Add to ORKGThis study is aimed to investigate impact of climate warming on timing of lime phenological spring (bud burst and leaf unfolding) and phenological autumn (leaf colouring and fall). An essential shift in timing of all investigated phenological phases is detected. The most significant advancing was detected in the case of earliest phenological phase. Shift of bud burst dates during investigated period (1956-2010) consisted 13.5 days. Shift in timing of leaf unfolding was detected to be not so essential and consisted 9.7 days during the same period. The leaf colouring of lime has been delayed by 10 days and leaf fall approximately by 12 days during the study period. As a consequence of observed changes in spring and autumn phenology, growing s...
It is well known that spring phenology has advanced in temperate regions over the last few decades i...
Temperate-zone trees must fulfill cultivar-specific chilling and heat requirements during the dorman...
1. Phenotypic plasticity allows large shifts in the timing of phenology within one single generation...
The aim of the study is to compare the shift in timing of main spring (bud burst, leaf unfolding) an...
The aim of our study was to investigate the response in timing of phenological events and the durati...
The aim of the study was to investigate impact of climate warming on timing of deciduous tree specie...
Earlier spring phenological events have been widely reported in plants under global warming. Recent ...
Climate warming determines significant changes in plant phenology of temperate latitudes, thus makin...
Winter temperature-related chilling and spring temperature-related forcing are two major environment...
The timing of spring phenology in most temperate zone plants results from the combined effects of bo...
While changes in spring phenological events due to global warming have been widely documented, chang...
Aim: Ongoing climate warming has been widely reported to delay autumn phenology, which in turn impac...
Climate drivers of plant phenology in the subtropics and tropics are still unclear, which significan...
International audienceThe timing of the fruit-set stage (i.e., start and end of fruit set) is crucia...
- Microclimatic effects (light, temperature) are often neglected in phenological studies and litt...
It is well known that spring phenology has advanced in temperate regions over the last few decades i...
Temperate-zone trees must fulfill cultivar-specific chilling and heat requirements during the dorman...
1. Phenotypic plasticity allows large shifts in the timing of phenology within one single generation...
The aim of the study is to compare the shift in timing of main spring (bud burst, leaf unfolding) an...
The aim of our study was to investigate the response in timing of phenological events and the durati...
The aim of the study was to investigate impact of climate warming on timing of deciduous tree specie...
Earlier spring phenological events have been widely reported in plants under global warming. Recent ...
Climate warming determines significant changes in plant phenology of temperate latitudes, thus makin...
Winter temperature-related chilling and spring temperature-related forcing are two major environment...
The timing of spring phenology in most temperate zone plants results from the combined effects of bo...
While changes in spring phenological events due to global warming have been widely documented, chang...
Aim: Ongoing climate warming has been widely reported to delay autumn phenology, which in turn impac...
Climate drivers of plant phenology in the subtropics and tropics are still unclear, which significan...
International audienceThe timing of the fruit-set stage (i.e., start and end of fruit set) is crucia...
- Microclimatic effects (light, temperature) are often neglected in phenological studies and litt...
It is well known that spring phenology has advanced in temperate regions over the last few decades i...
Temperate-zone trees must fulfill cultivar-specific chilling and heat requirements during the dorman...
1. Phenotypic plasticity allows large shifts in the timing of phenology within one single generation...