Alteracions produïdes pel canvi climàtic en els cicles de les plantes i dels animals.

Filella I, Peñuelas J (2002) Alteracions produïdes pel canvi climàtic en els cicles de les plantes i dels animals. Sostenible (edició electrònica). Revista de la Xarxa de Ciutats i Pobles cap a la Sostenibilitat (http://bd.sostenible.es/sostenible/pubNoticia). Maig-Juny.

Canvi de clima, canvi de vida.

Filella I, Peñuelas J (2002) Canvi de clima, canvi de vida. Mètode 34:16-22.

Plant Ecophysiological studies in the frame of global changes: upscaling from molecule to environment, or walking across space and time.

Peñuelas J, Filella I, Estiarte M, Ogaya R, Ribas A, Llorens L, Mangirón M, Munné S, Bruna P, Sardans J, Prieto P, Asensio D (2002) Plant Ecophysiological studies in the frame of global changes: upscaling from molecule to environment, or walking across space and time. 13 th Congress of the Federation of European Societies of Plant Physiology, Crete. Greece 2002.

Metal pollution in Spanish terrestrial ecosystems during the twentieth century

Peuelas J., Filella I. (2002) Metal pollution in Spanish terrestrial ecosystems during the twentieth century. Chemosphere. 46: 501-505.
Enlace
Doi: 10.1016/S0045-6535(01)00171-0

Resumen:

We show here additional biological evidence of the alteration in global biogeochemistry by human activities during the twentieth century. The mineral concentration of herbarium specimens of 24 species of vascular plants and three species of bryophytes collected in North and East regions of Spain have substantially changed throughout the twentieth century. While V, a proxy tracer of oil pollution, exponentially increased in the last decades, other metals such as Cr, Ba, Sr, Al, Fe, Pb, Cd and Ti increased up to 1960-1970 and started to decrease in 1985-1995, when environmental legal regulations started to be effective. Multivariate principal component analysis showed an overall change in plant elemental concentrations throughout the different decades of the century and a clear separation of vascular plants and bryophytes. Likely important consequences for ecosystem structure and functioning and even for human health may be expected from these changes in mineral concentration. © 2002 Elsevier Science Ltd. All rights reserved.

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Changed plant and animal life cycles from 1952 to 2000 in the Mediterranean region

Peñuelas J., Filella I., Comas P. (2002) Changed plant and animal life cycles from 1952 to 2000 in the Mediterranean region. Global Change Biology. 8: 531-544.
Enlace
Doi: 10.1046/j.1365-2486.2002.00489.x

Resumen:

The available data on climate over the past century indicate that the earth is warming. Important biological effects, including changes of plant and animal life cycle events, have already been reported. However, evidence of such effects is still scarce and has been mostly limited to northern latitudes. Here we provide the first long-term (1952-2000) evidence of altered life cycles for some of the most abundant Mediterranean plants and birds, and one butterfly species. Average annual temperatures in the study area (Cardedeu, NE Spain) have increased by 1.4 °C over the observation period while precipitation remained unchanged. A conservative linear treatment of the data shows that leaves unfold on average 16 days earlier, leaves fall on average 13 days later, and plants flower on average 6 days earlier than in 1952. Fruiting occurs on average 9 days earlier than in 1974. Butterflies appear 11 days earlier, but spring migratory birds arrive 15 days later than in 1952. The stronger changes both in temperature and in phenophases timing occurred in the last 25 years. There are no significant relationships among changes in phenophases and the average date for each phenophase and species. There are not either significant differences among species with different Raunkiaer life-forms or different origin (native, exotic or agricultural). However, there is a wide range of phenological alterations among the different species, which may alter their competitive ability, and thus, their ecology and conservation, and the structure and functioning of ecosystems. Moreover, the lengthening of plant growing season in this and other northern hemisphere regions may contribute to a global increase in biospheric activity.

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