斑块的空间属性和受到干扰的时间会影响短暂栖息地内本地源种群的出现

IF 2.6 3区 环境科学与生态学 Q2 ECOLOGY
Tiago Crispim-Mendes , Deon Roos , Clara Mendes Ferreira , Joana Paupério , João Paulo Silva , Sérgio Godinho , Paulo Célio Alves , António Mira , Pedro Beja , Xavier Lambin , Ricardo Pita
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引用次数: 0

摘要

了解短暂栖息地斑块内当地种群的人口分布情况,对于在时空异构环境中进行有效的当地(基于地点)保护管理至关重要。有证据表明,持续存在于短暂斑块网络中的物种往往表现出源-汇动态,即在最初殖民到斑块因干扰而消失之间的一段时间内,某些地方种群充当临时源。在这里,我们受动态农业镶嵌区中的卡布雷拉田鼠(Microtus cabrerae)的启发,提出了一个基于个体的人口统计模型,以验证这样一个假设:在一个短暂的生境斑块中,一个源本地种群的出现主要受斑块空间属性(大小、内部质量以及与其他假定斑块的连接性)和干扰时间(即斑块寿命)的综合影响。我们重点研究了两个关键的新兴人口学指标,它们根据当地种群的自我维持能力和对其他斑块的潜在贡献,量化了当地种群的源-汇状态。我们使用敏感性分析来估算这些指标与斑块空间属性之间的线性关联强度,并量化自最初殖民以来不同斑块寿命期间的主要效应和交互效应。我们的模型显示,基于斑块大小、内部质量、连通性和寿命的差异,当地种群的源-汇状态可能会出现相当大的空间和时间差异。根据预测,斑块的内部质量与当地种群的自我维持能力和对其他斑块的潜在贡献呈正相关,尽管这些关系的强度只有在最初定殖后约三代田鼠(约一年)之后才有意义,而且只有在与斑块大小和连通性的正效应相结合时才有意义。因此,研究结果也支持这样的预测,即临时性本地种群的出现取决于栖息地斑块的寿命,斑块寿命短(少于约三代田鼠)会极大地限制本地种群的自我维持能力和对其他斑块的潜在贡献。虽然这些发现还需要实证检验来证实,但我们的研究加强了这样一种观点,即在大型且连接良好的优质斑块上,通过减少或减轻干扰(如严重干旱、人类耕作活动)来进行地方管理,很可能会促进临时来源地方种群的出现,这对于物种在更大空间尺度上的长期存在至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Patch spatial attributes and time to disturbance affect the emergence of source local populations within ephemeral habitats

Understanding the demography of local populations within ephemeral habitat patches is crucial for effective local (site-based) conservation management in spatially and temporally heterogeneous environments. Evidence suggests that species persisting in networks of ephemeral patches often exhibit source-sink dynamics, where certain local populations act as temporary sources at some time between initial colonization and patch disappearance due to disturbance. Here we present an individual-based demographic model inspired by Cabrera voles (Microtus cabrerae) in dynamic agricultural mosaics to test the hypothesis that the emergence of a source local population within an ephemeral habitat patch is largely driven by the combined effects of the patch spatial attributes (size, internal quality and connectivity to other hypothetical patches) and the time to disturbance (i.e. the patch lifespan). We focused on two key emergent demographic metrics quantifying the source-sink status of local populations based on their self-sustainability and potential contribution to other patches. We used sensitivity analyses to estimate the strength of linear associations between these metrics and the patch spatial attributes, and to quantify the main and interaction effects across different patch lifespans since initial colonization. Our model revealed that considerable spatial and temporal variation may emerge in local populations’ source-sink status based on differences in patch size, internal quality, connectivity, and lifespan. According to predictions, patch internal quality correlated positively with local population self-sustainability and potential contribution to other patches, though the strength of these relationships was mostly relevant only after about three vole generation times (ca. one year) since initial colonization, and only in combination with the positive effects of patch size and connectivity. Accordingly, results also supported the prediction that the emergence of a temporary source local population is conditional to the longevity of the habitat patch, with short patch lifespans (less than about three vole generation times) greatly limiting local population self-sustainability and potential contribution to other patches. While empirical testing is needed to confirm these findings, our study strengthens the view that local management efforts focusing on reducing or mitigating disturbance (e.g. severe droughts, human farming activities) at large and well-connected high-quality patches will likely promote the occurrence of temporary source local populations, which should be crucial for long-term species persistence over larger spatial scales.

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来源期刊
Ecological Modelling
Ecological Modelling 环境科学-生态学
CiteScore
5.60
自引率
6.50%
发文量
259
审稿时长
69 days
期刊介绍: The journal is concerned with the use of mathematical models and systems analysis for the description of ecological processes and for the sustainable management of resources. Human activity and well-being are dependent on and integrated with the functioning of ecosystems and the services they provide. We aim to understand these basic ecosystem functions using mathematical and conceptual modelling, systems analysis, thermodynamics, computer simulations, and ecological theory. This leads to a preference for process-based models embedded in theory with explicit causative agents as opposed to strictly statistical or correlative descriptions. These modelling methods can be applied to a wide spectrum of issues ranging from basic ecology to human ecology to socio-ecological systems. The journal welcomes research articles, short communications, review articles, letters to the editor, book reviews, and other communications. The journal also supports the activities of the [International Society of Ecological Modelling (ISEM)](http://www.isemna.org/).
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