Interactions among shrub cover and the soil microclimate may determine future Arctic carbon budgets. - Wikidata - awgldk - TriplyDB

Interactions among shrub cover and the soil microclimate may determine future Arctic carbon budgets.

Interactions among shrub cover and the soil microclimate may determine future Arctic carbon budgets.

http://www.wikidata.org/entity/Q39560184

about

Thermal acclimation of shoot respiration in an Arctic woody plant species subjected to 22 years of warming and altered nutrient supply.The unseen iceberg: plant roots in arctic tundra.Rapid carbon turnover beneath shrub and tree vegetation is associated with low soil carbon stocks at a subarctic treeline Greater deciduous shrub abundance extends tundra peak season and increases modeled net CO2 uptake.Vegetation shift from deciduous to evergreen dwarf shrubs in response to selective herbivory offsets carbon losses: evidence from 19 years of warming and simulated herbivory in the subarctic tundra.Shrubline but not treeline advance matches climate velocity in montane ecosystems of south-central Alaska.Coupled long-term summer warming and deeper snow alters species composition and stimulates gross primary productivity in tussock tundra.Factors Controlling Methane in Arctic Lakes of Southwest Greenland.Greater temperature sensitivity of plant phenology at colder sites: implications for convergence across northern latitudes.Summer temperature increase has distinct effects on the ectomycorrhizal fungal communities of moist tussock and dry tundra in Arctic Alaska.Moss Mediates the Influence of Shrub Species on Soil Properties and Processes in Alpine Tundra.Effects of environmental and biotic factors on carbon isotopic fractionation during decomposition of soil organic matter.Pan-Arctic modelling of net ecosystem exchange of CO2.Complex biotic interactions drive long-term vegetation dynamics in a subarctic ecosystem.The Arctic in the Twenty-First Century: Changing Biogeochemical Linkages across a Paraglacial Landscape of Greenland.Effects of arctic shrub expansion on biophysical vs. biogeochemical drivers of litter decomposition.Quantitative assessment of the differential impacts of arbuscular and ectomycorrhiza on soil carbon cycling.Ecotypic differences in the phenology of the tundra species Eriophorum vaginatum reflect sites of origin.Experimental herbivore exclusion, shrub introduction, and carbon sequestration in alpine plant communities Environmental perturbation, grazing pressure and soil wetness jointly drive mountain tundra toward divergent alternative states Seasonal and Long-Term Changes to Active-Layer Temperatures after Tall Shrubland Expansion and Succession in Arctic Tundra Temperature modulates intra-plant growth of Salix polaris from a high Arctic site (Svalbard)Temperature-induced recruitment pulses of Arctic dwarf shrub communities Is the subarctic landscape still a carbon sink? Evidence from a detailed catchment balance

P2860

Q30753131-8B41620A-C93C-4C21-B32F-59B30451DA06 Q30850461-F2491C49-7F54-401E-8241-D77DD29A30EF Q30867179-71AF6B67-7AF9-4145-A416-435E1C5F5B9C Q30882615-3DD04838-4302-43BD-8C95-F05ED8DBDDB5 Q30946022-AE77883E-49BD-4DD1-ABAD-328ECE51DB73 Q31034562-58451AFC-0E7D-4E4C-B544-39F41F349F7B Q31036008-B0B73CC2-0479-4E09-87DE-6012DD244261 Q31117304-5019D878-A49A-48D7-87EE-FA610BFE2DB9 Q31154361-BBB3FFFB-4778-482F-9E67-7F246EE58921 Q35231555-6347C708-380D-4D38-9799-E46F4E333026 Q36167753-45A5E0AF-116F-4BC6-B7EC-BB271202AF38 Q36293460-6EF6A8CE-8910-4C03-AC67-F5FF524ACAE8 Q37037456-AA20E57B-C7DB-44E9-AB46-C812E3F14DE1 Q37037459-9327F94A-21C9-4C87-94EF-EED85FCA3924 Q37741196-1113970E-2279-49D2-AC8D-CF3B51872875 Q39128412-75CFCECB-88E3-4A5D-B310-F26F19E6FC98 Q40900936-CA447EDD-4A94-4F82-9454-E49C8BBE2F22 Q46251483-5BB57204-0BE1-486E-9A30-47215004F5C7 Q57091771-69C863C0-E506-4622-9F49-9143F466520D Q57269853-6F1A2E29-91A3-42A0-AFE2-A221218F6F5D Q57449812-533B2880-0AB5-4C63-82D7-179759F961AB Q57846135-9DD30701-081D-4C45-BDEC-1E063C291AF6 Q58239291-E0C754FC-3455-4BF4-BA99-34B8A10FC659 Q58650641-11067D78-9585-4644-BDC5-A15CBFF2A2CB

P2860

Interactions among shrub cover and the soil microclimate may determine future Arctic carbon budgets.

http://www.wikidata.org/entity/Q39560184

description

2012 nî lūn-bûn

@nan

2012年の論文

@ja

2012年論文

@yue

2012年論文

@zh-hant

2012年論文

@zh-hk

2012年論文

@zh-mo

2012年論文

@zh-tw

2012年论文

@wuu

2012年论文

@zh

2012年论文

@zh-cn

name

Interactions among shrub cover ...... future Arctic carbon budgets.

