GPS tracking reveals koalas Phascolarctos cinereus use mosaics of different forest ages after environmentally regulated timber harvesting

IF 1.6 4区环境科学与生态学 Q3 ECOLOGY

Austral Ecology Pub Date : 2024-04-11 DOI:10.1111/aec.13518

Bradley Law, Leroy Gonsalves, Chris Slade, Traecey Brassil, Cheyne Flanagan

{"title":"GPS tracking reveals koalas Phascolarctos cinereus use mosaics of different forest ages after environmentally regulated timber harvesting","authors":"Bradley Law, Leroy Gonsalves, Chris Slade, Traecey Brassil, Cheyne Flanagan","doi":"10.1111/aec.13518","DOIUrl":null,"url":null,"abstract":"<p>An accurate picture of an animal's home range is fundamental for quantifying habitat quality and response to disturbance. When combined with remote sensing of vegetation attributes, there is potential to assess habitat selection at high resolution. We used a high-quality GPS-collaring data set (> 12 500 fixes) from 10 koalas <i>Phascolarctos cinereus</i> and a canopy height model derived from LiDAR in multiple-use forests harvested for timber 5–10 years previously. Our aim was to assess how individual koalas use the forest mosaic created by timber harvesting by quantifying home ranges and habitat selection of different forest age/height classes created by past harvesting. We found that koalas maintained a stable home range over the average of 7 months of tracking. On average, there was 95% overlap for individuals among seasons, illustrating high site fidelity in the regenerating forest. Also, there were no apparent shifts during the intense drought of spring 2019. Male home ranges (64 ha) were three times the size of females (21 ha). Core areas were considerably smaller, ranging from 15 (male) to 6 ha (female). Three forest age/height classes were defined from LiDAR: (i) harvest – regeneration <14 m, (ii) harvest – retained trees ≥14 m and (iii) harvest – exclusion trees ≥14 m (zones excluded from harvesting for environmental protection). Home ranges covered the mosaic of forest classes and mixed models revealed no selection of forest class based on use versus availability. High site fidelity with no clear selection for forest age/height class (i.e. harvested and non-harvested patches) confirms that resource quality in the home range remained sufficient for breeding koalas in the post-harvest landscape. Ongoing monitoring of koalas is required to ensure that environmental protections are effective in maintaining koala populations in the face of additional disturbances from fire and climate change.</p>","PeriodicalId":8663,"journal":{"name":"Austral Ecology","volume":"49 4","pages":""},"PeriodicalIF":1.6000,"publicationDate":"2024-04-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1111/aec.13518","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Austral Ecology","FirstCategoryId":"93","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1111/aec.13518","RegionNum":4,"RegionCategory":"环境科学与生态学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"ECOLOGY","Score":null,"Total":0}

引用次数: 0

Abstract

An accurate picture of an animal's home range is fundamental for quantifying habitat quality and response to disturbance. When combined with remote sensing of vegetation attributes, there is potential to assess habitat selection at high resolution. We used a high-quality GPS-collaring data set (> 12 500 fixes) from 10 koalas Phascolarctos cinereus and a canopy height model derived from LiDAR in multiple-use forests harvested for timber 5–10 years previously. Our aim was to assess how individual koalas use the forest mosaic created by timber harvesting by quantifying home ranges and habitat selection of different forest age/height classes created by past harvesting. We found that koalas maintained a stable home range over the average of 7 months of tracking. On average, there was 95% overlap for individuals among seasons, illustrating high site fidelity in the regenerating forest. Also, there were no apparent shifts during the intense drought of spring 2019. Male home ranges (64 ha) were three times the size of females (21 ha). Core areas were considerably smaller, ranging from 15 (male) to 6 ha (female). Three forest age/height classes were defined from LiDAR: (i) harvest – regeneration <14 m, (ii) harvest – retained trees ≥14 m and (iii) harvest – exclusion trees ≥14 m (zones excluded from harvesting for environmental protection). Home ranges covered the mosaic of forest classes and mixed models revealed no selection of forest class based on use versus availability. High site fidelity with no clear selection for forest age/height class (i.e. harvested and non-harvested patches) confirms that resource quality in the home range remained sufficient for breeding koalas in the post-harvest landscape. Ongoing monitoring of koalas is required to ensure that environmental protections are effective in maintaining koala populations in the face of additional disturbances from fire and climate change.

Abstract Image

查看原文本刊更多论文

GPS 跟踪显示考拉在环境监管的木材采伐后使用不同林龄的森林镶嵌图案

准确了解动物的家园范围对于量化栖息地质量和对干扰的反应至关重要。如果与植被属性遥感相结合，就有可能以高分辨率评估栖息地选择。我们使用了来自 10 只考拉（Phascolarctos cinereus）的高质量 GPS 跟踪数据集（> 12 500 个固定点），以及从 5-10 年前采伐木材的多用途森林中的激光雷达得出的树冠高度模型。我们的目的是通过量化考拉的家园范围和对过去采伐造成的不同森林年龄/高度等级的栖息地选择，评估考拉个体是如何利用木材采伐造成的森林马赛克的。我们发现，考拉在平均 7 个月的追踪过程中保持了稳定的家园范围。平均而言，考拉个体在不同季节的重叠率为 95%，这说明它们对再生林中的栖息地非常忠诚。此外，在 2019 年春季的严重干旱期间也没有出现明显的转移。雄性个体的家园范围（64 公顷）是雌性个体（21 公顷）的三倍。核心区域要小得多，从 15 公顷（雄性）到 6 公顷（雌性）不等。根据激光雷达确定了三个森林年龄/高度等级：(i) 采伐-再生<14米，(ii) 采伐-保留树木≥14米，(iii) 采伐-排除树木≥14米（因环境保护而排除采伐的区域）。家园范围覆盖了森林等级的混合区，混合模型显示，森林等级的使用与可用性之间没有选择关系。在对森林年龄/高度等级（即采伐区和非采伐区）没有明确选择的情况下，考拉对地点的高度忠诚证实了在采伐后的景观中，家园范围内的资源质量仍然足以满足考拉的繁殖需要。需要对考拉进行持续监测，以确保在火灾和气候变化造成更多干扰的情况下，环境保护措施能够有效维持考拉的数量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Austral Ecology 环境科学-生态学

CiteScore

2.90

自引率

6.70%

发文量

117

审稿时长

12-24 weeks

期刊介绍： Austral Ecology is the premier journal for basic and applied ecology in the Southern Hemisphere. As the official Journal of The Ecological Society of Australia (ESA), Austral Ecology addresses the commonality between ecosystems in Australia and many parts of southern Africa, South America, New Zealand and Oceania. For example many species in the unique biotas of these regions share common Gondwana ancestors. ESA''s aim is to publish innovative research to encourage the sharing of information and experiences that enrich the understanding of the ecology of the Southern Hemisphere. Austral Ecology involves an editorial board with representatives from Australia, South Africa, New Zealand, Brazil and Argentina. These representatives provide expert opinions, access to qualified reviewers and act as a focus for attracting a wide range of contributions from countries across the region. Austral Ecology publishes original papers describing experimental, observational or theoretical studies on terrestrial, marine or freshwater systems, which are considered without taxonomic bias. Special thematic issues are published regularly, including symposia on the ecology of estuaries and soft sediment habitats, freshwater systems and coral reef fish.