Barriers to forest regeneration of deforested and abandoned land in Panama
Article first published online: 23 NOV 2005
Journal of Applied Ecology
Volume 42, Issue 6, pages 1165–1174, December 2005
How to Cite
HOOPER, E., LEGENDRE, P. and CONDIT, R. (2005), Barriers to forest regeneration of deforested and abandoned land in Panama. Journal of Applied Ecology, 42: 1165–1174. doi: 10.1111/j.1365-2664.2005.01106.x
- Issue published online: 23 NOV 2005
- Article first published online: 23 NOV 2005
- Received 11 August 2004; final copy received 5 July 2005 Editor: Phil Hulme
- abandoned agriculture;
- natural regeneration;
- old-field succession;
- Saccharum spontaneum;
- secondary succession;
- seed dispersal;
- tropical forest
- 1In Panama, abandoned agricultural lands that supported tropical rain forest are invaded by the exotic invasive grass Saccharum spontaneum, which precludes native forest regeneration. This study aimed to evaluate the importance of several barriers to forest regeneration and highlight mitigation opportunities.
- 2We examined four barriers to natural regeneration: Saccharum competition, seed dispersal limitation, fire and soil nutrient deficiency. Tree and shrub regeneration was measured in a factorial experiment combining Saccharum cutting treatments, distances from adjacent forest and a prescribed burn to assess the first three barriers, respectively. We compared soil nutrients in Saccharum plots with those from adjacent forest. Additionally, we determined the importance of distance to remnant vegetation (large-leaved monocots, shrubs and isolated trees) on forest regeneration.
- 3Fire significantly decreased plant species richness of forest regeneration. Fire inhibited the germination of most species; the effect was exacerbated by cutting the Saccharum.
- 4Grass competition significantly decreased seedling growth, while soil nutrient deficiency did not affect forest regeneration.
- 5Seed dispersal limitation affected density and species richness. Significantly more species (3×) regenerated at 10 m compared with 35 m from the forest. Mean seedling densities were, respectively, four, three and two times higher under large-leaved monocots, isolated trees and shrubs than in open Saccharum. When seed input was experimentally equalized, large-seeded species had the highest establishment rate, suggesting that if their propagules were dispersed to the site they would regenerate in high proportions. However, under natural conditions they regenerated poorly and represented the most dispersal-limited species group.
- 6Synthesis and applications. Our results suggest that facilitation of natural regeneration may be a feasible, low-cost management option for restoring native forest cover to large areas. Firebreaks must be established to promote biodiversity of forest regeneration. We do not recommend Saccharum cutting or fertilization as site treatments. Shading effectively eliminates Saccharum. Planting a variety of tree species in clumps throughout the Saccharum may overcome dispersal limitations and catalyse natural regeneration. Trees that attract different frugivores are recommended, especially large-seeded forest species.