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Complex spatiotemporal phenological shifts as a response to rainfall changes
Author(s) -
Peñuelas Josep,
Filella Iolanda,
Zhang Xiaoyang,
Llorens Laura,
Ogaya Romà,
Lloret Francisco,
Comas Pere,
Estiarte Marc,
Terradas Jaume
Publication year - 2004
Publication title -
new phytologist
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.742
H-Index - 244
eISSN - 1469-8137
pISSN - 0028-646X
DOI - 10.1111/j.1469-8137.2004.01003.x
Subject(s) - phenology , mediterranean climate , peninsula , climate change , ecosystem , environmental science , shrubland , climatology , growing season , vegetation (pathology) , precipitation , ecology , physical geography , geography , biology , geology , medicine , pathology , meteorology
Summary• Climatic warming produces significant gradual alterations in the timing of life‐cycle events , and here we study the phenological effects of rainfall‐pattern changes. • We conducted ecosystem field experiments that partially excluded rain and runoff during the growing season in a Mediterranean forest and in a mediterranean shrubland. Studies of time‐series of leaf‐unfolding, flowering and fruiting over the last 50 yr in central Catalonia were carried out, and greenup onset in the Iberian Peninsula was monitored by satellite images. • Experimental, historical and geographical changes in rainfall produced significant, complex and strongly species‐specific, as well as spatially and temporally variable, phenological effects. Among these changes, it was found that in the Iberian Peninsula, greenup onset changes from spring (triggered by rising temperatures) in the northern cool‐wet regions to autumn (triggered by the arrival of autumn rainfalls) in the southern warm‐dry regions. Even in the mesic Mediterranean central Catalonia (NE of the peninsula) rainfall had a stronger relative influence than temperature on fruiting phenology. • The results show that changes in rainfall and water availability, an important driver of climate change, can cause complex phenological changes with likely far‐reaching consequences for ecosystem and biosphere functioning and structure. The seasonal shift in the Iberian Peninsula further highlights this importance and indicates that vegetation may respond to climate change not only with gradual, but also with abrupt temporal and spatial, changes in the timing of greenup onset.