TY  -  
T1  - Interpreting canopy development and physiology using a European phenology camera network at flux sites 
SN  -  /  
UR  - http://hdl.handle.net/10138/161794 
T3  -  
A1  - Wingate, L.; Ogee, J.; Cremonese, E.; Filippa, G.; Mizunuma, T.; Migliavacca, M.; Moisy, C.; Wilkinson, M.; Moureaux, C.; Wohlfahrt, G.; Hammerle, A.; Hoertnagl, L.; Gimeno, C.; Porcar-Castell, A.; Galvagno, M.; Nakaji, T.; Morison, J.; Kolle, O.; Knohl, A.; Kutsch, W.; Kolari, P.; Nikinmaa, E.; Ibrom, A.; Gielen, B.; Eugster, W.; Balzarolo, M.; Papale, D.; Klumpp, K.; Koestner, B.; Gruenwald, T.; Joffre, R.; Ourcival, J. -M.; Hellstrom, M.; Lindroth, A.; George, C.; Longdoz, B.; Genty, B.; Levula, J.; Heinesch, B.; Sprintsin, M.; Yakir, D.; Manise, T.; Guyon, D.; Ahrends, H.; Plaza-Aguilar, A.; Guan, J. H.; Grace, J. 
A2  -  
PB  -  
Y1  - 2015 
LA  - eng 
AB  - Plant phenological development is orchestrated through subtle changes in photoperiod, temperature, soil moisture and nutrient availability. Presently, the exact timing of plant development stages and their response to climate and management practices are crudely represented in land surface models. As visual observations of phenology are laborious, there is a need to supplement long-term observations with automated techniques such as those provided by digital repeat photography at high temporal a... 
VO  -  
IS  -  
SP  -  
OP  -  
KW  - DIGITAL REPEAT PHOTOGRAPHY; NET CARBON UPTAKE; DECIDUOUS BROADLEAF FOREST; GREENHOUSE-GAS BALANCE; TEMPERATE FOREST; SOIL-TEMPERATURE; SCOTS PINE; ECOSYSTEM RESPIRATION; CHLOROPHYLL CONTENT; LEAF CHLOROPHYLL; 1181 Ecology, evolutionary biology; 4112 Forestry; 114 Physical sciences; 1172 Environmental sciences 
N1  -   
PP  -  
ER  -