疫霉菌枯死对维多利亚州奥特维斯东部主要荒地物种 Xanthorrhoea australis(Asphodelaceae)(澳洲禾本科植物)和植物组成的影响

IF 0.9 4区 生物学 Q4 PLANT SCIENCES Australian Journal of Botany Pub Date : 2024-02-26 DOI:10.1071/bt23076
B. A. Wilson, S. P. Casey, M. J. Garkaklis, C. Learmonth, T. Wevill
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引用次数: 0

摘要

背景植物病原体 Phytophthora cinnamomi 会导致易感植被的严重衰退,包括植物物种、植被结构和动物数量的丧失。草木(Xanthorrhoea spp.)是为脊椎动物和无脊椎动物提供最佳栖息地的关键物种,极易受到病原体的影响。虽然奥特威山脉的影响已在特定地点进行了评估,但对整个地貌中澳洲黄葛树(Xanthorrhoea australis)的损失程度了解较少。因此,我们的目标是评估三个热带雨林地的影响,并确定澳洲鹅掌楸和易受影响物种的损失程度。方法在处理(未受侵染、受侵染、受侵染后植被)的四分格中记录 X. australis 的植物组成、物种覆盖率或丰度以及基部面积。分析包括植物学(PRIMER v7)、显著效应(ANOSIM)、物种对相似性/差异性的贡献(SIMPER)。物种丰富度和易感病物种覆盖率采用双向交叉方差分析,以检测地点、处理和交互作用的影响。主要结果未受虫害植被的物种组成与受虫害植被和虫害后植被有显著差异,未受虫害地区的易感物种更为丰富。虫害后植被中易感物种的覆盖率最低。未受虫害植被中 X. australis 的平均覆盖率(43%)是受虫害地区(4.3%)的 10 倍,而在虫害后植被中则极低(0.9%)。结论易感物种密度下降并灭绝,X. australis 的消失导致植被结构发生重大变化。影响这些结果对温暖的林地群落和依赖性动物群有严重影响。限制 P. cinnamomi 的传播和保护草木对它们的安全至关重要。
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Impact of Phytophthora dieback on a key heathland species Xanthorrhoea australis (Asphodelaceae) (austral grasstree) and floristic composition in the eastern Otways, Victoria
Context

The plant pathogen Phytophthora cinnamomi causes severe declines in susceptible vegetation, including loss of plant species, vegetation structure and fauna abundance. Grasstrees (Xanthorrhoea spp.) are keystone species that provide optimal habitat for vertebrates and invertebrates and are highly susceptible to the pathogen. Although effects in the Otway Ranges have been assessed at specific sites, there is less knowledge across the landscape on the extent of loss of Xanthorrhoea australis (austral grasstree).

Aims

The aims were thus to assess impacts at three Heathy Woodland sites and to determine the magnitude of loss of X. australis and susceptible species losses.

Methods

Floristic composition, species cover or abundance, and basal area of X. australis were recorded in quadrats within treatments (uninfested, infested, post-infested vegetation). Analyses included floristics (PRIMER v7), significant effects (ANOSIM), species contribution to similarity/dissimilarity (SIMPER). Species richness and susceptible species cover were analysed using two-way crossed ANOVAs to detect the influence of site, treatment, and interactions.

Key results

Species composition of uninfested vegetation was significantly different to infested and post-infested vegetation, with susceptible species more abundant in uninfested areas. Post-infested vegetation had the lowest percentage cover of susceptible species. The mean percentage cover of X. australis in uninfested vegetation (43%) was 10-fold greater than in infested areas (4.3%) and extremely low in post-infested vegetation (0.9%).

Conclusions

Susceptible species were subject to density declines and extirpation, and the loss of X. australis resulted in major structural vegetation changes.

Implications

These results have severe implications for heathy woodland communities and reliant fauna. Limiting the spread of P. cinnamomi and protecting grasstrees is critical for their security.

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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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