Maximum plant-community endemism at intermediate intensities of anthropogenic disturbance in Bolivian Montane Forests
I compared the endemism of four plant groups (Araceae, Bromeliaceae, Palmae, Pteridophyta) along gradients of increasing anthropogenic forest disturbance, from undisturbed mature forest to disturbed forest (logged, grazed, or burned), secondary forest, secondary scrub, and finally pasture, at 16 sit...
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| Published in | Conservation biology Vol. 15; no. 3; pp. 634 - 641 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
Boston, MA, USA
Blackwell Science Inc
01.06.2001
Blackwell Science Blackwell |
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| Online Access | Get full text |
| ISSN | 0888-8892 1523-1739 |
| DOI | 10.1046/j.1523-1739.2001.015003634.x |
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| Abstract | I compared the endemism of four plant groups (Araceae, Bromeliaceae, Palmae, Pteridophyta) along gradients of increasing anthropogenic forest disturbance, from undisturbed mature forest to disturbed forest (logged, grazed, or burned), secondary forest, secondary scrub, and finally pasture, at 16 sites in the Bolivian Andes. I measured endemism as the mean inverse range size (number of 1° cells) of all species per study group encountered in each habitat and site. Overall, endemism was significantly higher in disturbed forest than in mature forest, but it declined in more strongly disturbed habitats. To explain the relationship of range size to habitat disturbance, I propose that endemic species are somewhat competitively inferior to other co-occurring taxa, limited in their ability to establish and maintain new populations following dispersal and thus to expand their ranges. Within their established ranges, endemic species depend on natural habitat disturbances to prevent their competitive exclusion by other species, so they profit from a certain level of anthropogenic disturbance. This pattern and the explanatory hypotheses should be subjected to critical evaluation. Although the pattern does not apply to every endemic tropical plant species, it indicates that conservation of part of the endemic tropical forest flora may be achieved in forest areas subject to sustainable forest use without the need to completely exclude human activities. |
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| AbstractList | I compared the endemism of four plant groups (Araceae, Bromeliaceae, Palmae, Pteridophyta) along gradients of increasing anthropogenic forest disturbance, from undisturbed mature forest to disturbed forest (logged, grazed, or burned), secondary forest, secondary scrub, and finally pasture, at 16 sites in the Bolivian Andes. I measured endemism as the mean inverse range size (number of 1° cells) of all species per study group encountered in each habitat and site. Overall, endemism was significantly higher in disturbed forest than in mature forest, but it declined in more strongly disturbed habitats. To explain the relationship of range size to habitat disturbance, I propose that endemic species are somewhat competitively inferior to other co‐occurring taxa, limited in their ability to establish and maintain new populations following dispersal and thus to expand their ranges. Within their established ranges, endemic species depend on natural habitat disturbances to prevent their competitive exclusion by other species, so they profit from a certain level of anthropogenic disturbance. This pattern and the explanatory hypotheses should be subjected to critical evaluation. Although the pattern does not apply to every endemic tropical plant species, it indicates that conservation of part of the endemic tropical forest flora may be achieved in forest areas subject to sustainable forest use without the need to completely exclude human activities. : I compared the endemism of four plant groups (Araceae, Bromeliaceae, Palmae, Pteridophyta) along gradients of increasing anthropogenic forest disturbance, from undisturbed mature forest to disturbed forest (logged, grazed, or burned), secondary forest, secondary scrub, and finally pasture, at 16 sites in the Bolivian Andes. I measured endemism as the mean inverse range size (number of 1° cells) of all species per study group encountered in each habitat and site. Overall, endemism was significantly higher in disturbed forest than in mature forest, but it declined in more strongly disturbed habitats. To explain the relationship of range size to habitat disturbance, I propose that endemic species are somewhat competitively inferior to other co‐occurring taxa, limited in their ability to establish and maintain new populations following dispersal and thus to expand their ranges. Within their established ranges, endemic species depend on natural habitat disturbances to prevent their competitive exclusion by other species, so they profit from a certain level of anthropogenic disturbance. This pattern and the explanatory hypotheses should be subjected to critical evaluation. Although the pattern does not apply to every endemic tropical plant species, it indicates that conservation of part of the endemic tropical forest flora may be achieved in forest areas subject to sustainable forest use without the need to completely exclude human activities. Resumen: Comparé el endemismo de cuatro grupos de estudio (Araeceae, Bromeliacea, Palmae, Pteridophyta) a lo largo de gradientes con perturbación antropogénica de bosque en incremento desde bosque maduro sin perturbar, bosque perturbado (talado, pastoreado, o quemado), bosque secundario, arbusto secundario y finalmente pastura en 16 sitios ubicados en los Andes Bolivianos. Medí el endemismo como la media inversa del tamaño del rango (número de células 1°) de todas las especies por grupo de estudio encontradas en cada hábitat y sitio. En general, el endemismo fue significativamente más alto en bosques perturbados comparados con bosques maduros pero declinó en hábitats fuertemente perturbados. Para explicar la relación entre tamaño de hábitat y perturbación del hábitat, propongo que las especies endémicas son de alguna manera competitivamente inferiores a otros taxa que co‐ocurren, limitando su habilidad para establecer y mantener nuevas poblaciones después de la dispersión y por lo tanto su habilidad para expander sus rangos. Dentro de sus rangos establecidas, las especies endémicas dependen de las perturbaciones de hábitat naturales para prevenir su exclusión competitiva por otras especies; por lo tanto, se benefician de un cierto nivel de perturbación antropogénica. Este patrón y las hipótesis que lo explican deben ser sujetos a una evaluación crítica. A pesar de que el patrón no se aplica a cada especie de planta tropical, indica que la conservación de una parte de la flora forestal tropical endémica puede llevarse a cabo en áreas forestales sujetas a uso forestal sostenible sin la necesidad de erradicar completamente las actividades humanas. I compared the endemism of four plant groups (Araceae, Bromeliaceae, Palmae, Pteridophyta) along gradients of increasing anthropogenic forest disturbance, from undisturbed mature forest to disturbed forest (logged, grazed, or burned), secondary forest, secondary scrub, and finally pasture, at 16 sites in the Bolivian Andes. I measured endemism as the mean inverse range size (number of 1 degree cells) of all species per study group encountered in each habitat and site. Overall, endemism was significantly higher in disturbed forest than in mature forest, but it declined in more strongly disturbed habitats. To explain the relationship of range size to habitat disturbance, I propose that endemic species are somewhat competitively inferior to other co-occurring taxa, limited in their ability to establish and maintain new populations following dispersal and thus to expand their ranges. Within their established ranges, endemic species depend on natural habitat disturbances to prevent their competitive exclusion by other species, so they profit from a certain level of anthropogenic disturbance. This pattern and the explanatory hypotheses should be subjected to critical evaluation. Although the pattern does not apply to every endemic tropical plant species, it indicates that conservation of part of the endemic tropical forest flora may be achieved in forest areas subject to sustainable forest use without the need to completely exclude human activities. The endemism of four plant groups (Araceae, Bromeliaceae, Palmae, and Pteridophyta) was assessed along a gradient of increasing anthropogenic forest disturbance at 16 sites in the Bolivian Andes. The endemism index was based on the size of the global range of each species in a plant group in each site and forest disturbance category. Disturbance categories ranged from undisturbed mature forest to disturbed (logged, grazed, or burned) forest, secondary forest, secondary scrub, and finally pasture. Overall, endemism was higher in the disturbed than in the undisturbed forest, but was lower in the three more strongly disturbed habitat categories. The findings suggest that endemic species may be competitively inferior to co-occurring taxa and less able to expand their ranges. Within their established ranges, endemic species require natural disturbances to prevent their competitive exclusion by other species, so they benefit from a certain level of anthropogenic disturbance. Although this pattern does not apply to every endemic tropical plant species, it shows that for at least some of these species, conservation may be achieved without completely excluding human activities from sustainably used forests. |
| Author | Kessler, Michael |
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| Keywords | Monocotyledones Gradient Endemic species Plant community Environmental factor Tropical forest Perturbation Tropical montane forest Pteridophyta Araceae Angiospermae Spermatophyta Bromeliaceae Palmae Anthropogenic factor |
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| SubjectTerms | Animal, plant and microbial ecology Applied ecology Araceae Arecaceae biodiversity Biodiversity conservation Biological and medical sciences Bolivia Bromeliaceae Conservation biology Conservation, protection and management of environment and wildlife Endemic species Forest conservation Forest habitats Fundamental and applied biological sciences. Psychology Habitat conservation human activity indigenous species Montane forests Parks, reserves, wildlife conservation. Endangered species: population survey and restocking plant communities Plants Pteridophyta Species Tropical forests |
| Title | Maximum plant-community endemism at intermediate intensities of anthropogenic disturbance in Bolivian Montane Forests |
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