Scale matters: fire–vegetation feedbacks are needed to explain tropical tree cover at the local scale
At a broad (regional to global) spatial scale, tropical vegetation is controlled by climate; at the local scale, it is believed to be determined by interactions between disturbance, vegetation and local conditions (soil and topography) through feedback processes. It has recently been suggested that strong fire–vegetation feedback processes may not be needed to explain tree‐cover patterns in tropical ecosystems and that climate–fire determinism is an alternative possibility. This conclusion was based on the fact that it is possible to reproduce observed patterns in tropical regions (e.g. a trimodal frequency distribution of tree cover) using a simple model that does not explicitly incorporate fire–vegetation feedback processes. We argue that these two mechanisms (feedbacks versus fire–climate control) operate at different spatial and temporal scales; it is not possible to evaluate the role of a process acting at fine scales (e.g. fire–vegetation feedbacks) using a model designed to reproduce regional‐scale pattern (scale mismatch). While the distributions of forest and savannas are partially determined by climate, many studies are providing evidence that the most parsimonious explanation for their environmental overlaps is the existence of feedback processes. Climate is unlikely to be an alternative to feedback processes; rather, climate and fire–vegetation feedbacks are complementary processes at different spatial and temporal scales
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John Wiley & Sons
2017-04
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| Subjects: | Fire, Savannas, Forests, Scale, Tropical ecosystems, Vegetation feedback processes, |
| Online Access: | http://hdl.handle.net/10261/182916 |
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dig-cide-es-10261-1829162019-10-15T00:53:31Z Scale matters: fire–vegetation feedbacks are needed to explain tropical tree cover at the local scale Pausas, J. G. Dantas, Vinícius de L. Pausas, J. G. [0000-0003-3533-5786] Fire Savannas Forests Scale Tropical ecosystems Vegetation feedback processes At a broad (regional to global) spatial scale, tropical vegetation is controlled by climate; at the local scale, it is believed to be determined by interactions between disturbance, vegetation and local conditions (soil and topography) through feedback processes. It has recently been suggested that strong fire–vegetation feedback processes may not be needed to explain tree‐cover patterns in tropical ecosystems and that climate–fire determinism is an alternative possibility. This conclusion was based on the fact that it is possible to reproduce observed patterns in tropical regions (e.g. a trimodal frequency distribution of tree cover) using a simple model that does not explicitly incorporate fire–vegetation feedback processes. We argue that these two mechanisms (feedbacks versus fire–climate control) operate at different spatial and temporal scales; it is not possible to evaluate the role of a process acting at fine scales (e.g. fire–vegetation feedbacks) using a model designed to reproduce regional‐scale pattern (scale mismatch). While the distributions of forest and savannas are partially determined by climate, many studies are providing evidence that the most parsimonious explanation for their environmental overlaps is the existence of feedback processes. Climate is unlikely to be an alternative to feedback processes; rather, climate and fire–vegetation feedbacks are complementary processes at different spatial and temporal scales Peer reviewed 2019-05-30T12:26:46Z 2019-05-30T12:26:46Z 2017-04 artículo http://purl.org/coar/resource_type/c_6501 Global Ecology and Biogeography 26(4): 395-399 (2017) 1466-822X http://hdl.handle.net/10261/182916 10.1111/geb.12562 1466-8238 en Postprint http://dx.doi.org/10.1111/geb.12562 Sí open John Wiley & Sons |
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Fire Savannas Forests Scale Tropical ecosystems Vegetation feedback processes Fire Savannas Forests Scale Tropical ecosystems Vegetation feedback processes |
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Fire Savannas Forests Scale Tropical ecosystems Vegetation feedback processes Fire Savannas Forests Scale Tropical ecosystems Vegetation feedback processes Pausas, J. G. Dantas, Vinícius de L. Scale matters: fire–vegetation feedbacks are needed to explain tropical tree cover at the local scale |
| description |
At a broad (regional to global) spatial scale, tropical vegetation is controlled by climate; at the local scale, it is believed to be determined by interactions between disturbance, vegetation and local conditions (soil and topography) through feedback processes. It has recently been suggested that strong fire–vegetation feedback processes may not be needed to explain tree‐cover patterns in tropical ecosystems and that climate–fire determinism is an alternative possibility. This conclusion was based on the fact that it is possible to reproduce observed patterns in tropical regions (e.g. a trimodal frequency distribution of tree cover) using a simple model that does not explicitly incorporate fire–vegetation feedback processes. We argue that these two mechanisms (feedbacks versus fire–climate control) operate at different spatial and temporal scales; it is not possible to evaluate the role of a process acting at fine scales (e.g. fire–vegetation feedbacks) using a model designed to reproduce regional‐scale pattern (scale mismatch). While the distributions of forest and savannas are partially determined by climate, many studies are providing evidence that the most parsimonious explanation for their environmental overlaps is the existence of feedback processes. Climate is unlikely to be an alternative to feedback processes; rather, climate and fire–vegetation feedbacks are complementary processes at different spatial and temporal scales |
| author2 |
Pausas, J. G. [0000-0003-3533-5786] |
| author_facet |
Pausas, J. G. [0000-0003-3533-5786] Pausas, J. G. Dantas, Vinícius de L. |
| format |
artículo |
| topic_facet |
Fire Savannas Forests Scale Tropical ecosystems Vegetation feedback processes |
| author |
Pausas, J. G. Dantas, Vinícius de L. |
| author_sort |
Pausas, J. G. |
| title |
Scale matters: fire–vegetation feedbacks are needed to explain tropical tree cover at the local scale |
| title_short |
Scale matters: fire–vegetation feedbacks are needed to explain tropical tree cover at the local scale |
| title_full |
Scale matters: fire–vegetation feedbacks are needed to explain tropical tree cover at the local scale |
| title_fullStr |
Scale matters: fire–vegetation feedbacks are needed to explain tropical tree cover at the local scale |
| title_full_unstemmed |
Scale matters: fire–vegetation feedbacks are needed to explain tropical tree cover at the local scale |
| title_sort |
scale matters: fire–vegetation feedbacks are needed to explain tropical tree cover at the local scale |
| publisher |
John Wiley & Sons |
| publishDate |
2017-04 |
| url |
http://hdl.handle.net/10261/182916 |
| work_keys_str_mv |
AT pausasjg scalemattersfirevegetationfeedbacksareneededtoexplaintropicaltreecoveratthelocalscale AT dantasviniciusdel scalemattersfirevegetationfeedbacksareneededtoexplaintropicaltreecoveratthelocalscale |
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