Your search keyword '"Jonathan Urrutia-Estrada"' showing total 3 results

1. Initial response of understorey vegetation and tree regeneration to a mixed‐severity fire in old‐growth Araucaria–Nothofagus forests

Author

Christian Salas-Eljatib, Pablo Santibañez, Andres Fuentes-Ramirez, Jonathan Urrutia-Estrada, Mauro E. González, and Paola Arroyo-Vargas

Subjects

0106 biological sciences, Nothofagus, geography, Pioneer species, geography.geographical_feature_category, Ecology, biology, Chusquea culeou, macromolecular substances, Management, Monitoring, Policy and Law, Araucaria araucana, biology.organism_classification, Old-growth forest, 010603 evolutionary biology, 01 natural sciences, Abundance (ecology), Species richness, Nothofagus pumilio, 010606 plant biology & botany, Nature and Landscape Conservation

Abstract

QUESTIONS: Fire is a key factor influencing Araucaria araucana forests, but the impact of fire severity on the understorey vegetation is not well understood. In this study we seek to answer the following questions: (a) how do initial plant diversity, composition and spatial distribution of the understorey vegetation change in response to different levels of fire severity; and (b) does the abundance of dominant tree species exhibit different patterns across a fire severity gradient shortly after fire? LOCATION: Old‐growth Araucaria araucana–Nothofagus pumilio forests in the Andes of south‐central Chile (38° S, 71° W) burned in 2015. METHODS: We evaluated the post‐fire plant regeneration across a fire severity gradient ranging from unburned forests to areas of high fire severity. One year after fire (in February 2016), we measured woody and herbaceous species richness, abundance, height, origin (native vs exotic species), life forms and the spatial pattern of plant recovery. RESULTS: Plant species richness and abundance were significantly higher within the unburned forest and low fire severity areas one year after fire, compared to areas of high and moderate fire severity. Overall, nearly 50% of the species present in the unburned forest were not found in areas of high severity, including the tree Nothofagus pumilio. Rapid vegetative resprouting of pioneer species such as Chusquea culeou resulted in an aggregated spatial distribution of plants after fire. CONCLUSIONS: Plant diversity and the abundance of Araucaria araucana and Nothofagus pumilio were reduced in areas of high fire severity one year after fire. Exotic species were more abundant within areas of low severity, being likely mediated by cattle browsing. Our research makes clear the potential changes in forest composition and structure if dominant tree species are not capable of recovering after fire. We recommend the exclusion of cattle within fire‐affected areas and planting Nothofagus pumilio in areas of high fire severity.

Published

2020

2. World distribution, diversity and endemism of aquatic macrophytes

Author

Deborah Hofstra, Lars Baastrup-Spohr, Irina Springuel, Thomas Davidson, Daniel Gebler, Balázs András Lukács, Sara Varandas Martins, Tânia Camila Crivelari Betiol, Roger Paulo Mormul, Andrey Efremov, Eric D. Dibble, Michael P. Kennedy, Karina Fidanza, Eugenio Molina-Navarro, Patricia A. Chambers, Julissa Tapia Grimaldo, Jonathan Urrutia-Estrada, and Kevin Murphy

Subjects

Brackish water, Ecology, Ephemeral key, World ecozones, Latitudinal diversity gradient, Species diversity, Plant Science, Aquatic Science, Macrophyte, Latitude, Geography, Arctic, Ecozone, Endemism, Aquatic plants, Macroecology, Biodiversity hotspots

Abstract

To test the hitherto generally-accepted hypothesis that most aquatic macrophytes have broad world distributions, we investigated the global distribution, diversity and endemism patterns of 3457 macrophyte species that occur in permanent, temporary or ephemeral inland freshwater and brackish waterbodies worldwide. At a resolution of 10 × 10° latitude x longitude, most macrophyte species were found to have narrow global distributions: 78% have ranges (measured using an approach broadly following the IUCN-defined concept “extent of occurrence”) that individually occupy T: 625 species/gridcell, 350 of them Neotropical endemics). In contrast, the Sahara/Arabian Deserts, and some Arctic areas, have the lowest macrophyte α-diversity (ST 5-fold difference between the most species-rich (Neotropics) and species-poor (Palaearctic) ecozones. Our findings strongly support the assertion that small-ranged species constitute most of Earth's species diversity.

Published

2019

3. Impactos de la fragmentación sobre la composición florística en bosques pantanosos del centro-sur de Chile

Author

Andres Fuentes-Ramirez, Francisco Correa-Araneda, Enrique Hauenstein, and Jonathan Urrutia-Estrada

Subjects

0106 biological sciences, matriz antropogénica, Biodiversity, Plant Science, 010603 evolutionary biology, 01 natural sciences, Swamp, Floristics, lcsh:Botany, Ecosystem, Transect, Zona borde, riqueza, lcsh:Science, zona núcleo, Ecology, Evolution, Behavior and Systematics, Fragmentation (reproduction), geography.geographical_feature_category, Ecology, 010604 marine biology & hydrobiology, especies no-nativas, lcsh:QK1-989, Geography, especies nativas, lcsh:Q, Species richness

Abstract

Impacts of fragmentation on floristic composition of swamp forests in south-central Chile. The swamp forests of south-central Chile have been greatly altered by the fragmentation of the landscape, which is mainly derived from anthropogenic activities. Despite their high ecological and conservation value for the biodiversity, these ecosystems have been scarcely studied. The main goal of this study was to evaluate the richness of vascular plants in different fragments of swamp forests in the Araucania region (38° S, Chile). A total of 11 fragments were studied, in which edge and core zones were defined. Floristic transects were established, and we recorded and identified all species of vascular plants. Differences in the floristic composition between the edge and the core zones were determined, and we performed a GLM to model the response of species richness according to the area of the fragments and the geographical origin of the plants. A total of 123 species of plants were found across all fragments, of which 76 were native and 47 were non-native species. The floristic composition differs significantly between edge and core zones, and the GLM revealed that species richness is influenced by the area of the fragments and the geographical origin of the plants. Our study concludes that the size of the fragments, as well as by the characteristics of the surrounding matrix are fundamental variables that influence the floristic composition of swamp forests in south-central Chile.

Published

2018