@en

Interactions among shrub cover ...... future Arctic carbon budgets.

@nl

type

label

Interactions among shrub cover ...... future Arctic carbon budgets.

@en

Interactions among shrub cover ...... future Arctic carbon budgets.

@nl

prefLabel

Interactions among shrub cover ...... future Arctic carbon budgets.

@en

Interactions among shrub cover ...... future Arctic carbon budgets.

@nl

P1433

Q39560184-6F40F547-C1B0-4B78-8EF4-F27A3EE4B9B4

P1476

Q39560184-519F14B3-E36C-4A92-B746-8D42D7E71123

P2093

Q39560184-3D5E30D6-FB55-4F29-828F-D9E7B25A6DA9

Q39560184-E0A697C0-EAA7-43EB-8FA4-F2FBD8398C09

Q39560184-F093B921-B4FB-4B2C-A926-6B40266283C9

P2860

Q39560184-05DAB27C-968A-4408-B013-72CE3C6C7E07

Q39560184-0C5EDF96-6657-4353-BC14-D2B2C08AB3ED

Q39560184-1D4C48E9-4338-4F32-BC70-DA33A6393836

Q39560184-43F5D297-5D69-44AB-8F41-2FC10649541E

Q39560184-4E8019AA-2265-4400-9561-1F890032BDEA

Q39560184-5D8120D6-4D8A-4DB7-BCC4-9B852722CF65

Q39560184-6E6880AC-E09B-45CF-9D2C-34E3000F9482

Q39560184-9454154A-35B2-45DD-A3F5-71A0BE402C77

Q39560184-A4ABE36E-937C-4897-BA7A-0A13FC8C730D

Q39560184-AE20F433-CBE5-4687-B5A0-08B30BD6506E

P304

Q39560184-8B5D6585-E266-4972-B9B7-44386822DCA0

P31

Q39560184-911A637B-45CA-400E-9B43-DDC57724E11D

P356

Q39560184-B11C283C-A0F4-4E3D-B980-A73CC6552397

P407

Q39560184-05BD445A-9673-4EDF-A186-7C4BCB482023

P433

Q39560184-4838B389-7A01-4082-A86D-406DBA733FF9

P478

Q39560184-AEBC1C23-6EBD-4292-877C-A87D6980B84A

P50

Q39560184-027A7E86-BE87-4C60-972B-2C0DB6644FD8

Q39560184-56EA5168-D537-4C52-9F49-A9835B725E05

Q39560184-D4E8D9BC-3970-413E-A1FF-63F3E783E101

P577

Q39560184-DEE92143-6615-45A6-B1FD-7D59F4CD12AF

P5875

Q39560184-B6BCAD05-3F33-4134-9DB8-E97E93E34DC8

P698

Q39560184-3A46AF4C-F737-4714-9C64-A916AB76A85F

P921

Q39560184-6834966A-1B82-4CCE-B314-DB6DBAF0552C

P356

J.1461-0248.2012.01865.X

P1433

Ecology Letters

P1476

Interactions among shrub cover ...... future Arctic carbon budgets.

@en

P2093

Marcel Holyoak

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

Patrick F Sullivan

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

Sean M P Cahoon

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

P2860

Plant community responses to experimental warming across the tundra biome.

Assessing the carbon balance of circumpolar Arctic tundra using remote sensing and process modeling.

Global negative vegetation feedback to climate warming responses of leaf litter decomposition rates in cold biomes.

Opposing plant community responses to warming with and without herbivores.

Changes in vegetation in northern Alaska under scenarios of climate change, 2003-2100: implications for climate feedbacks.

Ecological dynamics across the Arctic associated with recent climate change.

Increased plant biomass in a High Arctic heath community from 1981 to 2008.

Respiration as the main determinant of carbon balance in European forests.

Global assessment of experimental climate warming on tundra vegetation: heterogeneity over space and time.

Role of land-surface changes in arctic summer warming.

P304

1415-1422

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

P31

scholarly article

P356

10.1111/J.1461-0248.2012.01865.X

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

P407

P433

12

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

P478

15

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

P50

Jeffrey M Welker

P577

2012-09-03T00:00:00Z

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

P5875

230780660

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

P698

22938383

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

P921