Early Vegetation Recovery After the 2008–2009 Explosive Eruption of the Chaitén Volcano, Chile
In May 2008, Chaitén volcano entered an eruptive process, leading to one of the world’s largest eruptions in recent decades. The magnitude of tephra ejected by the eruption left different types of disturbances and caused diverse forms of environmental damage that were heterogeneously distributed acr...
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2024-12-01
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| author | Ricardo Moreno-Gonzalez Iván A. Díaz Duncan A. Christie Antonio Lara |
| author_facet | Ricardo Moreno-Gonzalez Iván A. Díaz Duncan A. Christie Antonio Lara |
| author_sort | Ricardo Moreno-Gonzalez |
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| description | In May 2008, Chaitén volcano entered an eruptive process, leading to one of the world’s largest eruptions in recent decades. The magnitude of tephra ejected by the eruption left different types of disturbances and caused diverse forms of environmental damage that were heterogeneously distributed across the surrounding area. We went to the field to assess the early vegetation responses a year after the eruption in September 2009. We evaluated the lateral-blast disturbance zone. We distributed a set of plots in three disturbed sites and one in an undisturbed site. In each of these sites, in a rectangular plot of 1000 m<sup>2</sup>, we marked all standing trees, recording whether they were alive, resprouting, or dead. Additionally, in each site of 80 small plots (~4 m<sup>2</sup>), we tallied the regenerated plants, their coverage, and the log volume. We described whether the plant regeneration was occurring on a mineral or organic substrate (i.e., ash or leaf litter, respectively). In the blast zone, the eruption created a gradient of disturbance. Close to the crater, we found high levels of devastation marked by no surviving species, scarcely standing-dead trees and logs, and no tree regeneration. At the other extreme end of the disturbance zone, the trees with damaged crowns were resprouting, small plants were regrowing, and seedlings were more dispersed. The main form of regeneration was the resprouting of trunks or buried roots; additionally, a few seedlings were observed in the small plots and elsewhere in disturbed areas. The results suggest that the early stages of succession are shaped by life history traits like dispersion syndrome and regeneration strategy (i.e., vegetative), as was found after other volcanic eruptions. Likewise, the distribution of biological legacies, which is related to disturbance intensity, can cause certain species traits to thrive. For instance, in the blow-down zone, surviving species were chiefly those dispersed by the wind, while in the standing-dead zone, survivors were those dispersed by frugivorous birds. Additionally, we suggest that disturbance intensity variations are related to the elevation gradient. The varying intensities of disturbance further contribute to these ecological dynamics. The early succession in the blast zone of Chaitén volcano is influenced by the interaction between species-specific life history, altitudinal gradient, and biological legacies. Further studies are required to observe the current successional patterns that occur directly in the blast zone and compare these results with those obtained following other volcanic disturbances. |
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| institution | Kabale University |
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| spelling | doaj-art-dc83a6873f0b4f2eb9fa65cf92891c522025-01-24T13:29:21ZengMDPI AGDiversity1424-28182024-12-011711410.3390/d17010014Early Vegetation Recovery After the 2008–2009 Explosive Eruption of the Chaitén Volcano, ChileRicardo Moreno-Gonzalez0Iván A. Díaz1Duncan A. Christie2Antonio Lara3Instituto de Conservación, Biodiversidad y Territorio, Universidad Austral de Chile, Valdivia 5090000, ChileInstituto de Conservación, Biodiversidad y Territorio, Universidad Austral de Chile, Valdivia 5090000, ChileInstituto de Conservación, Biodiversidad y Territorio, Universidad Austral de Chile, Valdivia 5090000, ChileInstituto de Conservación, Biodiversidad y Territorio, Universidad Austral de Chile, Valdivia 5090000, ChileIn May 2008, Chaitén volcano entered an eruptive process, leading to one of the world’s largest eruptions in recent decades. The magnitude of tephra ejected by the eruption left different types of disturbances and caused diverse forms of environmental damage that were heterogeneously distributed across the surrounding area. We went to the field to assess the early vegetation responses a year after the eruption in September 2009. We evaluated the lateral-blast disturbance zone. We distributed a set of plots in three disturbed sites and one in an undisturbed site. In each of these sites, in a rectangular plot of 1000 m<sup>2</sup>, we marked all standing trees, recording whether they were alive, resprouting, or dead. Additionally, in each site of 80 small plots (~4 m<sup>2</sup>), we tallied the regenerated plants, their coverage, and the log volume. We described whether the plant regeneration was occurring on a mineral or organic substrate (i.e., ash or leaf litter, respectively). In the blast zone, the eruption created a gradient of disturbance. Close to the crater, we found high levels of devastation marked by no surviving species, scarcely standing-dead trees and logs, and no tree regeneration. At the other extreme end of the disturbance zone, the trees with damaged crowns were resprouting, small plants were regrowing, and seedlings were more dispersed. The main form of regeneration was the resprouting of trunks or buried roots; additionally, a few seedlings were observed in the small plots and elsewhere in disturbed areas. The results suggest that the early stages of succession are shaped by life history traits like dispersion syndrome and regeneration strategy (i.e., vegetative), as was found after other volcanic eruptions. Likewise, the distribution of biological legacies, which is related to disturbance intensity, can cause certain species traits to thrive. For instance, in the blow-down zone, surviving species were chiefly those dispersed by the wind, while in the standing-dead zone, survivors were those dispersed by frugivorous birds. Additionally, we suggest that disturbance intensity variations are related to the elevation gradient. The varying intensities of disturbance further contribute to these ecological dynamics. The early succession in the blast zone of Chaitén volcano is influenced by the interaction between species-specific life history, altitudinal gradient, and biological legacies. Further studies are required to observe the current successional patterns that occur directly in the blast zone and compare these results with those obtained following other volcanic disturbances.https://www.mdpi.com/1424-2818/17/1/142008 Chaitén volcanovolcanic disturbancevegetation dynamics<i>Nothofagus</i> dynamicsSouth American temperate rainforestearly succession |
| spellingShingle | Ricardo Moreno-Gonzalez Iván A. Díaz Duncan A. Christie Antonio Lara Early Vegetation Recovery After the 2008–2009 Explosive Eruption of the Chaitén Volcano, Chile Diversity 2008 Chaitén volcano volcanic disturbance vegetation dynamics <i>Nothofagus</i> dynamics South American temperate rainforest early succession |
| title | Early Vegetation Recovery After the 2008–2009 Explosive Eruption of the Chaitén Volcano, Chile |
| title_full | Early Vegetation Recovery After the 2008–2009 Explosive Eruption of the Chaitén Volcano, Chile |
| title_fullStr | Early Vegetation Recovery After the 2008–2009 Explosive Eruption of the Chaitén Volcano, Chile |
| title_full_unstemmed | Early Vegetation Recovery After the 2008–2009 Explosive Eruption of the Chaitén Volcano, Chile |
| title_short | Early Vegetation Recovery After the 2008–2009 Explosive Eruption of the Chaitén Volcano, Chile |
| title_sort | early vegetation recovery after the 2008 2009 explosive eruption of the chaiten volcano chile |
| topic | 2008 Chaitén volcano volcanic disturbance vegetation dynamics <i>Nothofagus</i> dynamics South American temperate rainforest early succession |
| url | https://www.mdpi.com/1424-2818/17/1/14 |
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