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List of works by Kurt A Smemo

Active Methanotrophs in Two Contrasting North American Peatland Ecosystems Revealed Using DNA-SIP

scientific article published on July 5, 2011

Aggregated and complementary: symmetric proliferation, overyielding, and mass effects explain fine-root biomass in soil patches in a diverse temperate deciduous forest landscape.

scientific article

Impacts of C4 grass introductions on soil carbon and nitrogen cycling in C3-dominated successional systems

scientific article published on 21 May 2008

Impacts of prairie grass species restoration on plant community invasibility and soil processes in abandoned agricultural fields

article

Improving process-based estimates of N2O emissions from soil using temporally extensive chamber techniques and stable isotopes

article

Mycorrhizal fungal communities respond to experimental elevation of soil pH and P availability in temperate hardwood forests

scientific article published on 4 February 2016

Mycorrhizal response to experimental pH and P manipulation in acidic hardwood forests

scientific article

Patterns in spatial distribution and root trait syndromes for ecto and arbuscular mycorrhizal temperate trees in a mixed broadleaf forest

scientific article published on 14 December 2017

Peatland Microbial Communities and Decomposition Processes in the James Bay Lowlands, Canada

scientific article published on February 29, 2012

Shotgun metagenomic analysis of metabolic diversity and microbial community structure in experimental vernal pools subjected to nitrate pulse

scientific article (publication date: 10 April 2013)

Stable isotopes reveal widespread anaerobic methane oxidation across latitude and peatland type

scientific article published on 17 July 2013

The effects of pH change and NO3- pulse on microbial community structure and function: a vernal pool microcosm study

scientific article published on 14 May 2012

Ubiquitous and significant anaerobic oxidation of methane in freshwater lake sediments

article

Vegetation and soil environment influence the spatial distribution of root-associated fungi in a mature beech-maple forest

scientific article

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