Legge Sarah, Garnett Stephen, Maute Kim, Heathcote Joanne, Murphy Steve, Woinarski John C Z, Astheimer Lee
Australian Wildlife Conservancy, PO Box 8070, Subiaco East, WA, 6008, Australia.
Research Institute for the Environment and Livelihoods and Threatened Species Recovery Hub of the National Environmental Science Programme, Charles Darwin University, NT, 0909, Australia.
PLoS One. 2015 Oct 7;10(10):e0137997. doi: 10.1371/journal.pone.0137997. eCollection 2015.
Fire is an integral part of savanna ecology and changes in fire patterns are linked to biodiversity loss in savannas worldwide. In Australia, changed fire regimes are implicated in the contemporary declines of small mammals, riparian species, obligate-seeding plants and grass seed-eating birds. Translating this knowledge into management to recover threatened species has proved elusive. We report here on a landscape-scale experiment carried out by the Australian Wildlife Conservancy (AWC) on Mornington Wildlife Sanctuary in northwest Australia. The experiment was designed to understand the response of a key savanna bird guild to fire, and to use that information to manage fire with the aim of recovering a threatened species population. We compared condition indices among three seed-eating bird species--one endangered (Gouldian finch) and two non-threatened (long-tailed finch and double-barred finch)--from two large areas (> 2,830 km2) with initial contrasting fire regimes ('extreme': frequent, extensive, intense fire; versus 'benign': less frequent, smaller, lower intensity fires). Populations of all three species living with the extreme fire regime had condition indices that differed from their counterparts living with the benign fire regime, including higher haematocrit levels in some seasons (suggesting higher levels of activity required to find food), different seasonal haematocrit profiles, higher fat scores in the early wet season (suggesting greater food uncertainty), and then lower muscle scores later in the wet season (suggesting prolonged food deprivation). Gouldian finches also showed seasonally increasing stress hormone concentrations with the extreme fire regime. Cumulatively, these patterns indicated greater nutritional stress over many months for seed-eating birds exposed to extreme fire regimes. We tested these relationships by monitoring finch condition over the following years, as AWC implemented fire management to produce the 'benign' fire regime throughout the property. The condition indices of finch populations originally living with the extreme fire regime shifted to resemble those of their counterparts living with the benign fire regime. This research supports the hypothesis that fire regimes affect food resources for savanna seed-eating birds, with this impact mediated through a range of grass species utilised by the birds over different seasons, and that fire management can effectively moderate that impact. This work provides a rare example of applied research supporting the recovery of a population of a threatened species.
火灾是稀树草原生态的一个不可或缺的部分,火灾模式的变化与全球稀树草原生物多样性丧失有关。在澳大利亚,火灾状况的改变与小型哺乳动物、河岸物种、专性种子植物和食草籽鸟类的当代数量减少有关。将这一知识转化为恢复受威胁物种的管理措施,事实证明并非易事。我们在此报告澳大利亚野生动物保护协会(AWC)在澳大利亚西北部的莫宁顿野生动物保护区进行的一项景观尺度实验。该实验旨在了解稀树草原关键鸟类群落对火灾的反应,并利用这些信息来管理火灾,以期恢复受威胁物种的种群数量。我们比较了来自两个大面积(>2830平方公里)、初始火灾状况形成对比(“极端”:频繁、大面积、高强度火灾;与“良性”:火灾频率较低、范围较小、强度较低)的地区的三种食籽鸟类的身体状况指数,其中一种是濒危物种(胡锦鸟),另外两种是非受威胁物种(长尾草雀和双斑草雀)。生活在极端火灾状况地区的所有这三个物种的身体状况指数与生活在良性火灾状况地区的同类物种不同,包括在某些季节血细胞比容水平较高(表明为寻找食物需要更高的活动水平)、不同的季节性血细胞比容曲线、在雨季初期脂肪得分较高(表明食物不确定性更大),以及在雨季后期肌肉得分较低(表明长期食物匮乏)。胡锦鸟在极端火灾状况下还表现出应激激素浓度随季节增加。总体而言,这些模式表明,在许多个月里,暴露于极端火灾状况下的食籽鸟类面临更大的营养压力。随着AWC实施火灾管理,使整个保护区形成“良性”火灾状况,我们在接下来的几年里通过监测雀类的身体状况来检验这些关系。原本生活在极端火灾状况地区的雀类种群的身体状况指数转变为与生活在良性火灾状况地区的同类物种相似。这项研究支持了这样一种假设,即火灾状况会影响稀树草原食籽鸟类的食物资源,这种影响是通过鸟类在不同季节利用的一系列草种来介导的,而且火灾管理可以有效地减轻这种影响。这项工作为支持受威胁物种种群恢复的应用研究提供了一个难得的范例。
