Litcius/Paper detail

Rapid bark‐mediated tree stem methane transport occurs independently of the transpiration stream in <i>Melaleuca quinquenervia</i>

Luke C. Jeffrey, Scott G. Johnston, Douglas R. Tait, Johannes Dittmann, Damien T. Maher

2023New Phytologist18 citationsDOIOpen Access PDF

Abstract

Summary Tree stem methane emissions are important components of lowland forest methane budgets. The potential for species‐specific behaviour among co‐occurring lowland trees with contrasting bark characteristics has not been investigated. We compare bark‐mediated methane transport in two common lowland species of contrasting bark characteristics ( Melaleuca quinquenervia featuring spongy/layered bark with longitudinally continuous airspaces and Casuarina glauca featuring hard/dense common bark) through several manipulative experiments. First, the progressive cutting through M. quinquenervia bark layers caused exponential increases in methane fluxes ( c . 3 orders of magnitude); however, sapwood‐only fluxes were lower, suggesting that upward/axial methane transport occurs between bark layers. Second, concentrated methane pulse‐injections into exposed M. quinquenervia bark, revealed rapid axial methane transport rates (1.42 mm s −1 ), which were further supported through laboratory‐simulated experiments (1.41 mm s −1 ). Laboratory‐simulated radial CH 4 diffusion rates (through bark) were c . 20‐times slower. Finally, girdling M. quinquenervia stems caused a near‐instantaneous decrease in methane flux immediately above the cut. By contrast, girdling C. glauca displayed persistent, though diminished, methane fluxes. Overall, the experiments revealed evidence for rapid ‘between‐bark’ methane transport independent from the transpiration stream in M. quinquenervia , which facilitates diffusive axial transport from the rhizosphere and/or sapwood sources. This contrasts with the slower, radial ‘through‐bark’ diffusive‐dominated gas transportation in C. glauca .

Topics & Concepts

Bark (sound)GirdlingMethaneBotanyTranspirationMelaleucaAerenchymaEnvironmental scienceChemistryHorticultureBiologyEcologyPhotosynthesisPlant Water Relations and Carbon DynamicsAtmospheric and Environmental Gas DynamicsFire effects on ecosystems