新南威尔士州北海岸夜帽山脉硬叶林-雨林植被群中植物群的火灾反应

IF 0.9 4区 生物学 Q4 PLANT SCIENCES
Andrew Benwell
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引用次数: 0

摘要

背景在新南威尔士州北海岸夜帽山脉的硬叶-雨林混合生态系统中研究了物种对火灾的反应。目的研究湿硬叶林(WSRf)、邻近的疏林(OF)和岩石露头灌木林(RO)的功能和植物地理组成部分的幼苗新陈代谢率和重新萌发率。方法在 WSRf、OF 和 RO 的 45 个茎地块和 225 个幼苗子地块中记录物种的重新萌发和幼苗的新陈代谢特征(火灾反应)。对物种的火灾反应进行了分类,编制了群落火灾反应谱,并根据主要火灾反应、生长形式、栖息地以及广泛的功能和植物地理物种分组,研究了 WSRf 的幼苗更新率和重新萌发率。物种大小-再生等级分布被用来分析WSRf植物区系中大部分中生-冈瓦纳植物区系中重新萌发物种的种群结构、火灾影响、再生和招募情况。主要结果WSRf、OF 和 RO 生境的火灾反应谱明显不同。在WSRf,原产于冈瓦纳的中生植物再植种类所占比例很高,其幼苗更新率为零或很低;原产于印度-马来亚的中生植物播种者以及硬叶播种者和再植者也占OF和RO植物区系的大部分。在 WSRf 植物区系中,移栽植物占 75%,OF 占 50%,路面灌木林占 10%。连续的大小等级分布表明,WSRf 中的大多数中叶再生苗在火灾事件之间都有新的生长。较低的幼苗总密度似乎反映了固有的物种特征和火灾对树冠的较少干扰。构成 WSRf 未燃烧树冠的大型硬叶树种的幼苗更新率非常低。结论WSRf中不同的生境(WSRf、OF和RO)以及功能和植物地理群落显示出独特的重新萌发和幼苗恢复火灾响应模式。维持物种种群和群落组成的物种火灾响应受火灾机制、生境变量和固有物种特征的制约。影响WSRf独特的火灾反应谱似乎是这一广泛植被类型中 "新 "和 "旧 "植物区系重叠的直接结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fire responses of flora in a sclerophyll–rainforest vegetation complex in the Nightcap Range, North Coast, New South Wales
Context

Species fire responses were investigated in a mixed sclerophyll–rainforest ecosystem in the Nightcap Range, North Coast, New South Wales.

Aims

To examine rates of seedling recruitment and resprouting in functional and phytogeographic components of wet sclerophyll forest (WSRf), and adjacent open forest (OF) and rock outcrop shrubland (RO).

Methods

Species resprouting and seedling recruitment traits (fire responses) were recorded in 45 stem plots and 225 seedling subplots in WSRf, OF and RO. Species fire responses were classified, community fire-response spectra compiled and rates of seedling recruitment and resprouting in WSRf examined in relation to primary fire response, growth-form, habitat and broad functional and phytogeographic species groupings. Species size-regenerative class distribution was used to analyse population structure, fire impact, regeneration and recruitment in resprouter species that comprised most of the mesic-Gondwanan element of the WSRf flora.

Key results

WSRf, OF and RO habitats had distinctively different fire-response spectra. In WSRf, there was a high proportion of mesophyll resprouter species of Gondwanan origin with nil or very low seedling recruitment, a distinct component of mesophyll seeders of Indo-Malayan origin, as well as sclerophyll seeders and resprouters that also comprised most of the OF and RO floras. Resprouters comprised 75% of the WSRf flora, 50% OF and 10% pavement shrubland. Continuous size-class distributions indicated recruitment between fire events in the majority of mesophyll resprouters in WSRf. Lower total seedling density appeared to reflect inherent species traits and less canopy disturbance by fire. Large sclerophyll species forming the unburnt canopy of WSRf had very low seedling recruitment.

Conclusions

Different habitats (WSRf, OF and RO) and functional and phytogeographic clades in WSRf display distinctive patterns of resprouting and seedling-recruitment fire response. Fire responses of species that maintain species population and community composition are governed by fire regime, habitat variables and inherent species traits.

Implications

The distinctive fire-response spectrum of WSRf appears to be a direct consequence of the overlap of ‘new’ and ‘old’ floras in this broad vegetation type.

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来源期刊
Australian Journal of Botany
Australian Journal of Botany 生物-植物科学
CiteScore
2.30
自引率
18.20%
发文量
26
审稿时长
6-12 weeks
期刊介绍: Australian Journal of Botany is an international journal for publication of original research in plant science. We seek papers of broad interest with relevance to Southern Hemisphere ecosystems. Our scope encompasses all approaches to understanding plant biology. Australian Journal of Botany is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
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