Phenology and Climate Change: A Long-Term Study in a Mediterranean Locality

It is well documented that plant and animal phenology is changing in response to recent climate warming in the Palaearctic. However, few long-term data sets are currently available in the Mediterranean basin. The present study reports long-term temporal trends of several phenophases of 45 plants, 4...

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Bibliographic Details
Published in:Oecologia 2005-12, Vol.146 (3), p.484-495
Main Authors: Gordo, Oscar, Sanz, Juan José
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal Migration - physiology
Animal, plant and microbial ecology
Animals
Applied ecology
Autumn
Biological and medical sciences
Birds
Birds - physiology
Climate change
Climate models
Ecotoxicology, biological effects of pollution
Flowering
Fruiting
Fundamental and applied biological sciences. Psychology
General aspects
Global Change Ecology
Global warming
Greenhouse Effect
Herbivores
Insecta - physiology
Insects
Mediterranean Region
Phenology
Plant Physiological Phenomena
Plant resources
Plants
Pollinators
Population Dynamics
Rain
Spring
Summer
Temperature
Time Factors
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Summary:It is well documented that plant and animal phenology is changing in response to recent climate warming in the Palaearctic. However, few long-term data sets are currently available in the Mediterranean basin. The present study reports long-term temporal trends of several phenophases of 45 plants, 4 insects and 6 migratory insectivorous birds. Dynamic factor analyses performed with plant phenophases showed that most of those events occurring at spring and summer had common trends toward the advancement, especially since mid-1970s. However, during these last decades, insect phenology showed a steeper advance than plant phenology, suggesting an increase of decoupling of some plant-insect interactions, such as those between pollinators and flowers or herbivorous insects and their plant resources. All trans-Saharan bird species showed highly significant temporal trends in all studied phenophases (some of them covering most of the last century). In two species, the duration of stay is increasing due to both earlier arrivals and later departures. On the other hand, two wintering species showed a significant advancement in their arrival dates, while an opposite pattern were found for departures of each one. Only one of these species increased significantly its wintering stay. Bird departures were not related to local climate in any species. Our results demonstrate a key role of local temperatures behind interannual variability of most plant and insects phenophases, with especial emphasis in those occurring in spring and summer. Therefore, the common signal towards the advancement recorded since mid-1970s resulted from the recent rise in temperatures.
ISSN:0029-8549
1432-1939
DOI:10.1007/s00442-005-0240-z