Microbial and Environmental Processes Shape the Link between Organic Matter Functional Traits and Composition
journal contributionposted on 23.06.2022, 21:03 authored by Ang Hu, Kyoung-Soon Jang, Fanfan Meng, James Stegen, Andrew J. Tanentzap, Mira Choi, Jay T. Lennon, Janne Soininen, Jianjun Wang
Dissolved organic matter (DOM) is a large and complex mixture of molecules that fuels microbial metabolism and regulates biogeochemical cycles. Individual DOM molecules have unique functional traits, but how their assemblages vary deterministically under global change remains poorly understood. Here, we examine DOM and associated bacteria in 300 aquatic microcosms deployed on mountainsides that span contrasting temperatures and nutrient gradients. Based on molecular trait dimensions of reactivity and activity, we partition the DOM composition into labile-active, recalcitrant-active, recalcitrant-inactive, and labile-inactive fractions and quantify the relative influences of deterministic and stochastic processes governing the assembly of each. At both subtropical and subarctic study sites, the assembly of labile or recalcitrant molecules in active fractions is primarily governed by deterministic processes, while stochastic processes are more important for the assembly of molecules within inactive fractions. Surprisingly, the importance of deterministic selection increases with global change gradients for recalcitrant molecules in both active and inactive fractions, and this trend is paralleled by changes in the deterministic assembly of microbial communities and environmental filtering, respectively. Together, our results highlight the shift in focus from potential reactivity to realized activity and indicate that active and inactive fractions of DOM assemblages are structured by contrasting processes, and their recalcitrant components are consistently sensitive to global change. Our study partitions the DOM molecular composition across functional traits and links DOM with microbes via a shared ecological framework of assembly processes. This integrated approach opens new avenues to understand the assembly and turnover of organic carbon in a changing world.
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unique functional traitsshared ecological frameworkregulates biogeochemical cyclesmolecular trait dimensionssubarctic study sitesspan contrasting temperaturesassemblages vary deterministicallyfuels microbial metabolismdeterministic selection increasesstochastic processes governingenvironmental processes shapeglobal change gradientsindividual dom moleculesglobal changestochastic processescontrasting processesstudy partitionsnutrient gradientsenvironmental filteringdom assemblagesdeterministic processesresults highlightrelative influencesprimarily governedorganic carbonmicrobial communitiesmicrobes vialinks domexamine domdom compositionconsistently sensitivecomplex mixturechanging worldassociated bacteriaassembly processes