Exo- and endophytic fungi enable rapid transfer of nutrients from ant waste to orchid tissue

Christian Gegenbauer (Corresponding author), Anke Bellaire, Arno Schintlmeister, Markus C Schmid, Markus Kubicek, Hermann Voglmayr, Gerhard Zotz, Andreas Richter, Veronika Mayer (Corresponding author)

Publications: Contribution to journalArticlePeer Reviewed

Abstract

The epiphytic orchid Caularthron bilamellatum sacrifices its water storage tissue for nutrients from the waste of ants lodging inside its hollow pseudobulb. Here, we investigate whether fungi are involved in the rapid translocation of nutrients. Uptake was analysed with a 15N labelling experiment, subsequent isotope ratio mass spectrometry (IRMS) and secondary ion mass spectrometry (ToF-SIMS and NanoSIMS). We encountered two hyphae types: a thick melanized type assigned to ‘black fungi’ (Chaetothyriales, Cladosporiales, and Mycosphaerellales) in ant waste, and a thin endophytic type belonging to Hypocreales. In few cell layers, both hyphae types co-occurred. 15N accumulation in both hyphae types was conspicuous, while for translocation to the vessels only Hypocreales were involved. There is evidence that the occurrence of the two hyphae types results in a synergism in terms of nutrient uptake. Our study provides the first evidence that a pseudobulb (=stem)-born endophytic network of Hypocreales is involved in the rapid translocation of nitrogen from insect-derived waste to the vegetative and reproductive tissue of the host orchid. For C. bilamellatum that has no contact with the soil, ant waste in the hollow pseudobulbs serves as equivalent to soil in terms of nutrient sources.

Original languageEnglish
Pages (from-to)2210-2223
Number of pages14
JournalNew Phytologist
Volume238
Issue number5
Early online date23 Jan 2023
DOIs
Publication statusPublished - Jun 2023

Austrian Fields of Science 2012

  • 106008 Botany
  • 106024 Mycology
  • 106030 Plant ecology
  • 106054 Zoology

Keywords

  • Caularthron bilamellatum
  • endophytes
  • myrmecophyte
  • NanoSIMS
  • 15N uptake
  • stable isotope tracing
  • ToF-SIMS
  • myrmecophytes
  • N uptake

Cite this