The climate warming effect on the development of the pedunculate oak (Quercus robur L.) during the dormancy state and dehardening development was studied by the simulation of different growth conditions. The seed material used was obtained from 9 different origins from Poland to South Finland, to ascertain the most appropriate origin to grow in South Finland. In greenhouses they were simulated two future climatic conditions belonging to the years 2030 and 2100, using the scenario A1B, as well as two conditions of humidity. To find out the state of dormancy and the dehardening ability, we used a freezing test to simulate the injuries caused by the frosts. In dormancy experiment, the seedlings of the year 2030 presented null inju...
The annual growth cycle of boreal trees is synchronized with seasonal changes in photoperiod and tem...
Tree dehardening and budburst will occur earlier in a warmer climate, and this could lead to an incr...
Background and aims: Oaks are considered to be drought- and thermo-tolerant tree species. Neverthele...
The climate warming effect on the development of the pedunculate oak (Quercus robur L.) d...
Climate change is expected to increase temperature and decrease summer precipitation in Central Euro...
Climate change is expected to increase temperature and decrease summer precipitation in Central Euro...
During the autumn, plants undergo a physiological process of cold hardening to limit damage caused b...
The natural northern distribution limit for pedunculate oak (Quercus robur L.) is in southern Finlan...
The aim of the study was to investigate impact of climate warming on timing of deciduous tree specie...
Background and aims: Clinal variation in bud phenology and growth has repeatedly been reported in co...
Due to predicted climate change, it is important to know to what extent trees and forests will be im...
How temperate forests will respond to climate change is uncertain; projections range from severe dec...
With global warming, an advance in spring leaf phenology has been reported worldwide. However, it is...
The changes in reproductive phenology (i.e. timing of flowering and fruiting) observed in recent dec...
Abstract Predicting the effects of climate change on tree species and communities is critical for un...
The annual growth cycle of boreal trees is synchronized with seasonal changes in photoperiod and tem...
Tree dehardening and budburst will occur earlier in a warmer climate, and this could lead to an incr...
Background and aims: Oaks are considered to be drought- and thermo-tolerant tree species. Neverthele...
The climate warming effect on the development of the pedunculate oak (Quercus robur L.) d...
Climate change is expected to increase temperature and decrease summer precipitation in Central Euro...
Climate change is expected to increase temperature and decrease summer precipitation in Central Euro...
During the autumn, plants undergo a physiological process of cold hardening to limit damage caused b...
The natural northern distribution limit for pedunculate oak (Quercus robur L.) is in southern Finlan...
The aim of the study was to investigate impact of climate warming on timing of deciduous tree specie...
Background and aims: Clinal variation in bud phenology and growth has repeatedly been reported in co...
Due to predicted climate change, it is important to know to what extent trees and forests will be im...
How temperate forests will respond to climate change is uncertain; projections range from severe dec...
With global warming, an advance in spring leaf phenology has been reported worldwide. However, it is...
The changes in reproductive phenology (i.e. timing of flowering and fruiting) observed in recent dec...
Abstract Predicting the effects of climate change on tree species and communities is critical for un...
The annual growth cycle of boreal trees is synchronized with seasonal changes in photoperiod and tem...
Tree dehardening and budburst will occur earlier in a warmer climate, and this could lead to an incr...
Background and aims: Oaks are considered to be drought- and thermo-tolerant tree species. Neverthele...