Abstract
The ongoing destruction of old-growth forests puts tropical forest species under great pressure because of the resulting habitat loss. A pre-requisite for the maintenance of a viable metacommunity in a fragmented landscape is the connectivity between habitable patches. We experimentally studied four vital steps of epiphyte dispersal in different habitat types in western Panama. (i) Seed falling velocity (Vterm) is known to correlate with long-distance dispersal via convective updraft. All measured Vterm of bromeliad and orchid seeds fell into a range of velocities with a high chance of long-distance dispersal. (ii) We quantified attachment success of bromeliad seeds as a function of bark rugosity with >30 common tree species in the region. Even fine bark structure allowed effective attachment. (iii and iv) Successful establishment is achieved when a seed germinates and a plantlet grows and survives. Germination success and early establishment of four bromeliad species did not differ between isolated trees, teak plantations or secondary forest patches. Microclimatic differences between habitat types were marginal and neither germination nor establishment correlated significantly with annual precipitation. The findings suggest a large capacity for dispersal and successful early establishment for these anemochorous species. A potentially regenerating forest may receive considerable input from sources such as pasture trees and in this way gain structural complexity, which also greatly enhances its value for other forest organisms.
Highlights
Increasing human populations lead to massive alteration and fragmentation of native vegetation that remains in patches within the landscape
There was no correlation of seed adherence with relative abundance of epiphytes hosted by a tree species (Kendall’s rank correlation: Z = 1.0, P = 0.2, τ = 0.2), nor with average epiphyte species gain in the period from 2005 to 2013 (Kendall’s rank correlation: Z = 0.26, P = 0.4, τ = 0.04)
We studied important processes of the early ontogeny of vascular epiphytes to reach a mechanistic understanding of the long-term viability of epiphyte communities in human-modified landscapes
Summary
Increasing human populations lead to massive alteration and fragmentation of native vegetation that remains in patches within the landscape (cp. to Saunders et al 1991). In Central and South America, fragmentation of the remaining rainforests continues by conversion to agricultural land and wood removal (FAO 2011). This degradation of forest endangers all components of these ecosystems. This contribution focuses on one of these biotic components, vascular epiphytes, which—by definition— depend on trees. They account for almost 10 % of all vascular plants (Zotz 2013), but locally, in humid
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