home
focus and scope
journal policies
Focus and scope Peer review process Openness and transparency Publication frequency Archiving Article processing charges Criteria for authorship and contributors Conflicts of interest Allegations of misconduct Complaints process Sponsors Journal History
author instructions
General Metadata Article Categories Openness and transparency Submission of manuscripts Manuscript text Citation standards Tables and figures Acknowledgements, funding and availability of research materials and data Supplementary files Procedures for revised and accepted manuscripts
special issues
editors
open access
other journals
Metsätieteen aikakauskirja Dissertationes Forestales Suo - Mires and Peat
contact
financial information
Full text of this article is only available in PDF format.

Anna Liisa Ruotsalainen (email), Juha Tuomi, Henry Väre

A model for optimal mycorrhizal colonization along altitudinal gradients

Ruotsalainen A. L., Tuomi J., Väre H. (2002). A model for optimal mycorrhizal colonization along altitudinal gradients. Silva Fennica vol. 36 no. 3 article id 533. https://doi.org/10.14214/sf.533

Abstract

Mycorrhizal associations are generally favourable for vascular plants in nutrient-poor conditions. Still, non-mycorrhizal plants are common in high arctic and alpine areas, which are often poor in nitrogen and phosphorus. The relative proportion of mycorrhizal plants has been found to decrease along with increasing altitude, suggesting that the advantage of the mycorrhizal symbiosis may change along an altitudinal gradient. This may be related to the environmental factors that possibly constrain the amount of photosynthesized carbon to be shared with mycorrhizal fungi. We propose a simple optimization model for root colonization by fungal symbionts and analyze the advantages of mycorrhizas in relation to the nutrient use efficiency of photosynthesis (PNUE), the kinetics of nutrient uptake and the soil nutrient levels. Our model suggests that mycorrhizas are not usually favoured at low PNUE values. At low nutrient levels, mycorrhizas may be advantageous if they have a lower threshold concentration of nutrient uptake (xmin) compared to non-mycorrhizal roots. If mycorrhizal roots have a higher maximum capacity of nutrient uptake (Vmax), mycorrhizas can be favourable for the host plant even at relatively low nutrient concentrations and at relatively low PNUE. Consequently, the possible patterns along altitudinal gradients essentially depend on PNUE. If the soil nutrient concentration is constant and PNUE decreases, the advantage of mycorrhizal symbiosis declines independently of the nutrient uptake kinetics. If PNUE remains constant and the soil nutrient concentration decreases along with increasing altitude, the emerging colonization pattern (either increasing, decreasing or intermediate) depends on the nutrient uptake kinetics. Additionally, if both PNUE and the soil nutrient concentration decrease, several patterns may emerge, depending on the nutrient uptake kinetics.

Keywords
alpine gradient; mycorrhiza; nutrient uptake kinetics; photosynthetic nutrient use efficiency

Author Info
  • Ruotsalainen, Department of Biology, Botanical Museum, Box 3000, FIN-90014 University of Oulu, Finland E-mail annu.ruotsalainen@oulu.fi (email)
  • Tuomi, Department of Biology, Box 3000, FIN-90014 University of Oulu, Finland E-mail jt@nn.fi
  • Väre, Botanical Museum, Finnish Museum of Natural History, Box 7, FIN-00014 University of Helsinki, Finland E-mail hv@nn.fi

Received 21 August 2000 Accepted 31 July 2002 Published 31 December 2002

Views 7378

Available at https://doi.org/10.14214/sf.533 | Download PDF

Creative Commons License CC BY-SA 4.0
Register
Click this link to register to Silva Fennica.
Log in
If you are a registered user, log in to save your selected articles for later access.
Contents alert
Sign up to receive alerts of new content
Export reference to EndNote / RefWorks
Related articles
Your selected articles
Send to email
Wuolijoki E., (1977) Fatigue in forest work Acta Forestalia Fennica vol. 0 no. 159 article id 7593 (remove) | Edit comment
Rogers M. T., (1957) Ring-shadows Silva Fennica vol. no. 93 article id 4673 (remove) | Edit comment
Kuusela K., (1953) On theory of forest increment calculation based .. Acta Forestalia Fennica vol. 60 no. 1 article id 7408 (remove) | Edit comment
Pohjonen V., (1991) Selection of species and clones for biomass will.. Acta Forestalia Fennica vol. 0 no. 221 article id 7667 (remove) | Edit comment
Huuhtanen V., (1938) Forestry in the county of eastern Finland Silva Fennica vol. no. 46 article id 4538 (remove) | Edit comment
Enkola K., (1940) Occurence of buckthorn in the coast of Rauma, We.. Silva Fennica vol. no. 53 article id 4574 (remove) | Edit comment
Jalkanen R., Kaitera J. (1994) Gremmeniella abietina produces pycnidia in canke.. Silva Fennica vol. 28 no. 2 article id 5402 (remove) | Edit comment
Mallik A. U., Bell F. W. et al. (2002) Effectiveness of delayed brush cutting and herbi.. Silva Fennica vol. 36 no. 2 article id 541 (remove) | Edit comment
Jadwiszczak K. A., Kłosowski S. et al. (2017) Genetic diversity and sexual reproduction in rel.. Silva Fennica vol. 51 no. 2 article id 5643 (remove) | Edit comment
Hytönen J., Jylhä P. (2005) Effects of competing vegetation and post-plantin.. Silva Fennica vol. 39 no. 3 article id 374 (remove) | Edit comment
Hannelius S., (1976) Forest ownership changes and forestry Silva Fennica vol. 10 no. 2 article id 4939 (remove) | Edit comment
Persson B., (1998) Will climate change affect the optimal choice of.. Silva Fennica vol. 32 no. 2 article id 690 (remove) | Edit comment
Dean C., (2003) Calculation of wood volume and stem taper using .. Silva Fennica vol. 37 no. 3 article id 495 (remove) | Edit comment
Ruotsalainen A. L., Tuomi J. et al. (2002) A model for optimal mycorrhizal colonization alo.. Silva Fennica vol. 36 no. 3 article id 533 (remove) | Edit comment
Your search results
Silva Fennica · Finnish Society of Forest Science