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Energetic Constraints on Fungal Growth.

Abstract:
Saprotrophic fungi are obliged to spend energy on growth, reproduction, and substrate digestion. To understand the trade-offs involved, we developed a model that, for any given growth rate, identifies the strategy that maximizes the fraction of energy that could possibly be spent on reproduction. Our model's predictions of growth rates and bioconversion efficiencies are consistent with empirical findings, and it predicts the optimal investment in reproduction, resource acquisition, and biomass recycling for a given environment and timescale of reproduction. Thus, if the timescale of reproduction is long compared to the time required for the fungus to double in size, the model suggests that the total energy available for reproduction is maximal when a very small fraction of the energy budget is spent on reproduction. The model also suggests that fungi growing on substrates with a high concentration of low-molecular-weight compounds will not benefit from recycling: they should be able to grow more rapidly and allocate more energy to reproduction without recycling. In contrast, recycling offers considerable benefits to fungi growing on recalcitrant substrates, where the individual hyphae are not crowded and the time taken to consume resource is significantly longer than the fungus doubling time.
Publication status:
Published
Peer review status:
Peer reviewed

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Publisher copy:
10.1086/684392

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Institution:
University of Oxford
Division:
MPLS
Department:
Plant Sciences
Oxford college:
Pembroke College
Role:
Author


Publisher:
University of Chicago Press
Journal:
American naturalist More from this journal
Volume:
187
Issue:
2
Pages:
E27-E40
Publication date:
2016-02-01
Acceptance date:
2015-07-23
DOI:
EISSN:
1537-5323
ISSN:
0003-0147
Pmid:
26807754


Language:
English
Keywords:
Pubs id:
pubs:668630
UUID:
uuid:864bcbf0-642b-4cad-8eca-819a0175f47f
Local pid:
pubs:668630
Source identifiers:
668630
Deposit date:
2017-11-04
ARK identifier:

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