Department of Plant and Microbial Biology, University of Minnesota, St. Paul, MN 55108, USA.
Lyon Arboretum and School of Life Sciences, University of Hawaii, Honolulu, HI 96822, USA.
Philos Trans R Soc Lond B Biol Sci. 2023 Jan 2;378(1867):20210067. doi: 10.1098/rstb.2021.0067. Epub 2022 Nov 14.
Reforestation is one of our most promising natural climate solutions, and one that addresses the looming biodiversity crisis. Tree planting can catalyse forest community reassembly in degraded landscapes where natural regeneration is slow, however, tree survival rates vary remarkably across projects. Building a trait-based framework for tree survival could streamline species selection in a way that generalizes across ecosystems, thereby increasing the effectiveness of the global restoration movement. We investigated how traits mediated seedling survival in a tropical dry forest restoration, and how traits were coordinated across plant structures. We examined growth and survival of 14 species for 2 years and measured six below-ground and 22 above-ground traits. Species-level survival ranged widely from 7.8% to 90.1%, and a model including growth rate, below-ground traits and their interaction explained more than 73% of this variation. A strong interaction between below-ground traits and growth rate indicated that selecting species with fast growth rates can promote establishment, but this effect was most apparent for species that invest in thick fine roots and deep root structures. Overall, results emphasize the prominent role of below-ground traits in determining early restoration outcomes, and highlight little above- and below-ground trait coordination, providing a path forward for tropical dry forest restoration efforts. This article is part of the theme issue 'Understanding forest landscape restoration: reinforcing scientific foundations for the UN Decade on Ecosystem Restoration'.
造林是最有前途的自然气候解决方案之一,也能解决迫在眉睫的生物多样性危机。植树造林可以促进退化景观中的森林群落重组,而自然再生缓慢,但树木存活率在不同项目中差异显著。建立基于特征的树木存活率框架,可以在跨生态系统的基础上简化物种选择,从而提高全球恢复运动的效果。我们研究了特征如何在热带干旱森林恢复中调节幼苗存活率,以及特征如何在植物结构中协调。我们在 2 年内对 14 个物种的生长和存活率进行了研究,并测量了 6 个地下和 22 个地上特征。物种水平的存活率范围很广,从 7.8%到 90.1%,一个包括生长速度、地下特征及其相互作用的模型解释了超过 73%的这种变化。地下特征与生长速度之间的强烈相互作用表明,选择生长速度快的物种可以促进建立,但对于投资于粗细根和深根结构的物种,这种效果最为明显。总的来说,研究结果强调了地下特征在决定早期恢复结果方面的突出作用,并突出了地上和地下特征协调很少的情况,为热带干旱森林恢复工作提供了前进的道路。本文是主题为“理解森林景观恢复:加强生态系统恢复联合国十年的科学基础”的一部分。