School of Environment, Environmental Futures Research Institute, Griffith University Brisbane, QLD, Australia.
School of Environment, Environmental Futures Research Institute, Griffith University Brisbane, QLD, Australia ; Tablelands Community Revegetation Unit Malanda, QLD, Australia.
Front Plant Sci. 2014 May 20;5:200. doi: 10.3389/fpls.2014.00200. eCollection 2014.
Combating the legacy of deforestation on tropical biodiversity requires the conversion to forest of large areas of established pasture, where barriers to native plant regeneration include competition with pasture grasses and poor propagule supply (seed availability). In addition, initial woody plants that colonise pasture are often invasive, non-native species whose ecological roles and management in the context of forest regeneration are contested. In a restoration experiment at two 0.64 ha sites we quantified the response of native woody vegetation recruitment to (1) release from competition with introduced pasture grasses, and (2) local facilitation of frugivore-assisted seed dispersal provided by scattered woody plants and artificial bird perches. Herbicide pasture grass suppression during 20 months caused a significant but modest increase in density of native woody seedlings, together with abundant co-recruitment of the prominent non-native pioneer wild tobacco (Solanum mauritianum). Recruitment of native species was further enhanced by local structure in herbicide-treated areas, being consistently greater under live trees and dead non-native shrubs (herbicide-treated) than in open areas, and intermediate under bird perches. Native seedling recruitment comprised 28 species across 0.25 ha sampled but was dominated by two rainforest pioneers (Homalanthus novoguineensis, Polyscias murrayi). These early results are consistent with the expected increase in woody vegetation recruitment in response to release from competitive and dispersive barriers to rainforest regeneration. The findings highlight the need for a pragmatic consideration of the ecological roles of woody weeds and the potential roles of "new forests" more broadly in accelerating succession of humid tropical forest across large areas of retired agricultural land.
克服热带生物多样性因森林砍伐而造成的遗留问题需要将大面积已建成的牧场转化为森林,而原生植物再生的障碍包括与牧场草种的竞争和繁殖体供应不足(种子可获得性)。此外,在牧场上定殖的最初木本植物通常是入侵性的非本地物种,其在森林再生背景下的生态作用和管理存在争议。在两个 0.64 公顷的实验点进行的恢复实验中,我们量化了本地木本植被的繁殖对以下因素的响应:(1)与引入的牧场草种竞争的释放,以及(2)由散布的木本植物和人工鸟类栖息提供的果实传播食腐动物的局部促进作用。在 20 个月的时间里,使用除草剂控制牧场草种的生长导致本地木本幼苗的密度显著增加,但数量适中,同时大量共同繁殖突出的非本地先锋野生烟草(Solanum mauritianum)。在除草剂处理区,通过局部结构进一步促进了本地物种的繁殖,活树和死的非本地灌木(除草剂处理)下的繁殖始终大于空旷区域,而在鸟类栖息下则处于中间水平。在 0.25 公顷的样地中,本地幼苗的繁殖包括 28 个物种,但主要由两种雨林先锋物种(Homalanthus novoguineensis,Polyscias murrayi)组成。这些早期结果与预期的木本植被繁殖增加一致,这是对雨林再生的竞争和扩散障碍释放的响应。这些发现强调了需要从实际角度考虑木本杂草的生态作用以及“新森林”更广泛的潜在作用,以加速大面积休耕农田上湿润热带森林的演替。
