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Using soil amendments and plant functional traits to select native tropical dry forest species for the restoration of degraded Vertisols

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dc.contributor.author Werden, Leland K.
dc.contributor.author Alvarado-J., Pedro
dc.contributor.author Zarges, Sebastian
dc.contributor.author Calderón-M., Erick
dc.contributor.author Schilling, Erik M.
dc.contributor.author Gutiérrez-L., Milena
dc.contributor.author Powers, Jennifer S.
dc.date.accessioned 2018-02-28T16:36:59Z
dc.date.available 2018-02-28T16:36:59Z
dc.date.issued 2017-04-04
dc.identifier.citation Werden LK, Alvarado J. P, Zarges S, et al. Using soil amendments and plant functional traits to select native tropical dry forest species for the restoration of degraded Vertisols. J Appl Ecol. 2017;00:1–10. https://doi. org/10.1111/1365-2664.12998 es_CR
dc.identifier.uri https://doi. org/10.1111/1365-2664.12998
dc.identifier.uri http://hdl.handle.net/11606/458
dc.description.abstract 1. Tropical dry forests (TDFs) are critically endangered, and their restoration is understudied. Large-scale passive restoration efforts in north-west (NW) Costa Rica have catalysed TDF regeneration but are not effective on degraded Vertisols, where active restoration is necessary due to high content of shrink–swell clays that impede regeneration following degradation. 2. We established a large-scale restoration experiment in degraded former pastures in NW Costa Rica to determine (1) the restoration potential of native TDF tree species on Vertisols, (2) if plant functional traits elucidate mechanisms behind interspecific variability in species performance and (3) if affordable and readily available soil amendments increase seedling survivorship and growth. We planted 1,710 seedlings of 32 native species coupled with five amendments aimed at ameliorating root-zone microclimatic conditions: sand, rice hulls, rice hull ash, hydrogel and unamended controls. For each species, we quantified a suite of resource-acquisition and ecophysiological functional traits, and monitored survival and growth seasonally over 2 years. 3. Interspecific survivorship after 2 years ranged widely (0%–92.5%). Functional traits including wood density, photosynthetic parameters and upregulation of integrated water-use efficiency, explained interspecific variation in survivorship and growth at distinct ontogenetic stages. Easily measured leaf traits, however, were not good predictors of restoration potential. 4. Hydrogel and sand amendments increased initial seedling survival, but after 2 years no differences among treatments were found. 5. Synthesis and applications. We have shown it is possible, albeit challenging, to restore tropical dry forest (TDF) on degraded Vertisols. Our results support the use of functional trait-based screenings to select tree species for restoration projects as tree species with high survivorship and growth in this stressful environment have overlapping ecophysiological functional traits. Furthermore, practitioners should consider water-use and phytosynthetic traits when designing initial species mixes for TDF restorations. es_CR
dc.description.sponsorship NSF, Grant/Award Number: GRFP 11-582 and CAREER DEB-1053237; GCA Restoration Fellowship; UMN Carolyn Crosby and Dayton grants es_CR
dc.language.iso en_US es_CR
dc.publisher Journal of Applied Ecology es_CR
dc.subject active restoration es_CR
dc.subject Costa Rica es_CR
dc.subject native species es_CR
dc.subject plant functional traits es_CR
dc.subject seedling establishment es_CR
dc.subject soil amendments es_CR
dc.subject tropical dry forest es_CR
dc.subject Vertisols es_CR
dc.subject water-use efficiency es_CR
dc.title Using soil amendments and plant functional traits to select native tropical dry forest species for the restoration of degraded Vertisols es_CR
dc.type Article es_CR


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