Extreme climatic events shape arid and semiarid ecosystems
Climatic changes associated with the El Nino Southern Oscillation (ENSO) can have a dramatic impact on terrestrial ecosystems worldwide, but especially on arid and semiarid systems, where productivity is strongly limited by precipitation. Nearly two decades of research, including both short-term experiments and long-term studies conducted on three continents, reveal that the initial, extraordinary increases in primary productivity percolate up through entire food webs, attenuating the relative importance of top-down control by predators, providing key resources that are stored to fuel future production, and altering disturbance regimes for months or years after ENSO conditions have passed. Moreover, the ecological changes associated with ENSO events have important implications for agroecosystems, ecosystem restoration, wildlife conservation, and the spread of disease. Here we present the main ideas and results of a recent symposium on the effects of ENSO in dry ecosystems, which was convened as part of the First Alexander von Humboldt International Conference on the El Nino Phenomenon and its Global Impact.
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| Format: | Artículo de revista biblioteca |
| Language: | English |
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ECOLOGICAL SOC AMER
2006-03
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| Subjects: | NINO-SOUTHERN OSCILLATION, |
| Online Access: | https://repositorio.uchile.cl/handle/2250/119957 |
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dig-uchile-cl-2250-1199572023-03-01T21:42:53Z Extreme climatic events shape arid and semiarid ecosystems Holmgren, Milena Stapp, Paul Dickman, Chris R. Gracia, Carlos Graham, Sonia Gutiérrez, Julio R. Hice, Christine Jaksic, Fabián Kelt, Douglas A. Letnic, Mike Lima, Mauricio López, Bernat C. Meserve, Peter L. Milstead, W. Bryan Polis, Gary A. Previtali, M. Andrea Richter, Michael Sabaté, Santi Squeo, Francisco A. NINO-SOUTHERN OSCILLATION Climatic changes associated with the El Nino Southern Oscillation (ENSO) can have a dramatic impact on terrestrial ecosystems worldwide, but especially on arid and semiarid systems, where productivity is strongly limited by precipitation. Nearly two decades of research, including both short-term experiments and long-term studies conducted on three continents, reveal that the initial, extraordinary increases in primary productivity percolate up through entire food webs, attenuating the relative importance of top-down control by predators, providing key resources that are stored to fuel future production, and altering disturbance regimes for months or years after ENSO conditions have passed. Moreover, the ecological changes associated with ENSO events have important implications for agroecosystems, ecosystem restoration, wildlife conservation, and the spread of disease. Here we present the main ideas and results of a recent symposium on the effects of ENSO in dry ecosystems, which was convened as part of the First Alexander von Humboldt International Conference on the El Nino Phenomenon and its Global Impact. 2008-03-14T12:10:51Z 2008-03-14T12:10:51Z 2006-03 Artículo de revista FRONTIERS IN ECOLOGY AND THE ENVIRONMENT Volume: 4 Issue: 2 Pages: 87-95 Published: MAR 2006 1540-9295 https://repositorio.uchile.cl/handle/2250/119957 en application/pdf ECOLOGICAL SOC AMER |
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Dirección de Servicios de Información y Bibliotecas de la UCHILE |
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| topic |
NINO-SOUTHERN OSCILLATION NINO-SOUTHERN OSCILLATION |
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NINO-SOUTHERN OSCILLATION NINO-SOUTHERN OSCILLATION Holmgren, Milena Stapp, Paul Dickman, Chris R. Gracia, Carlos Graham, Sonia Gutiérrez, Julio R. Hice, Christine Jaksic, Fabián Kelt, Douglas A. Letnic, Mike Lima, Mauricio López, Bernat C. Meserve, Peter L. Milstead, W. Bryan Polis, Gary A. Previtali, M. Andrea Richter, Michael Sabaté, Santi Squeo, Francisco A. Extreme climatic events shape arid and semiarid ecosystems |
| description |
Climatic changes associated with the El Nino Southern Oscillation (ENSO) can have a dramatic impact on terrestrial ecosystems worldwide, but especially on arid and semiarid systems, where productivity is strongly limited by precipitation. Nearly two decades of research, including both short-term experiments and long-term studies conducted on three continents, reveal that the initial, extraordinary increases in primary productivity percolate up through entire food webs, attenuating the relative importance of top-down control by predators, providing key resources that are stored to fuel future production, and altering disturbance regimes for months or years after ENSO conditions have passed. Moreover, the ecological changes associated with ENSO events have important implications for agroecosystems, ecosystem restoration, wildlife conservation, and the spread of disease. Here we present the main ideas and results of a recent symposium on the effects of ENSO in dry ecosystems, which was convened as part of the First Alexander von Humboldt International Conference on the El Nino Phenomenon and its Global Impact. |
| format |
Artículo de revista |
| topic_facet |
NINO-SOUTHERN OSCILLATION |
| author |
Holmgren, Milena Stapp, Paul Dickman, Chris R. Gracia, Carlos Graham, Sonia Gutiérrez, Julio R. Hice, Christine Jaksic, Fabián Kelt, Douglas A. Letnic, Mike Lima, Mauricio López, Bernat C. Meserve, Peter L. Milstead, W. Bryan Polis, Gary A. Previtali, M. Andrea Richter, Michael Sabaté, Santi Squeo, Francisco A. |
| author_facet |
Holmgren, Milena Stapp, Paul Dickman, Chris R. Gracia, Carlos Graham, Sonia Gutiérrez, Julio R. Hice, Christine Jaksic, Fabián Kelt, Douglas A. Letnic, Mike Lima, Mauricio López, Bernat C. Meserve, Peter L. Milstead, W. Bryan Polis, Gary A. Previtali, M. Andrea Richter, Michael Sabaté, Santi Squeo, Francisco A. |
| author_sort |
Holmgren, Milena |
| title |
Extreme climatic events shape arid and semiarid ecosystems |
| title_short |
Extreme climatic events shape arid and semiarid ecosystems |
| title_full |
Extreme climatic events shape arid and semiarid ecosystems |
| title_fullStr |
Extreme climatic events shape arid and semiarid ecosystems |
| title_full_unstemmed |
Extreme climatic events shape arid and semiarid ecosystems |
| title_sort |
extreme climatic events shape arid and semiarid ecosystems |
| publisher |
ECOLOGICAL SOC AMER |
| publishDate |
2006-03 |
| url |
https://repositorio.uchile.cl/handle/2250/119957 |
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