P1066
Reliability and quality of water isotope data collected with a low-budget rain collector.Effects of plant diversity, community composition and environmental parameters on productivity in montane European grasslands.Niche complementarity for nitrogen: an explanation for the biodiversity and ecosystem functioning relationship?Invertebrate herbivory along a gradient of plant species diversity in extensively managed grasslands.Impact of invertebrate herbivory in grasslands depends on plant species diversity.Cellulose (delta)18O is an index of leaf-to-air vapor pressure difference (VPD) in tropical plants.Convergence of soil nitrogen isotopes across global climate gradients.Foliar delta(15)N values characterize soil N cycling and reflect nitrate or ammonium preference of plants along a temperate grassland gradientStable isotopes in leaf water of terrestrial plants.Oxygen isotope fractionations across individual leaf carbohydrates in grass and tree species.Nitrogen fixation and metabolism by groundwater-dependent perennial plants in a hyperarid desert.Tightly bound soil water introduces isotopic memory effects on mobile and extractable soil water pools.Temperate tree species show identical response in tree water deficit but different sensitivities in sap flow to summer soil drying.No shift to a deeper water uptake depth in response to summer drought of two lowland and sub-alpine C₃-grasslands in Switzerland.Effects of environmental parameters, leaf physiological properties and leaf water relations on leaf water delta18O enrichment in different Eucalyptus species.Application of Mycorrhiza and Soil from a Permaculture System Improved Phosphorus Acquisition in Naranjilla.Concentrations and δ²H values of cuticular n-alkanes vary significantly among plant organs, species and habitats in grasses from an alpine and a temperate European grassland.The influence of species and growing conditions on the 18-O enrichment of leaf water and its impact on 'effective path length'.Global patterns of foliar nitrogen isotopes and their relationships with climate, mycorrhizal fungi, foliar nutrient concentrations, and nitrogen availability.Leaf wax n-alkane δD values are determined early in the ontogeny of Populus trichocarpa leaves when grown under controlled environmental conditions.Leaf water 18 O and 2 H enrichment along vertical canopy profiles in a broadleaved and a conifer forest tree.Low secondary leaf wax n-alkane synthesis on fully mature leaves of C3 grasses grown at controlled environmental conditions and variable humidity.Seasonal variation of leaf wax n-alkane production and δ(2)H values from the evergreen oak tree, Quercus agrifolia.The enigma of effective path length for (18) O enrichment in leaf water of conifers.2 H-fractionations during the biosynthesis of carbohydrates and lipids imprint a metabolic signal on the δ2 H values of plant organic compounds.Resource Heterogeneity Moderates the Biodiversity-Function Relationship in Real World Ecosystems.Molecular Paleohydrology: Interpreting the Hydrogen-Isotopic Composition of Lipid Biomarkers from Photosynthesizing OrganismsSignificant seasonal variation in the hydrogen isotopic composition of leaf-wax lipids for two deciduous tree ecosystems (Fagus sylvativa and Acerpseudoplatanus)Prediction of herbage yield in grassland: How well do Ellenberg N-values perform?Effects of plant diversity, plant productivity and habitat parameters on arthropod abundance in montane European grasslandsTesting the efficiency of three 15N-labeled nitrogen compounds for indirect labeling of grasshoppers via plants in the fieldOxygen isotope ratios (18O/16O) of hemicellulose-derived sugar biomarkers in