about
sameAs
Belowground carbon allocation by trees drives seasonal patterns of extracellular enzyme activities by altering microbial community composition in a beech forest soil.Experimental drought reduces the transfer of recently fixed plant carbon to soil microbes and alters the bacterial community composition in a mountain meadowEffects of soil organic matter properties and microbial community composition on enzyme activities in cryoturbated arctic soilsAdjustment of microbial nitrogen use efficiency to carbon:nitrogen imbalances regulates soil nitrogen cyclingExploring the transfer of recent plant photosynthates to soil microbes: mycorrhizal pathway vs direct root exudation.Drought history affects grassland plant and microbial carbon turnover during and after a subsequent drought event.Summer drought alters carbon allocation to roots and root respiration in mountain grassland.Seasonal variation in functional properties of microbial communities in beech forest soil.A field method to store samples from temperate mountain grassland soils for analysis of phospholipid fatty acidsMicrobial processes and community composition in the rhizosphere of European beech - The influence of plant C exudates.Plants control the seasonal dynamics of microbial N cycling in a beech forest soil by belowground C allocation.Stoichiometric controls of nitrogen and phosphorus cycling in decomposing beech leaf litter.Effects of drought on nitrogen turnover and abundances of ammonia-oxidizers in mountain grasslandFungal and bacterial utilization of organic substrates depends on substrate complexity and N availabilityAmazon Forest Ecosystem Responses to Elevated Atmospheric CO2 and Alterations in Nutrient Availability: Filling the Gaps with Model-Experiment IntegrationLinks among warming, carbon and microbial dynamics mediated by soil mineral weatheringCoupled carbon and nitrogen losses in response to seven years of chronic warming in subarctic soilsClimatic and edaphic controls over tropical forest diversity and vegetation carbon storageA systemic overreaction to years versus decades of warming in a subarctic grassland ecosystemMicrobial carbon limitation: The need for integrating microorganisms into our understanding of ecosystem carbon cycling
P50
Q34044793-5FDB985A-7925-4492-9F29-EF18D96045F6Q35028825-C65F1474-9608-4F9A-BAA7-F449E18089FBQ35140382-46472DCB-4A53-4A0E-83DD-C97EB8711A00Q35150202-6E27DDE2-EC0D-48A8-9785-F152F7E2B931Q35170695-29B3B79A-EBB9-4D59-8FA8-2D43BE624C92Q37200688-4585BDC0-7CCE-4719-AF1E-C089467B7DC0Q39052680-5EE2AB74-2079-4B31-BDFE-D585D8EC2185Q39645007-80BB7FF7-DD20-4716-8A24-C6F9F2BF68C6Q41773824-D4384197-FD2E-4D90-9197-DB9D4CA344C4Q42174927-6885BC0C-B771-4985-ACE4-EE0ABDCC4408Q51165474-30A3E8DE-B2A3-45C9-92F2-6C7B7614BC74Q51559807-EA19EE76-517C-49E3-A8CF-64959AC12951Q56754968-632F0C02-48A0-489F-A2E8-3233229C9107Q57054740-6EA6A75E-3977-4DF9-8C53-F4D9AAF31F9FQ57068362-DFF02BB1-26D8-490F-8DEC-C9C67AE1436BQ57250252-92ED8F4E-3830-49DD-9CB8-85210A29D998Q62923704-FB96E83D-2C5E-4191-AAA8-04CDDC318BFBQ90471682-5DB20D6D-CCA1-40D2-B1D5-DA95E3957AF9Q91826618-6289A4AD-E8F8-4E90-A82C-4E3CB107CB2BQ91986603-4D4C3CAC-6DDE-49F1-8A77-DADF9FF99DB8
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Lucia Fuchslueger
@ast
Lucia Fuchslueger
@en
Lucia Fuchslueger
@es
Lucia Fuchslueger
@nl
Lucia Fuchslueger
@sl
type
label
Lucia Fuchslueger
@ast
Lucia Fuchslueger
@en
Lucia Fuchslueger
@es
Lucia Fuchslueger
@nl
Lucia Fuchslueger
@sl
prefLabel
Lucia Fuchslueger
@ast
Lucia Fuchslueger
@en
Lucia Fuchslueger
@es
Lucia Fuchslueger
@nl
Lucia Fuchslueger
@sl
P1053
E-6687-2012
P106
P21
P31
P3829
P3835
lucia-fuchslueger
P496
0000-0002-9615-4439