摘要 : Understanding the early establishment requirements and performance of tropical tree seedlings is essential to ensuring the success of restoration plantings. This study was designed to characterize growth and light requirements of ... 展开 Understanding the early establishment requirements and performance of tropical tree seedlings is essential to ensuring the success of restoration plantings. This study was designed to characterize growth and light requirements of six common neotropical tree species <i>Pseudosamanea guachapele</i> (Fabaceae), <i>Tabebuia impetiginosa</i> (Bignoniaceae), <i>Ceiba pentandra</i> (Bombacaceae), <i>Pachira quinata</i> (Bombacaceae), <i>Dalbergia retusa</i> (Fabaceae), and <i>Tabebuia rosea</i> (Bignoniaceae) in an abandoned pasture under contrasting light environments and grass competition. Field studies were conducted in the pastures of the Santa Ana Conservation Center in Costa Rica. Two differing grass competition sites were selected, one dominated by a tall grass, <i>Hyparrhenia rufa</i> and another dominated by a short grass, <i>Cynodon mlenfluensis</i>. Three light treatments were created (2, 37 and 100% light) using either neutral shade cloth (2 and 37%) or no shade cloth (100%). Growth characteristics and biomass partitioning of the seedlings were measured. Species differed in their relative growth rates (RGRs). The light x species interaction was significant at both sites. While all species had similar performance under 100% light on both short grass and tall grass sites, species growth differences were evident under 37 and 2% light levels. For example, at the short grass site, <i>T. rosea</i> had higher RGR than <i>D. retusa</i> and <i>P. quinata</i> under 2% light whereas both <i>Tabebuia</i> species performed better than other species at the tall grass site. The general trend was to increase root mass ratio and decrease leaf mass ratio with increasing levels of light. As an initial step for restoring abandoned pasture lands we recommend using all these species in direct and moderate light conditions. Incorporating all species will create a more heterogeneous environment. Choosing light demanding species that can tolerate grass competition may help ensure success in the early stage of restoration.Digital Object Identifier http://dx.doi.org/10.1016/j.foreco.2010.10.005 收起