Sphagnum physiology in the context of changing climate: emergent influences of genomics, modelling and host–microbiome interactions on understanding ecosystem function
David J. Weston,Collin M. Timm,Anthony P. Walker,Lianhong Gu,Wellington Muchero,Jeremy Schmutz,A. Johathan Shaw,Gerald A. Tuskan,Jeffrey M. Warren,Stan D. Wullschleger
2014 December 07 Plant, Cell and Environment 2014; doi: 10.1111-pce.12458
Peatlands harbour more than one-third of terrestrial carbon leading to the argument that the bryophytes, as major components of peatland ecosystems, store more organic carbon in soils than any other collective plant taxa. Plants of the genus Sphagnum are important components of peatland ecosystems and are potentially vulnerable to changing climatic conditions. However, the response of Sphagnum to rising temperatures, elevatedCO2 and shifts in local hydrology have yet to be fully characterized. In this review, we examine Sphagnum biology and ecology and explore the role of this group of keystone species and its associated microbiome in carbon and nitrogen cycling using literature review and model simulations. Several issues are highlighted including the consequences of a variable environment on plant–microbiome interactions, uncertainty associated with CO2 diffusion resistances and the relationship between fixed N and that partitioned to the photosynthetic apparatus. We note that the Sphagnumfallax genome is currently being sequenced and outline potential applications of population-level genomics and corresponding plant photosynthesis and microbial metabolic modelling techniques. We highlight Sphagnum as a model organism to explore ecosystem response to a changing climate and to define the role that Sphagnum can play at the intersection of physiology, genetics and functional genomics.
WESTON, D. J., TIMM, C. M., WALKER, A. P., GU, L., MUCHERO, W., SCHMUTZ,
J., SHAW, A. J., TUSKAN, G. A., WARREN, J. M. and WULLSCHLEGER, S. D.
(2014), Sphagnum physiology in the context of changing
climate: emergent influences of genomics, modelling and host–microbiome
interactions on understanding ecosystem function. Plant, Cell &
Environment. doi: 10.1111/pce.12458