Testing the functional significance of microbial community composition.
about
Forest composition modifies litter dynamics and decomposition in regenerating tropical dry forestGlobal biogeography of microbial nitrogen-cycling traits in soil.Microbes in the Anthropocene: spillover of agriculturally selected bacteria and their impact on natural ecosystemsTree species traits influence soil physical, chemical, and biological properties in high elevation forestsQuantum Dots Reveal Shifts in Organic Nitrogen Uptake by Fungi Exposed to Long-Term Nitrogen EnrichmentNitrogen Addition Altered the Effect of Belowground C Allocation on Soil Respiration in a Subtropical ForestUnearthing the Ecology of Soil Microorganisms Using a High Resolution DNA-SIP Approach to Explore Cellulose and Xylose Metabolism in SoilSpatial heterogeneity of physicochemical properties explains differences in microbial composition in arid soils from Cuatro Cienegas, MexicoMicrobial Community Structure and Function of Soil Following Ecosystem Conversion from Native Forests to Teak Plantation ForestsChanges in soil bacterial community triggered by drought-induced gap succession preceded changes in soil C stocks and quality.Microbial abundance and composition influence litter decomposition response to environmental change.Bacterial structures and ecosystem functions in glaciated floodplains: contemporary states and potential future shifts.Litter quality versus soil microbial community controls over decomposition: a quantitative analysis.A coexisting fungal-bacterial community stabilizes soil decomposition activity in a microcosm experiment.Thermal adaptation of decomposer communities in warming soils.Climate change interactions affect soil carbon dioxide efflux and microbial functioning in a post-harvest forest.Temperature and peat type control CO2 and CH4 production in Alaskan permafrost peats.Microbial mediation of biogeochemical cycles revealed by simulation of global changes with soil transplant and cropping.Effects of substrate addition on soil respiratory carbon release under long-term warming and clipping in a tallgrass prairieNitrogen addition, not initial phylogenetic diversity, increases litter decomposition by fungal communities.Resilience vs. historical contingency in microbial responses to environmental change.Long-term soil transplant simulating climate change with latitude significantly alters microbial temporal turnover.Two decades of warming increases diversity of a potentially lignolytic bacterial community.Microbial composition alters the response of litter decomposition to environmental change.Response of archaeal communities in the rhizosphere of maize and soybean to elevated atmospheric CO2 concentrations.The importance of dispersal for bacterial community composition and functioning.Bacterial community composition of divergent soil habitats in a polar desert.Anthropogenic perturbations in marine microbial communities.Endemism and functional convergence across the North American soil mycobiome.Understory Dwarf Bamboo Affects Microbial Community Structures and Soil Properties in a Betula ermanii Forest in Northern JapanExploring bacterial interspecific interactions for discovery of novel antimicrobial compounds.Integrating microbial ecology in bioprocess understanding: the case of gas biofiltration.Active and total microbial communities in forest soil are largely different and highly stratified during decompositionCore functional traits of bacterial communities in the Upper Mississippi River show limited variation in response to land coverBelowground carbon allocation by trees drives seasonal patterns of extracellular enzyme activities by altering microbial community composition in a beech forest soil.Functional diversity of microbial decomposers facilitates plant coexistence in a plant-microbe-soil feedback modelRelating Phylogenetic and Functional Diversity among Denitrifiers and Quantifying their Capacity to Predict Community FunctioningUntangling the fungal niche: the trait-based approach.Loss in microbial diversity affects nitrogen cycling in soilNitrification rates in Arctic soils are associated with functionally distinct populations of ammonia-oxidizing archaea.
P2860
Q24278922-961D28EB-95D0-4646-9D22-6ED3948756E2Q27316265-03296023-63E9-472A-98DA-C9225FEE8212Q28068050-E88E7E07-B0DE-412C-BA59-17A2D19CA4C7Q28475616-CAA4FA18-665F-42E7-8A4D-D35240429DAAQ28547920-4F3E8572-5B57-4A6A-B888-715C6C18FE22Q28602348-64653897-4919-4F99-808B-AA1A24C41369Q28602756-0A7DD3E6-F696-4D53-B5D1-0A4659585CF8Q28830668-F38D70A0-E34C-4938-B796-6821C2EF657DQ30379766-99121516-6351-4A47-B732-7188A76BB5FDQ30585214-361A6531-8DE9-4C92-9ED8-9A8EDA6F07A6Q30628812-BB5677D5-0C87-4CD8-ACF4-EDE9E4579653Q30654508-B44ADC43-CE70-4CA8-A3FA-EA4967F6B792Q30666091-39F64995-09D5-406E-8043-6FC1171C7930Q30698763-645DEC4A-F41B-4601-BC7D-96FC141797E9Q30715852-5EF49130-DE97-4AC9-BC96-400171B1A253Q30722706-E023D4AC-84FB-4E05-B9BD-52E2DB0D2BF1Q30774891-2DE22BA7-839D-4B33-8033-B7048A4C3C33Q30791992-DEA48CE6-855F-4F5A-A2E2-C4ADD75B937BQ30876397-12E0C34B-C18E-4904-9939-4EF52C3494D1Q30904056-1AA1EC21-E692-4BB6-83AF-7275CF4A4D7EQ30946041-D1625761-C224-4FDE-A497-3E80E0C10625Q30954292-744F5754-0577-44E2-9D28-03B309795168Q30965145-B5043127-A7EF-4491-8D49-BA512A606645Q30984683-3152A338-CB61-4653-A04B-41C7E5C579B2Q30995121-9C1FC3C0-3BBA-49EA-BCF8-EA4190373210Q31037563-DB75D129-9C5A-44F3-9AFB-0B89A76D7986Q31152004-0B419BA7-3D0D-4941-AE12-3C22CCDD23F5Q33672171-355BCF0D-92A8-4BC7-BC62-4F421A3E64EDQ33674072-24C87962-B6ED-4668-A35C-4CF7F594D517Q33818570-ACB268DB-F9D4-416A-B504-A2487D8F3A4DQ33826473-B5C9B42E-7FF5-423B-8E6B-6B464126EB4CQ33852048-7EA348DC-768E-484E-9C9F-628AA2B45A26Q33966880-976F891B-FAC1-4107-89A2-E183A42D9AB6Q34019075-9710FBDA-E95D-493C-A6C4-26C709689DE3Q34044793-7D581D89-F043-4F4E-9EE6-E6381F5196AAQ34069851-0EC89E9E-5084-4774-9094-4D91514A82E9Q34304935-88099302-DE17-4EA7-B4A2-B524BE171A1CQ34433754-1FD560BF-C295-4D49-A53A-0568C0BF54F9Q34610530-A64BA07E-CE84-4F24-8079-7195B2799778Q34610544-5663D9C7-0BB3-46DB-87A7-3A0CC55237CF
P2860
Testing the functional significance of microbial community composition.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Testing the functional significance of microbial community composition.
@en
Testing the functional significance of microbial community composition.
@nl
type
label
Testing the functional significance of microbial community composition.
@en
Testing the functional significance of microbial community composition.
@nl
prefLabel
Testing the functional significance of microbial community composition.
@en
Testing the functional significance of microbial community composition.
@nl
P2860
P50
P356
P1433
P1476
Testing the functional significance of microbial community composition
@en
P2093
Christian Lauber
P2860
P304
P356
10.1890/08-0296.1
P407
P577
2009-02-01T00:00:00Z