Increases in terrestrially derived carbon stimulate organic carbon processing and CO₂ emissions in boreal aquatic ecosystems. - Wikidata - awgldk - TriplyDB

Increases in terrestrially derived carbon stimulate organic carbon processing and CO₂ emissions in boreal aquatic ecosystems.

Increases in terrestrially derived carbon stimulate organic carbon processing and CO₂ emissions in boreal aquatic ecosystems.

http://www.wikidata.org/entity/Q39295294

about

Sources and Dynamics of Inorganic Carbon within the Upper Reaches of the Xi River Basin, Southwest China Climate and landscape influence on indicators of lake carbon cycling through spatial patterns in dissolved organic carbon.Patterns in CH4 and CO2 concentrations across boreal rivers: Major drivers and implications for fluvial greenhouse emissions under climate change scenarios.Large-scale patterns in summer diffusive CH4 fluxes across boreal lakes, and contribution to diffusive C emissions.Aged dissolved organic carbon exported from rivers of the Tibetan Plateau Seasonal Changes in Plankton Food Web Structure and Carbon Dioxide Flux from Southern California Reservoirs.Inland waters and their role in the carbon cycle of Alaska.Species sorting along a subsidy gradient alters bacterial community stability.Microbial degradation of terrigenous dissolved organic matter and potential consequences for carbon cycling in brown-water streams.Multiple sources and sinks of dissolved inorganic carbon across Swedish streams, refocusing the lens of stable C isotopes.Greenhouse gases emissions in rivers of the Tibetan Plateau.The Future of Freshwater Macrophytes in a Changing World: Dissolved Organic Carbon Quantity and Quality and Its Interactions With Macrophytes.Dissolved organic carbon in streams within a subarctic catchment analysed using a GIS/remote sensing approach Feasting on terrestrial organic matter: Dining in a dark lake changes microbial decomposition Decoupling of carbon dioxide and dissolved organic carbon in boreal headwater streams Influence of soil frost on the character and degradability of dissolved organic carbon in boreal forest soils Preferential sequestration of terrestrial organic matter in boreal lake sediments Temporal changes in photoreactivity of dissolved organic carbon and implications for aquatic carbon fluxes from peatlands Molecular Signatures of Biogeochemical Transformations in Dissolved Organic Matter from Ten World Rivers Continental-scale variation in controls of summer CO2 in United States lakes Carbonate buffering and metabolic controls on carbon dioxide in rivers The Optical, Chemical, and Molecular Dissolved Organic Matter Succession Along a Boreal Soil-Stream-River Continuum Modeling Allochthonous Dissolved Organic Carbon Mineralization Under Variable Hydrologic Regimes in Boreal Lakes The relative influence of topography and land cover on inorganic and organic carbon exports from catchments in southern Quebec, Canada Human impact on long-term organic carbon export to rivers A review of CO2 and associated carbon dynamics in headwater streams: A global perspective

P2860

Q28553443-1AC4C096-A9A3-4710-B6F7-6804A1661F41 Q30279059-96CC90F1-CC37-4B2F-B56B-E88F404053BA Q30700850-14A54A59-A277-41E0-9F55-1CA71B1FC748 Q30851121-D1414652-2560-46DE-9E00-75D0AFA63380 Q33731893-E0C6DC46-C669-46C4-8891-2A56054995C3 Q35810165-23A8DA20-0CCA-4119-8D92-EA8D4A4CCB1F Q36334265-C89BE93A-1676-455E-B235-59429BD32F12 Q39177726-81C87202-5338-4593-BA29-DA5DF11081A0 Q39622715-66129DC3-F122-424B-B6AF-EB36FB30B4A7 Q41489607-E8819C4B-FB10-4801-973B-DA0F460AA4AE Q47093718-7AF5EACD-A294-4735-B6FD-4B13DB42965A Q55383419-FDEC05AD-8680-4695-9035-F7A86B7B2DC5 Q56889764-48514AB5-DDC6-4320-A13B-75790616B2AF Q57176437-4338A071-B469-4281-932C-CD9B9B9A587C Q57202725-BA283222-4FC9-42B3-A02B-BC3ABFC93441 Q57202731-4A9FFE42-2B40-41D9-9BC9-5F7C926E3C10 Q57210545-7D305F49-ECC4-4B35-B31D-054CA680CA9B Q57890754-50E8CCB6-FA89-4CEE-AA06-AD5E2AA85074 Q57896873-89AEE2AB-5919-4B6E-930D-C14DB78AD14E Q58064052-249C3B3C-307C-4B7B-B2B1-D9028F85326D Q58070264-4C675E05-4688-42EA-A836-CF5E9EEDAC66 Q58082866-FEDF739B-D772-4AD7-AC3F-EE22F8DDA41B Q58082878-FE9EF9F7-E2AF-423B-9AF3-18B16112E6E1 Q58082916-6C26CA45-1E9F-42A4-8325-B3C196F697F1 Q58213606-2C6DD920-D5E4-471E-B347-B1D6D8A160BE Q58479050-FA430394-F6F7-4D9B-A2E2-7F1BEF16163B

P2860

Increases in terrestrially derived carbon stimulate organic carbon processing and CO₂ emissions in boreal aquatic ecosystems.

http://www.wikidata.org/entity/Q39295294

description

2013 nî lūn-bûn

@nan

2013年の論文

@ja

2013年論文

@yue

2013年論文

@zh-hant

2013年論文

@zh-hk

2013年論文

@zh-mo

2013年論文

@zh-tw

2013年论文

@wuu

2013年论文

@zh

2013年论文

@zh-cn

name

Increases in terrestrially der ...... in boreal aquatic ecosystems.

