Understanding the spatiotemporal dynamics of understorey biomass in semi-arid woodlands of south-eastern Australia

IF 1.2 4区 环境科学与生态学 Q4 ECOLOGY Rangeland Journal Pub Date : 2022-01-01 DOI:10.1071/rj21060
L. Riquelme, Libby Rumpff, D. Duncan, P. Vesk
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Abstract

When managing grazing pressure for conservation, understanding forage dynamics is essential. In south-eastern Australia, ongoing grazing is inhibiting regeneration in several semi-arid woodland communities. Western grey kangaroos ( Macropus fuliginosus (Desmarest, 1817)) have been identified as a key component of total grazing pressure. They are thought to switch from grass to lower-quality browse, including tree seedlings, when grass biomass falls below 400 kg ha −1 . One static threshold may not adequately capture the spatial and temporal hazard associated with kangaroo grazing, and this study aimed to explore how grassy biomass varies across a case-study landscape. Understorey biomass and species composition data were collected in the field on seven occasions between December 2016 and May 2019. We used Generalised Linear Mixed Models (GLMMs) to describe the influence of environmental and herbivory variables on total (live and dead) understorey, live understorey, and grass (live and dead) biomass. Canopy cover showed the strongest influence on understorey biomass, with more biomass found in open sites than in woodland. Understorey biomass levels were lowest in summer and autumn. Grass biomass, in particular, fell below the 400 kg ha −1 forage-switch threshold in wooded areas during this time. We anticipate that an increased understanding of understorey biomass dynamics will inform managers as to when and where to focus management efforts to promote regeneration and sustained recovery of these semi-arid woodlands. Results of this study suggest that conducting management efforts before the summer/autumn decline in understorey biomass, particularly in woodlands, is critical in reducing the browsing risk to seedlings.
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了解澳大利亚东南部半干旱林地林下生物量的时空动态
当管理放牧压力保护时,了解牧草动态是必不可少的。在澳大利亚东南部,持续的放牧正在抑制几个半干旱林地群落的再生。西部灰袋鼠(Macropus fuliginosus (Desmarest, 1817))已被确定为总放牧压力的关键组成部分。人们认为,当草的生物量低于400 kg ha - 1时,它们会从草转向低质量的食物,包括树苗。一个静态阈值可能无法充分捕捉与袋鼠放牧相关的空间和时间危害,本研究旨在探索不同案例研究景观中草地生物量的变化。2016年12月至2019年5月期间,在野外收集了7次林下生物量和物种组成数据。我们使用广义线性混合模型(glmm)来描述环境和草食变量对总(活的和死的)林下植被、活的林下植被和草(活的和死的)生物量的影响。林冠覆盖度对林下生物量的影响最大,开阔地生物量大于林地生物量。夏季和秋季林下生物量最低。特别是在这段时间内,有林地区的草生物量低于400 kg ha - 1的牧草转换阈值。我们预计,对林下生物量动态的进一步了解将为管理者提供信息,使他们知道何时何地将管理工作重点放在促进这些半干旱林地的再生和持续恢复上。本研究结果表明,在夏季/秋季林下生物量下降之前进行管理工作,特别是在林地,对于减少幼苗的浏览风险至关重要。
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来源期刊
Rangeland Journal
Rangeland Journal 环境科学-生态学
CiteScore
2.90
自引率
8.30%
发文量
14
审稿时长
>36 weeks
期刊介绍: The Rangeland Journal publishes original work that makes a significant contribution to understanding the biophysical, social, cultural, economic, and policy influences affecting rangeland use and management throughout the world. Rangelands are defined broadly and include all those environments where natural ecological processes predominate, and where values and benefits are based primarily on natural resources. Articles may present the results of original research, contributions to theory or new conclusions reached from the review of a topic. Their structure need not conform to that of standard scientific articles but writing style must be clear and concise. All material presented must be well documented, critically analysed and objectively presented. All papers are peer-reviewed. The Rangeland Journal is published on behalf of the Australian Rangeland Society.
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