Resource acquisition and growth yield are fundamental microbial traits that affect biogeochemical processes and have consequences for ecosystem functioning. However, there is a lack of empirical observations linking these traits. Using a landscape-scale survey of temperate near-neutral pH soils, we show tradeoffs in key community-level parameters linked to these traits. Increased investment into extracellular enzymes estimated using specific potential enzyme activity was associated with reduced growth yield obtained using carbon use efficiency measures from stable isotope tracing. Reduction in growth yield was linked more to carbon than nitrogen acquisition highlighting smaller stoichiometric than energetic constraints on community metaboli...
Bacteria are key drivers of global biogeochemical cycling. By producing extracellular enzymes they ...
Microbial decomposers are responsible for the breakdown of organic matter (OM) and thus regulate soi...
Carbon use efficiency (CUE) is the proportion of carbon consumed by a microbe that is converted to b...
Resource acquisition and growth yield are fundamental microbial traits that affect biogeochemical pr...
Soil microorganisms act as gatekeepers for soil–atmosphere carbon exchange by balancing the accumula...
<div><p>Background</p><p>Variation in microbial metabolism poses one of the greatest current uncerta...
Variation in microbial metabolism poses one of the greatest current uncertainties in models of globa...
Soil carbon (C) storage is dependent upon the complex dynamics of fresh and native organic matter cy...
Long-term contrasts in agricultural management can shift soil resource availability with potential c...
We acknowledge funding from the US DOE Genomic Science Program, BER, Office of Science project DE-SC...
Low bioavailability of organic carbon (C) and energy are key constraints to microbial biomass and ac...
The most accepted theories in soil ecology suggest that broad (e.g. respiration) and specialized (e....
Many studies have used the relative activities of extracellular enzymes associated with microbial ca...
Microbial physiology may be critical for projecting future changes in soil carbon. Still, predicting...
The most accepted theories in soil ecology suggest that broad (e.g. respiration) and specialized (e....
Bacteria are key drivers of global biogeochemical cycling. By producing extracellular enzymes they ...
Microbial decomposers are responsible for the breakdown of organic matter (OM) and thus regulate soi...
Carbon use efficiency (CUE) is the proportion of carbon consumed by a microbe that is converted to b...
Resource acquisition and growth yield are fundamental microbial traits that affect biogeochemical pr...
Soil microorganisms act as gatekeepers for soil–atmosphere carbon exchange by balancing the accumula...
<div><p>Background</p><p>Variation in microbial metabolism poses one of the greatest current uncerta...
Variation in microbial metabolism poses one of the greatest current uncertainties in models of globa...
Soil carbon (C) storage is dependent upon the complex dynamics of fresh and native organic matter cy...
Long-term contrasts in agricultural management can shift soil resource availability with potential c...
We acknowledge funding from the US DOE Genomic Science Program, BER, Office of Science project DE-SC...
Low bioavailability of organic carbon (C) and energy are key constraints to microbial biomass and ac...
The most accepted theories in soil ecology suggest that broad (e.g. respiration) and specialized (e....
Many studies have used the relative activities of extracellular enzymes associated with microbial ca...
Microbial physiology may be critical for projecting future changes in soil carbon. Still, predicting...
The most accepted theories in soil ecology suggest that broad (e.g. respiration) and specialized (e....
Bacteria are key drivers of global biogeochemical cycling. By producing extracellular enzymes they ...
Microbial decomposers are responsible for the breakdown of organic matter (OM) and thus regulate soi...
Carbon use efficiency (CUE) is the proportion of carbon consumed by a microbe that is converted to b...