New HampshireFollow

Abstract

Plants in nutrient-poor environments typically have low foliar nitrogen (N) concentrations, long-lived tissues with leaf traits designed to use nutrients efficiently, and low rates of photosynthesis. We postulated that increasing N availability due to atmospheric deposition would increase photosynthetic capacity, foliar N, and specific leaf area (SLA) of bog shrubs. We measured photosynthesis, foliar chemistry and leaf morphology in three ericaceous shrubs (Vaccinium myrtilloides, Ledum groenlandicum and Chamaedaphne calyculata) in a long-term fertilization experiment at Mer Bleue bog, Ontario, Canada, with a background deposition of 0.8 g N m(-2) a(-1). While biomass and chlorophyll concentrations increased in the highest nutrient treatment for C. calyculata, we found no change in the rates of light-saturated photosynthesis (A(max)), carboxylation (V(cmax)), or SLA with nutrient (N with and without PK) addition, with the exception of a weak positive correlation between foliar N and A(max) for C. calyculata, and higher V(cmax) in L. groenlandicum with low nutrient addition. We found negative correlations between photosynthetic N use efficiency (PNUE) and foliar N, accompanied by a species-specific increase in one or more amino acids, which may be a sign of excess N availability and/or a mechanism to reduce ammonium (NH(4)) toxicity. We also observed a decrease in foliar soluble Ca and Mg concentrations, essential minerals for plant growth, but no change in polyamines, indicators of physiological stress under conditions of high N accumulation. These results suggest that plants adapted to low-nutrient environments do not shift their resource allocation to photosynthetic processes, even after reaching N sufficiency, but instead store the excess N in organic compounds for future use. In the long term, bog species may not be able to take advantage of elevated nutrients, resulting in them being replaced by species that are better adapted to a higher nutrient environment.

Publication Date

10-1-2011

Journal Title

Oecologia

Publisher

Springer

Digital Object Identifier (DOI)

10.1007/s00442-011-1998-9

Scientific Contribution Number

2426

Document Type

Article

Rights

© Springer-Verlag 2011

Recommended Citation

Bubier, Jill L.; Smith, Rose; Juutinen, Sari; Moore, Tim R.; Minocha, Rakesh; Long, Stephanie; and Minocha, Subhash C., "Effects of nutrient addition on leaf chemistry, morphology, and photosynthetic capacity of three bog shrubs" (2011). Oecologia. 162.
https://scholars.unh.edu/nhaes/162