Community response to environmental change: the role of dispersal, local adaptation, and species interactions

群落对环境变化的反应：扩散、局部适应和物种相互作用的作用

• 批准号: RGPIN-2014-05629
• 负责人: Arnott, Shelley
• 金额: $ 2.48万
• 依托单位: Queen's University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2017
• 资助国家: 加拿大
• 起止时间: 2017-01-01 至 2018-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=631885
• 关键词: Community; response; environmental; change; role

Aquatic ecosystems are experiencing unprecedented change owing to a wide range of disturbances. One of the most serious repercussions is a decline in biodiversity, which often results in altered species interactions, energy flow, and biomass production. While we often have a good understanding of direct effects of environmental stressors on individual species, we have a generally poor understanding of the community-level effects because of indirect effects occurring at both a local and regional scale. Sensitive species or genotypes may be extirpated if survival and reproduction is impaired under the new conditions. Other species/genotypes may be able to adapt to altered environmental conditions if there are individuals with traits enabling them to flourish in the new environment. These individuals may already be present in the local environment or they may arrive from other habitats in the region. Over the past several decades, ecologists have recognized that the movement of organisms between habitats can shape local community composition. However, factors that influence the relative importance of local processes versus dispersal are not well understood, particularly for communities facing environmental change. For example, high local diversity may reduce the influence of dispersers from the regional species pool if local communities quickly adapt to the new conditions and monopolize resources, thereby preventing the establishment of arriving species. Alternatively, the disturbance may reduce local abundances, lessening the intensity of species interactions and facilitating establishment of dispersing species. Finally, the number, frequency, and diversity of arriving species may influence their ability to establish.The challenge of understanding community response is relevant to a wide range of aquatic stressors, but regional calcium-decline is arguably one of the most pressing but understudied threats facing thousands of lakes on the Canadian Shield. Regional acidification and biomass removal associated with logging have resulted in calcium-depleted soils and water bodies. Declines in key calcium-rich herbivores in lakes have been linked with reduced aqueous calcium concentrations. Despite this, there is a paucity of studies aimed at understanding community-level effects of low calcium concentrations.I propose to use a combination of laboratory and field experiments to address the following questions: 1) Is there evidence of local adaptation in response to environmental change? 2) How does environmental change influence the strength of species interactions (competition & predation) and subsequent establishment of regional dispersers? and 3) How do characteristics of dispersal influence probably that species from the regional species pool will establish in local disturbed environments? For the fourth component of the proposal, we will determine evaluate the extent to which mechanisms revealed in our experiments explain patterns in nature using landscape-scale species distributions. This research will benefit Canada by increasing our understanding of community response to environmental change, in particular, wide spread decline of calcium concentration. This information will direct the focus of lake managers and policy-makers to lake-specific actions for preserving local biodiversity or regional-scale efforts for maintaining regional diversity and lake-connectivity. Four PhD, 1 MSc, and at least 13 BSc students will be trained in field biology, experimental design, statistical analyses, and communication. These are highly sought skills in environmental fields, but also transfer to other careers that require critical thinking, quantitative skills, communication, and strong leadership.

由于各种各样的干扰，水生生态系统正在经历前所未有的变化。最严重的影响之一是生物多样性的下降，这往往导致物种相互作用、能量流动和生物量生产的改变。虽然我们经常有一个很好的理解环境压力对个别物种的直接影响，我们有一个普遍的社区水平的影响，因为在当地和区域范围内发生的间接影响的了解。如果在新的条件下生存和繁殖受到损害，敏感物种或基因型可能会被灭绝。其他物种/基因型可能能够适应改变的环境条件，如果有个人的特点，使他们能够在新的环境中蓬勃发展。这些个体可能已经存在于当地环境中，或者它们可能来自该地区的其他栖息地。在过去的几十年里，生态学家已经认识到，生物在栖息地之间的移动可以塑造当地社区的组成。然而，影响当地进程相对于扩散的相对重要性的因素还没有得到很好的理解，特别是对于面临环境变化的社区。例如，如果当地社区迅速适应新的条件并垄断资源，高度的地方多样性可能会减少来自区域物种库的扩散者的影响，从而阻止到达物种的定居。或者，干扰可能会减少当地的丰度，减轻物种相互作用的强度，促进建立分散的物种。最后，到达物种的数量，频率和多样性可能会影响他们的能力，建立。理解社区反应的挑战是相关的水生压力源范围广泛，但区域钙下降可以说是最紧迫的，但未充分研究的威胁之一，面临成千上万的湖泊在加拿大地盾。与伐木有关的区域酸化和生物量减少导致土壤和水体缺钙。湖泊中主要富钙食草动物的减少与水钙浓度的降低有关。尽管如此，有一个缺乏的研究，旨在了解社区水平的影响，低钙concentration.I建议使用实验室和现场实验相结合，以解决以下问题：1）是否有证据表明，当地的适应，以应对环境变化？2)环境变化如何影响物种相互作用（竞争和捕食）的强度和随后建立的区域扩散？（3）扩散特征如何影响区域物种库中的物种在当地扰动环境中的定居？对于提案的第四部分，我们将确定评估我们的实验中揭示的机制在多大程度上解释了自然界中使用生物尺度物种分布的模式。这项研究将使加拿大受益，增加我们对社区对环境变化反应的了解，特别是钙浓度的广泛下降。这一信息将引导湖泊管理者和决策者关注保护当地生物多样性的具体湖泊行动或维护区域多样性和湖泊连通性的区域规模努力。四个博士，一个硕士，和至少13个理学士的学生将在现场生物学，实验设计，统计分析和通信培训。这些都是环境领域非常受欢迎的技能，但也可以转移到其他需要批判性思维，定量技能，沟通和强大领导力的职业。