Veldman Joseph W
Department of Ecology, Evolution, and Organismal Biology, Iowa State University, Ames, IA 50011, USA Instituto Boliviano de Investigación Forestal-UAGRM, Km 9 carr. norte, el Vallecito, Casilla 6204, Santa Cruz, Bolivia
Philos Trans R Soc Lond B Biol Sci. 2016 Sep 19;371(1703). doi: 10.1098/rstb.2015.0306.
Ancient tropical grassy biomes are often misrecognized as severely degraded forests. I trace this confusion to several factors, with roots in the nineteenth century, including misinterpretations of the nature of fire in savannahs, attempts to reconcile savannah ecology with Clementsian succession, use of physiognomic (structural) definitions of savannah and development of tropical degradation frameworks focused solely on forests. Towards clarity, I present two models that conceptualize the drivers of ecosystem degradation as operating in both savannahs and forests. These models highlight how human-induced environmental changes create ecosystems with superficially similar physiognomies but radically different conservation values. Given the limitation of physiognomy to differentiate savannahs from severely degraded forests, I present an alternative approach based on floristic composition. Data from eastern lowland Bolivia show that old-growth savannahs can be reliably distinguished by eight grass species and that species identity influences ecosystem flammability. I recommend that scientists incorporate savannahs in tropical degradation frameworks alongside forests, and that savannah be qualified as old-growth savannah in reference to ancient grassy biomes or derived savannah in reference to deforestation. These conceptual advances will require attention not only to tree cover, but also to savannah herbaceous plant species and their ecologies.This article is part of the themed issue 'Tropical grassy biomes: linking ecology, human use and conservation'.
古代热带草原生物群落常常被误认作严重退化的森林。我将这种混淆追溯到几个因素,其根源可追溯到19世纪,包括对稀树草原火灾本质的误解、试图将稀树草原生态与克莱门茨式演替相协调、对稀树草原的外貌(结构)定义的使用以及仅关注森林的热带退化框架的发展。为了厘清这一问题,我提出了两个模型,将生态系统退化的驱动因素概念化为在稀树草原和森林中都起作用。这些模型突出了人类引起的环境变化如何创造出外貌表面相似但保护价值截然不同的生态系统。鉴于外貌特征在区分稀树草原和严重退化森林方面的局限性,我提出了一种基于植物区系组成的替代方法。来自玻利维亚东部低地的数据表明,原始稀树草原可以通过八种草本植物可靠地加以区分,而且物种特性会影响生态系统的易燃性。我建议科学家们在热带退化框架中将稀树草原与森林一同纳入考量,并且将稀树草原定义为参照古代草原生物群落的原始稀树草原或参照森林砍伐的衍生稀树草原。这些概念上的进展不仅需要关注树木覆盖情况,还需要关注稀树草原草本植物物种及其生态。本文是主题为“热带草原生物群落:连接生态、人类利用与保护”的特刊的一部分。