ARCHIVED CONTENT: In December 2020, the CZO program was succeeded by the Critical Zone Collaborative Network (CZ Net) ×

Billings et al., 2015

Talk/Poster

Small-scale experiments in diverse ecosystem highlight intricate linkages between microbial behavior and ecosystem-scale processes

Billings, S., Wood, T., Buckeridge, K., Min, K., Lehmeier, C., Flournoy, R., Huang, Z., Ziegler, S., Richter, D., Pett-Ridge, J., Brodie, E., Bouskill, N. (2015)
Ecological Society of America Annual Meeting, Baltimore, MD  

Abstract

Background/Question/Methods

Microorganisms are responsible for a host of processes that drive soil organic matter decay and production, nutrient cycling, and resource loss via leaching and gaseous emissions from ecosystems.  Upscaling microbial responses to environmental change across time and space is important for ecosystem process models, but microbial processes only rarely lend themselves to such efforts.  Historical environmental conditions shape microbial community structure, function and response to perturbation on timescales of years, months, and hours. Steep biogeochemical gradients across space also influence microbial communities, whose behavior can provide a positive feedback that maintains spatially distinct microbial functional zones.  We present data describing microbially mediated biogeochemical fluxes from diverse ecosystems that highlight the intricate interactions between life and Earth’s abiotic realm that help maintain our planet’s climate, and the challenges of upscaling microbial behavior across time and space.

Results/Conclusions

Puerto Rican soil microbes pre-exposed to drought in the preceding year maintain more consistent community composition and exo-enzyme activities during subsequent drought, relative to drought-naïve microbes.  In grassland and boreal forest soils, changing temperature and [O2] can quickly amplify or even reverse biogeochemical outcomes across hours and months, such that a soil with closely matched N2O and N2 production quickly exhibits persistent net N2O emissions, and a low N2O emitting soil can emit the most N2O.  At the Calhoun Critical Zone Observatory, deep root decay has generated O2-starved microsites where CH4 generation is robust; mm away, relatively O2-rich microsites promote net methanotrophy.  Responses of CH4 and N2O fluxes to moisture in Puerto Rican soils vary as much within a single forest in sign and magnitude as across a range of tropical forests. We categorize challenges for generalizing microbially-driven biogeochemistry across time and space, and clarify research needed to aid these efforts.  To celebrate ESA’s 100th anniversary, we highlight how studies quantifying interactions between some of life’s smallest actors and the biogeochemical cycles that maintain life on Earth help embody Arthur Tansley’s original vision of ecosystem ecology.

Citation

Billings, S., Wood, T., Buckeridge, K., Min, K., Lehmeier, C., Flournoy, R., Huang, Z., Ziegler, S., Richter, D., Pett-Ridge, J., Brodie, E., Bouskill, N. (2015): Small-scale experiments in diverse ecosystem highlight intricate linkages between microbial behavior and ecosystem-scale processes. Ecological Society of America Annual Meeting, Baltimore, MD.

This Paper/Book acknowledges NSF CZO grant support.