@en

Increases in terrestrially der ...... in boreal aquatic ecosystems.

@nl

type

label

Increases in terrestrially der ...... in boreal aquatic ecosystems.

@en

Increases in terrestrially der ...... in boreal aquatic ecosystems.

@nl

prefLabel

Increases in terrestrially der ...... in boreal aquatic ecosystems.

@en

Increases in terrestrially der ...... in boreal aquatic ecosystems.

@nl

P1433

Q39295294-0F399EB2-BEF2-4FB0-8208-39EE2CE5234F

P1476

Q39295294-FB365A56-B7C9-4398-B708-91FA4D9CBD0A

P2093

Q39295294-219FE1D2-E5C5-41CC-ABB7-E518A208A832

P2860

Q39295294-04C3E0ED-6E96-46C2-A8C1-3FA468FDF347

Q39295294-04F7772B-E6C8-4FBF-97DA-F2D4B8EAD8D3

Q39295294-09373610-C47A-455B-A527-592F615FEA69

Q39295294-0CB37B7A-61EC-4DBC-B0A5-3CE573F8C36E

Q39295294-13732285-FED7-4F99-AAFA-77986EBD5A9A

Q39295294-15BC8C1B-BDD8-4BBE-840D-338B750AA6A9

Q39295294-190E91EE-D01C-4852-8A50-5402A0886AF7

Q39295294-21428512-E052-48FB-8ADC-BFE38015BCD7

Q39295294-24CC708D-A172-4DC6-A9C2-1DF7A95882A9

Q39295294-2CBE73B6-DBE9-441A-8534-2AAE3EDEE436

P2888

Q39295294-EE1554E5-FA85-43A7-A548-BE813466D697

P304

Q39295294-6BA215BB-E4E4-4005-97D8-0181CB4D42DD

P31

Q39295294-9DC387FB-595E-4DD8-8FD5-C2C4199D2BF9

P356

Q39295294-F8CD5D61-8CF0-42AA-9313-9D963F9EE522

P407

Q39295294-CEDB5128-8D41-495E-9870-A5EF5592250F

P478

Q39295294-EA26CE92-CD21-4F05-915F-D823AAA52726

P50

Q39295294-06F3F169-0B54-4BB6-8933-986B1D7423E2

Q39295294-2D99C0B9-076C-477A-95A0-6E0666B02EB6

Q39295294-7C948F3B-4867-4C96-8B9D-6DD819AD8E15

P577

Q39295294-4FEF6969-E5F8-4410-BF24-B96F075C894B

P5875

Q39295294-AD2B46BD-3EBD-41E7-B791-DED00362DA1B

P698

Q39295294-BFDC3248-9354-4C8D-9C22-8DCE1DEB1ACA

P921

Q39295294-7E073DF8-B459-4DD7-BC60-270575E922F9

P356

P1433

Nature Communications

P1476

Increases in terrestrially der ...... s in boreal aquatic ecosystems

@en

P2093

Paul A del Giorgio

http://www.w3.org/2001/XMLSchema#string

P2860

Contributions to accelerating atmospheric CO2 growth from economic activity, carbon intensity, and efficiency of natural sinks

Evidence for the respiration of ancient terrestrial organic C in northern temperate lakes and streams

Magnitude and regulation of bacterioplankton respiratory quotient across freshwater environmental gradients

The role of terrestrially derived organic carbon in the coastal ocean: a changing paradigm and the priming effect

Surface exposure to sunlight stimulates CO2 release from permafrost soil carbon in the Arctic

Temperature sensitivity of soil carbon decomposition and feedbacks to climate change.

Dissolved organic carbon trends resulting from changes in atmospheric deposition chemistry.

The effect of permafrost thaw on old carbon release and net carbon exchange from tundra.

The importance of the relationship between scale and process in understanding long-term DOC dynamics.

Temperature-controlled organic carbon mineralization in lake sediments.

P2888

P304

2972

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1038/NCOMMS3972

http://www.w3.org/2001/XMLSchema#string

P407

P478

4

http://www.w3.org/2001/XMLSchema#string

P50

Martin Berggren

Jean-Francois Lapierre

François Guillemette

P577

2013-01-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

259321016

http://www.w3.org/2001/XMLSchema#string

P698

24336188

http://www.w3.org/2001/XMLSchema#string

P921