Abstract
Endogenous rhythmic growth (ERG) is displayed by many tropical and some major temperate tree species and characterized by alternating root and shoot flushes (RF and SF). These flushes occur parallel to changes in biomass partitioning and in allocation of recently assimilated carbon and nitrogen. To address how biotic interactions interplay with ERG, we cross-compared the RF/SF shifts in oak microcuttings in the presence of pathogens, consumers and a mycorrhiza helper bacterium, without and with an ectomycorrhizal fungus (EMF), and present a synthesis of the observations. The typical increase in carbon allocation to sink leaves during SF did not occur in the presence of root or leaf pathogens, and the increase in nitrogen allocation to lateral roots during RF did not occur with the pathogens. The RF/SF shifts in resource allocation were mostly restored upon additional interaction with the EMF. Its presence led to increased resource allocation to principal roots during RF, also when the oaks were inoculated additionally with other interactors. The interactors affected the alternating, rhythmic growth and resource allocation shifts between shoots and roots. The restoring role of the EMF on RF/SF changes in parallel to the corresponding enhanced carbon and nitrogen allocation to sink tissues suggests that the EMF is supporting plants in maintaining the ERG.
Highlights
Endogenous rhythmic growth (ERG) is displayed by many tropical and some major temperate tree species and characterized by alternating root and shoot flushes (RF and SF)
Biomass partitioning and allocation of carbon (C) and nitrogen (N) of oak microcuttings under biotic interactions were evaluated during two growth stages, root flush (RF) and shoot flush (SF), in source and sink leaves, stems, and principal and lateral roots
The biomass partitioning root growth flushes (RF)/ SF difference was highly significant without biotic interaction (R2 = 0.32, P = 0.01), with ectomycorrhizal fungus (EMF, R2 = 0.41, P = 0.002), with root pathogen (R2 = 0.31, P = 0.009) and with mildew (R2 = 0.27, P = 0.004, Scientific Reports | (2021) 11:23680 |
Summary
Endogenous rhythmic growth (ERG) is displayed by many tropical and some major temperate tree species and characterized by alternating root and shoot flushes (RF and SF). It stimulates mycorrhiza formation by the EMF and counteracts the damage by parasitic n ematodes[19] and oak powdery m ildew[20], but, when inoculated alone, it causes systemic stress associated transcriptional response in oak[21] It has not yet been substantiated how interacting organisms modify or support the developmental pattern of resource allocation during ERG, and all these findings open up the question whether and how biotic interactions other than EMF affect the shifts in resource allocation between RF and SF. We expected (5) an induction of defence related gene expression by the pathogens, but an attenuation of this response by additional EMF interaction
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