1980—2005年中国东北木本植物物候特征及其对气温的响应

[1] 近40年沈阳城市森林春季物候与全球气候变暖的关系 [J]. 生态学杂志, 2008, (09) : 1461 - 1468

[2] Phenology of bud burst in Douglas-fir related to provenance, photoperiod, chilling, and flushing temperature. Campbell,RK,Sugano,AI. Botanical Gazette . 1975

[3] European Phenological Response to Climate Change Matches the Warming Pattern. A. Menzel,T. H. Sparks,N. Estrella,E. Koch,A. Aasa,R. Ahas,K. Alm-Kübler,P. Bissolli,O. Braslavská,A. Briede,F. M. Chmielewski,Z. Crepinsek,Y. Curnel,Dahl,C. Defila,A. Donnelly,Y. Filella,K. Jatczal,F. Mge,A. Mestre,Nordli,J. Peuelas,P. Pirinen,V. Remiová,H. Scheifinger,M. Striz,A. Susnik,A. J. H. Vliet,F. -E. Wielgolaski,S. Zach,A. Zust. Global Change Biology . 2006

[4] Thermal time,chill days andprediction of budburst in Picea sitchensis. Cannell M G R,Smith R I. Journal ofApplied Ecology . 1983

[5] A globally coherent fingerprint of climate change impacts across natural systems. Parmesan C, Yohe G. Nature . 2003

[6] Modeling CO2and water va-por exchange of a temperate broadleaved forest across hour-ly to decades time scales. Baldocchi DD,Wilson KB. Ecological Modelling . 2001

[7] Decline in Length of the Summer Season on the Kola Peninsula, Russia[J] . Mikhail V. Kozlov,Natalia G. Berlina. &nbspClimatic Change . 2002 (4)

[8] A generalized,bio-climatic index to predict foliar phenology in response to climate. Jolly WM,Nemani R,Running SW. Global Change Biology . 2005

[9] Response of tree phenology to climate change across Europe. Chmielewsky FM, Roetzer T. Agricultural and Forest Meteorology . 2001

[10] Climate change and shifts in spring phenology of three horticultural woody perennials in northeastern USA [J]. INTERNATIONAL JOURNAL OF BIOMETEOROLOGY, 2005, 49 (05) : 303 - 309

[1] 近40年沈阳城市森林春季物候与全球气候变暖的关系 [J]. 生态学杂志, 2008, (09) : 1461 - 1468

[2] Phenology of bud burst in Douglas-fir related to provenance, photoperiod, chilling, and flushing temperature. Campbell,RK,Sugano,AI. Botanical Gazette . 1975

[3] European Phenological Response to Climate Change Matches the Warming Pattern. A. Menzel,T. H. Sparks,N. Estrella,E. Koch,A. Aasa,R. Ahas,K. Alm-Kübler,P. Bissolli,O. Braslavská,A. Briede,F. M. Chmielewski,Z. Crepinsek,Y. Curnel,Dahl,C. Defila,A. Donnelly,Y. Filella,K. Jatczal,F. Mge,A. Mestre,Nordli,J. Peuelas,P. Pirinen,V. Remiová,H. Scheifinger,M. Striz,A. Susnik,A. J. H. Vliet,F. -E. Wielgolaski,S. Zach,A. Zust. Global Change Biology . 2006

[4] Thermal time,chill days andprediction of budburst in Picea sitchensis. Cannell M G R,Smith R I. Journal ofApplied Ecology . 1983

[5] A globally coherent fingerprint of climate change impacts across natural systems. Parmesan C, Yohe G. Nature . 2003

[6] Modeling CO2and water va-por exchange of a temperate broadleaved forest across hour-ly to decades time scales. Baldocchi DD,Wilson KB. Ecological Modelling . 2001

[7] Decline in Length of the Summer Season on the Kola Peninsula, Russia[J] . Mikhail V. Kozlov,Natalia G. Berlina. &nbspClimatic Change . 2002 (4)

[8] A generalized,bio-climatic index to predict foliar phenology in response to climate. Jolly WM,Nemani R,Running SW. Global Change Biology . 2005

[9] Response of tree phenology to climate change across Europe. Chmielewsky FM, Roetzer T. Agricultural and Forest Meteorology . 2001

[10] Climate change and shifts in spring phenology of three horticultural woody perennials in northeastern USA [J]. INTERNATIONAL JOURNAL OF BIOMETEOROLOGY, 2005, 49 (05) : 303 - 309