plants, soils and sediments as paleoclimate proxy II: Insight from a climate transect studySources and abundances of leaf waxes in aerosols in central EuropeLosing half the conductive area hardly impacts the water status of mature treesRapid atmospheric transport and large-scale deposition of recently synthesized plant waxesSpecies composition of arbuscular mycorrhizal fungi in two mountain meadows with differing management types and levels of plant biodiversityA dual-biomarker approach for quantification of changes in relative humidity from sedimentary lipid <i>D</i>∕<i>H</i> ratiosStable Isotopes as Indicators, Tracers, and Recorders of Ecological Change: Synthesis and Outlookn-Alkane biosynthetic hydrogen isotope fractionation is not constant throughout the growing season in the riparian tree Salix viminalisVegetation Dynamics at the Upper Reaches of a Tropical Montane Forest are Driven by Disturbance Over the Past 7300 Years
P50
Q30776508-8C4AE4EF-7BFB-41A2-97E6-847507A1E87DQ31126854-A02F2CA5-7B91-4FE5-ADFD-DF232930F8C6Q33246144-8EBF7E8B-9B19-4F13-8894-6E8C7D354701Q33254395-43316CA5-253E-4C70-9A98-075C143A324BQ33618193-65E1953B-0D0B-4CD0-A03B-2B33124EAAC4Q34550087-0915B265-D148-4069-B365-8A9BE53C9E0CQ35056064-02E48E60-25E2-4AE3-B4EB-079069E877CEQ37376731-6CC9269E-9071-4E59-9F01-A17F275F10E8Q38682473-EDD8AF51-F124-4B7C-83E8-2D46C6F116BEQ38823762-961B70ED-B25C-4D10-931C-3C97A0B5472EQ38880132-65F7E4F7-A87C-4A6E-865A-3FC09556CD38Q38881828-2570F775-1D86-4237-B972-6EBA9A4E20FDQ38921503-55CCC548-0673-4AEA-B3EA-51D24932B416Q39120271-C3DEC9BC-7F87-408D-83AA-A37236E5D1D8Q40132660-A17912C7-D7D1-4319-86FA-8ABD7E5978F0Q41050814-92A477F2-F7EE-4936-806A-A2BFFFFAF4C0Q41244271-FA06B92D-D97C-4D44-AC53-4BD0D184A225Q43638511-0DED7DBB-CC1C-4C48-A355-391B3B778DE6Q45946051-2DD98200-973B-45A6-BCFE-27436ADC5149Q46033814-141C0996-9E6B-4157-9938-5CD633F0BD71Q46438025-66684BA0-987D-47A4-90CC-523FD454FB3DQ46471605-48366630-2F1F-4F07-89B8-A3C89E8CDD18Q46719263-431BA212-2574-4E79-BF7D-4B95002CEFB3Q46720289-BE05C4EB-A4EF-4C8B-828A-977BA6CDB8E9Q49822033-8ED30DF7-6C07-4334-9A9B-FFCE3F2A0ED4Q55031851-98AA06A8-8EA6-4FCC-B20C-D8B44DD93BEDQ55113347-592B444D-2ED6-4175-84AD-07A273102535Q56698127-EE4C9B15-460C-4BBA-9EE2-E55F039E5B27Q57036873-616DF65F-6A70-4B2D-9B82-41CDDC3AD637Q57036951-5E2DD49C-8A02-4265-A57F-9EE58C07EDCDQ57036990-356F106A-83A8-4A7B-96F5-DB18EC359299Q57046612-AC08A96C-39B0-4BC2-8E3A-1382EC281D6CQ57199475-40214F77-288D-46BC-9AC3-25A7A277E94EQ57292422-BC6F9996-9202-4444-9D63-2F31DF3E5077Q57605125-0C74A7BC-865F-4D22-83F2-B65CFDBEF031Q57702141-DE1EBF53-1D66-40C0-959E-068D5E8FEF5DQ57892250-2FFB0509-4742-4E9A-B701-FF416243507AQ58242841-BE1ECC78-145E-45E1-A386-AD13D303BCBAQ58394895-D03597B7-91A8-42D0-8324-7D169C34F28DQ58406222-D887AAA1-A2E2-41EC-9044-8F7364C36B85
P50
description
Austria botaanik
@et
Austrian botanist
@en
Austrian botanist
@en-ca
Austrian botanist
@en-gb
botanico austriaco
@it
botanicus uit Oostenrijk
@nl
botanikari austriarra
@eu
botanist austriac
@ro
botanist austriak
@sq
botaniste autrichien
@fr
name
Ansgar Kahmen
@ast
Ansgar Kahmen
@ca
Ansgar Kahmen
@de
Ansgar Kahmen
@en
Ansgar Kahmen
@es
Ansgar Kahmen
@fr
Ansgar Kahmen
@ga
Ansgar Kahmen
@nl
Ansgar Kahmen
@sl
Ansgar Kahmen
@sq
type
label
Ansgar Kahmen
@ast
Ansgar Kahmen
@ca
Ansgar Kahmen
@de
Ansgar Kahmen
@en
Ansgar Kahmen
@es
Ansgar Kahmen
@fr
Ansgar Kahmen
@ga
Ansgar Kahmen
@nl
Ansgar Kahmen
@sl
Ansgar Kahmen
@sq
prefLabel
Ansgar Kahmen
@ast
Ansgar Kahmen
@ca
Ansgar Kahmen
@de
Ansgar Kahmen
@en
Ansgar Kahmen
@es
Ansgar Kahmen
@fr
Ansgar Kahmen
@ga
Ansgar Kahmen
@nl
Ansgar Kahmen
@sl
Ansgar Kahmen
@sq
P214
P227
P106
P1412
P21
P214
P227
P27
P31
P569
1974-12-08T00:00:00Z
P7859
viaf-74949048