about
Variability of growing degree days in Poland in response to ongoing climate changes in EuropeConsistent shifts in spring vegetation green-up date across temperate biomes in China, 1982-2006.Detecting nonlinear response of spring phenology to climate change by Bayesian analysis.Shifting and extension of phenological periods with increasing temperature along elevational transects in southern Bavaria.Long-term temporal changes in central European tree phenology (1946-2010) confirm the recent extension of growing seasons.Strong contribution of autumn phenology to changes in satellite-derived growing season length estimates across Europe (1982-2011).Effects of climate change on the economic output of the Longjing-43 tea tree, 1972-2013.Development and growth of primordial shoots in Norway spruce buds before visible bud burst in relation to time and temperature in the field.Changes in leaf phenology of three European oak species in response to experimental climate change.Human-modified temperatures induce species changes: Joint attribution.Seventeen-year trends in spring and autumn phenophases of Betula pubescens in a boreal environment.Drought advances spring growth phenology of the Mediterranean shrub Erica multiflora.Tradeoffs between chilling and forcing in satisfying dormancy requirements for Pacific Northwest tree species.Forecasting plant phenology: evaluating the phenological models for Betula pendula and Padus racemosa spring phases, Latvia.Land surface phenology and land surface temperature changes along an urban-rural gradient in Yangtze River Delta, china.Trends and uncertainties in budburst projections of Norway spruce in Northern Europe.Aerobiology in the International Journal of Biometeorology, 1957-2017.Plant phenological variation related to temperature in Norway during the period 1928-1977.Onset of spring starting earlier across the Northern HemisphereAdvances in flowering phenology across the Northern Hemisphere are explained by functional traitsAbsence of soil frost affects plant-soil interactions in temperate grasslandsPhenology shifts at start vs. end of growing season in temperate vegetation over the Northern Hemisphere for the period 1982-2008Impact of urban warming on earlier spring flowering in KoreaThe winter Arctic Oscillation, the timing of spring, and carbon fluxes in the Northern HemisphereAssessing growing season beginning and end dates and their relation to climate in Taiwan using satellite data'SSW to NNE' - North Atlantic Oscillation affects the progress of seasons across EuropeBayesian analysis of climate change impacts in phenologyDifferences in atmospheric trees pollen seasons in winter, spring and summer in two European geographic areas, Spain and ItalyObserved and Simulated Sensitivities of Spring Greenup to Preseason Climate in Northern Temperate and Boreal RegionsCharacteristics and trends of selected pollen seasons recorded in Parma (Northern Italy) from 1994 to 2011Spring phenology in boreal Eurasia over a nearly century time scaleModeling the date of leaf appearance in low-arctic tundraRepresentativeness of point-wise phenological Betula data collected in different parts of Europe
P2860
Q28818738-4692712E-DDFE-44AD-912E-A300FB7091A9Q30601519-D9A38AAF-82A7-49F7-AE5C-29643725EE6EQ30602154-39E29FE9-BD08-46EB-B764-321FC9DAF0C4Q30662277-C960AD57-49E6-4969-922D-3609C0028981Q30726144-E10F9F5D-EA55-4391-AC87-C3F717F9436CQ30814469-C8895A0D-3E7F-462B-88D6-3F583C209279Q30838262-11B1AE6F-420F-4206-93DF-19FC561A7D60Q33354075-C95F96EE-7BEE-4CDB-ACB1-44BA04EBDF57Q33560359-C6532205-14B3-4459-B109-E0C95773E88DQ33821389-C2B6A794-A666-4489-9C57-78602E9E5819Q35873639-5B5EFC86-2F94-46DA-B9E8-61B165743943Q38905685-F88D8321-8F19-4F30-B858-6A64400B7F5FQ39027892-8F30747F-DA40-4F9D-ACC1-B0A3E4BDBFA4Q39199867-144C3AA3-BB6B-41B4-A481-46B548F8256CQ40115939-DCFA7A08-E1BC-4635-BACB-005DECC08C82Q46241718-5CF6DD1A-0290-4D7F-BBBA-823AE721A055Q48024392-DAC46042-01D6-488D-B840-0347F06ACC47Q48620317-E63757CF-54B8-4DB9-97C4-CAD2484342C6Q56336376-82171F13-78F1-489A-933F-CF7DF50166DDQ56395936-7F83D917-5EA5-49D7-9B23-0C7F3F039231Q56879781-13439B26-21FA-43CD-BA48-EA4C845C7B34Q57197679-2DA92115-E817-4E91-BE5F-DEED91DFBD3EQ58007455-484B5695-4E99-4FFA-AEE5-54D64BCD1C0AQ58069016-857E7DAC-C6E7-43BD-8054-F090E03A1DC0Q58240756-DE81A08C-2D93-4ED8-A871-A16275256E42Q58250051-F45F7C27-2690-4BDD-B79A-1A398D7CB9DBQ58250067-86038999-8B3E-4D4C-A99D-B392C3E77511Q58263250-B5C894BA-5AA5-492F-ABC4-06A965E413CAQ58312271-105169F9-8B94-4F23-8783-2891334B1459Q58314846-5A1C9FB4-7D88-4E12-91CD-D14CCB5B58BCQ58405766-CCA20BFC-614E-4B0F-92C4-A0AEB8A9854BQ58405770-B9A4B508-5056-455E-BC88-06F1A20D1652Q58646859-CB54D50D-2B8B-457E-83F7-073AE9F661C5
P2860
description
article
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована у 2002
@uk
name
Changes in European spring phenology
@en
Changes in European spring phenology
@nl
type
label
Changes in European spring phenology
@en
Changes in European spring phenology
@nl
prefLabel
Changes in European spring phenology
@en
Changes in European spring phenology
@nl
P50
P356
P1476
Changes in European spring phenology
@en
P2093
H. Scheifinger
V. G. Fedotova
P304
P356
10.1002/JOC.818
P577
2002-01-01T00:00:00Z