Native shrub densities predict burrow co-occurrence patterns in Central California Drylands.

IF 2.3 Q2 ECOLOGY
Ethan Owen, Christopher J Lortie, Mario Zuliani
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Abstract

Ecological resource availability is crucial for the persistence and survival of local desert animal communities. Dryland resources such as shrubs and burrows positively benefit animal species by mitigating harsh abiotic factors and providing habitat. Understanding the role of native shrubs, many of which serve as foundation species within desert regions, as well as the function of underground burrows as resources, provides insights into habitat utilization. In this study, we seek to better understand the co-occurrence of these two resources as a first step in quantifying key patterns locally and regionally in drylands. We tested whether the presence of burrows increased with the density of foundational shrubs near the burrows at two scales-within a 5 m radius of every burrow recorded and at the site level-defined as discrete ecological areas. We performed fieldwork across 31 sites within the arid and semiarid regions of Central California. We used a combination of burrow field surveys and satellite imagery to document both vertebrate animal burrow frequencies and shrub densities. Additionally, the accuracy of the shrub data was verified through ground truthing. Both fine-scale and site-level shrub densities positively predicted the relative likelihood of burrows and the frequency of burrows, respectively. The existence of two highly utilized dryland resources and the relationship between them signal that areas abundant in both resources will likely better support resident animal species. This finding underscores the significance of incorporating both shrub density and burrow frequency in studies of habitat interconnectivity and quality. The co-occurrence patterns of these resources will support novel habitat management and conservation strategies designed around both conservation and restoration efforts.

Abstract Image

原生灌木密度可预测加利福尼亚中部旱地的洞穴共存模式。
生态资源的可用性对当地沙漠动物群落的持续生存至关重要。灌木和洞穴等旱地资源可以缓解恶劣的非生物因素并提供栖息地,从而为动物物种带来积极的益处。了解本地灌木(其中许多是沙漠地区的基础物种)的作用以及地下洞穴作为资源的功能,有助于深入了解栖息地的利用情况。在本研究中,我们试图更好地了解这两种资源的共存情况,作为量化旱地局部和区域关键模式的第一步。我们在两个尺度上测试了洞穴的存在是否会随着洞穴附近基础灌木密度的增加而增加,这两个尺度分别是每一个记录到的洞穴半径 5 米范围内,以及被定义为离散生态区域的地点级别。我们在加利福尼亚中部干旱和半干旱地区的 31 个地点进行了实地考察。我们结合洞穴实地调查和卫星图像记录了脊椎动物洞穴频率和灌木密度。此外,我们还通过地面实况调查验证了灌木数据的准确性。细粒度灌木密度和地点级灌木密度分别对出现洞穴的相对可能性和洞穴频率有积极的预测作用。两种利用率极高的旱地资源的存在以及它们之间的关系表明,这两种资源丰富的地区可能会更好地支持常驻动物物种。这一发现强调了将灌木密度和洞穴频率纳入栖息地互联性和质量研究的重要性。这些资源的共同出现模式将支持围绕保护和恢复工作而设计的新型栖息地管理和保护战略。
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