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Is analysing the nitrogen use at the plant canopy level a matter of choosing the right optimization criterion?(CONCEPTS, REVIEWS AND SYNTHESES)

Anten, Niels P. R. ; During, Heinjo J.

Oecologia, Oct, 2011, Vol.167(2), p.293(11) [Periódico revisado por pares]

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  • Título:
    Is analysing the nitrogen use at the plant canopy level a matter of choosing the right optimization criterion?(CONCEPTS, REVIEWS AND SYNTHESES)
  • Autor: Anten, Niels P. R. ; During, Heinjo J.
  • Assuntos: Photosynthesis ; Plant Biochemistry ; Optimization Theory
  • É parte de: Oecologia, Oct, 2011, Vol.167(2), p.293(11)
  • Descrição: Optimization theory in combination with canopy modeling is potentially a powerful tool for evaluating the adaptive significance of photosynthesis-related plant traits. Yet its successful application has been hampered by a lack of agreement on the appropriate optimization criterion. Here we review how models based on different types of optimization criteria have been used to analyze traits--particularly N reallocation and leaf area indices--that determine photosynthetic nitrogen-use efficiency at the canopy level. By far the most commonly used approach is static-plant simple optimization (SSO). Static-plant simple optimization makes two assumptions: (1) plant traits are considered to be optimal when they maximize whole-stand daily photosynthesis, ignoring competitive interactions between individuals; (2) it assumes static plants, ignoring canopy dynamics (production and loss of leaves, and the reallocation and uptake of nitrogen) and the respiration of nonphotosynthetic tissue. Recent studies have addressed either the former problem through the application of evolutionary game theory (EGT) or the latter by applying dynamic-plant simple optimization (DSO), and have made considerable progress in our understanding of plant photosynthetic traits. However, we argue that future model studies should focus on combining these two approaches. We also point out that field observations can fit predictions from two models based on very different optimization criteria. In order to enhance our understanding of the adaptive significance of photosynthesis-related plant traits, there is thus an urgent need for experiments that test underlying optimization criteria and competing hypotheses about underlying mechanisms of optimization. Keywords Canopy photosynthesis * Evolutionarily stable strategies * Leaf area index * Nitrogen * Optimization theory
  • Idioma: English

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