2019
DOI: 10.1111/ele.13397
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The fitness of chemotrophs increases when their catabolic by‐products are consumed by other species

Abstract: Chemotrophic microorganisms synthesise biomass by utilising energy obtained from a set of chemical reactions that convert resources to by‐products, forming catabolic interactions. The amount of energy obtained per catabolic reaction decreases with the abundance of the by‐product named as the ‘abundant resource premium’. Consider two species, Species 1 and 2, Species 1 obtains energy from a reaction that converts resource A to by‐product B. Species 2 then utilises B as its resource, extracting energy from a rea… Show more

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Cited by 10 publications
(15 citation statements)
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“…Some of the results in this paper are similar to those in our previous model in which type 2 uses the catabolic by-product of type 1 but type 1 does not use the by-product of type 2 [ 18 ] ( figure 6 a ). To clarify, we call the form of interaction between two catabolic reactions ‘one-way interaction’, as illustrated in figure 6 a , where one reaction is upstream of the other.…”
Section: Discussionsupporting
confidence: 82%
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“…Some of the results in this paper are similar to those in our previous model in which type 2 uses the catabolic by-product of type 1 but type 1 does not use the by-product of type 2 [ 18 ] ( figure 6 a ). To clarify, we call the form of interaction between two catabolic reactions ‘one-way interaction’, as illustrated in figure 6 a , where one reaction is upstream of the other.…”
Section: Discussionsupporting
confidence: 82%
“…These two interactions are frequently observed in biogeochemical cycles. From our previous report [18] and this paper, we can conclude that type 2 in the one-way interaction can increase the steady-state biomass of type 1 and expand the realized niche of type 1 only when the ARP is considered and sufficiently large, and type 2 in the recycle interaction can increase the steady-state biomass of type 1 and expand its realized niche regardless of the presence of the ARP. When the ARP is important, type 2 can further expand the realized niche of type 1.…”
Section: Discussion (A) One-way Interaction and Recycling Interactionsupporting
confidence: 57%
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“…Mutualistic catabolic interactions. (A) One-way interactions(Seto and Iwasa, 2019b). (B) Recycling interactions(Seto and Iwasa, 2020).…”
mentioning
confidence: 99%