about
Changing Arctic snow cover: A review of recent developments and assessment of future needs for observations, modelling, and impacts.Ecosystem change and stability over multiple decades in the Swedish subarctic: complex processes and multiple driversClimatic and biotic extreme events moderate long-term responses of above- and belowground sub-Arctic heathland communities to climate change.The effect of environmental change on vascular plant and cryptogam communities from the Falkland Islands and the Maritime AntarcticImpacts of extreme winter warming events on plant physiology in a sub-Arctic heath community.Shifts in soil microorganisms in response to warming are consistent across a range of Antarctic environments.Understanding the drivers of extensive plant damage in boreal and Arctic ecosystems: Insights from field surveys in the aftermath of damage.Variable temperature effects of Open Top Chambers at polar and alpine sites explained by irradiance and snow depth.Contrasting survival and physiological responses of sub-Arctic plant types to extreme winter warming and nitrogen.Lichen physiological traits and growth forms affect communities of associated invertebrates.Size and structure of bacterial, fungal and nematode communities along an Antarctic environmental gradient.The spatial structure of Antarctic biodiversityContrasting responses of springtails and mites to elevation and vegetation type in the sub-ArcticMicro-arthropod community responses to ecosystem retrogression in boreal forestResponses of communities of soil organisms and plants to soil aging at two contrasting long-term chronosequencesRemoval of secondary compounds increases invertebrate abundance in lichensImpact of understory mosses and dwarf shrubs on soil micro-arthropods in a boreal forest chronosequenceSnow fungi as a food source for micro-arthropodsMicroclimate within litter bags of different mesh size: Implications for the ‘arthropod effect’ on litter decompositionReduction in snow depth negatively affects decomposers but impact on decomposition rates is substrate dependentSecondary compounds can reduce the soil micro-arthropod effect on lichen decompositionLichen Physiological Traits and Growth Forms Affect Communities of Associated InvertebratesFungal communities influence decomposition rates of plant litter from two dominant tree speciesNutrient optimization of tree growth alters structure and function of boreal soil food webs
P50
Q26764964-E0D9B179-343F-43A2-91DF-3BB693E0EAEAQ30654178-6F5572BE-F8B9-4D1E-B98E-FC6BC959CFA6Q30976717-532E1A81-3BEE-4BB6-B99E-69ACB14D61ADQ33311377-0C7448DB-2F5C-4E38-AC52-605932ADEB79Q33349123-72CC3BFB-48AC-4A8E-8DF4-780CF8DA9267Q34027233-3EB0DF64-A588-47D0-A01E-F1D58198D560Q36385086-85F6E614-A2AE-4484-BA8A-AF31A3D678B8Q39122099-3F2E4C75-8704-431C-B593-DF1CD531CF1BQ46256400-9D53300C-8831-4F0D-876B-9420A5CAB38EQ46635574-41D8C6AD-B0AE-4CD8-AC94-4FE7B83F6379Q47321454-6D15CA33-105B-407D-9008-88236F5A01F2Q57004461-A5B832D6-0F7B-4BB8-B108-65299E112467Q57055701-D63AE6B4-C092-4F37-8F8E-340BA27D1FF4Q57055728-F0FF6D4A-E6D6-4A4F-86F6-4A8FC0EB8803Q57055733-DB9512A9-1FD6-44D2-A866-52C23B6F9712Q57055833-7FB16153-6B07-49EE-91E7-84EE3899706BQ57055848-5FB48DC6-2FAC-4F04-87A9-EE1934567186Q57055861-B575543E-D851-43B9-8B10-488C2A5FAFB8Q57055904-656C991B-750E-4A98-A8AB-1DD1B4E02774Q57055910-C39CE6E9-E841-460D-BB6F-8B25C3DF4B61Q57055913-65D74164-78BD-4F9C-AB9E-6DAA903AE800Q60454765-ECC53F02-4CF1-4463-8E63-22F51F184D17Q60583340-1E368DC7-084E-45B3-A58A-6D415FBA071DQ62593374-77D398E8-44EB-4859-8FC3-5617D0E48F8E
P50
name
Stef Bokhorst
@en
Stef Bokhorst
@nl
type
label
Stef Bokhorst
@en
Stef Bokhorst
@nl
prefLabel
Stef Bokhorst
@en
Stef Bokhorst
@nl