Enemy release, biotic resistance and the success of invasive forest insects

天敌释放、生物抗性和入侵森林昆虫的成功

• 批准号: RGPIN-2014-05123
• 负责人: Smith, Sandy
• 金额: $ 1.75万
• 依托单位: University of Toronto
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2014
• 资助国家: 加拿大
• 起止时间: 2014-01-01 至 2015-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=566969
• 关键词: Enemy; release; biotic; resistance; success

Globalization ensures that invasive species will continue to arrive, establish, and cause significant disruption in our ecosystems, leading to major global change. My research aims to increase our ability to manage such species through improved understanding of community interactions that affect the natural enemies regulating their populations. NSERC-DG funding will enable my research team to conduct the primary ecological studies proposed here, work that will elucidate key mechanisms driving these changes, as well as potential avenues for their mitigation in forests. Species interactions underpin the theories of enemy release and biotic resistance, and are a major thrust of my research. There is a great need to understand such processes in invaded forests, and my research program represents one of the few academic groups in Canada actively working in this area of invasive species and biological control. Recent introductions into Canada of several major forest insects (emerald ash borer (EAB), Asian long-horned beetle (ALHB), Sirex woodwasps) allow us to compare native and exotic natural enemy complexes, and to explore mechanisms by which these communities affect host mortality and pest invasion. I am best known for my contributions augmenting native natural enemies for biological control in forested systems, widely cited work still definitive in the field, however, my current research explores hypotheses around displacement of native species in order to better understand the invasion process. My specific interests are in community patterns of natural enemies following the introduction of exotics or through forest manipulation. Here, I investigate the enemy release and biotic resistance hypotheses as possible explanations for the community patterns observed as a new species establishes in the forest. I ask the question, which hypothesis better explains enemy attack and host productivity in two closely-related beetle systems; one indigenous (eastern pine engraver beetle, Ips pini), and one recently introduced from Europe (Tomicus piniperda). Both bark beetles are sympatric phloem-feeders attacking native and exotic pines across eastern Canada. Using this exotic-indigenous model system, I will test these two hypotheses with respect to levels of predation, parasitism, specialization, and community diversity of enemies and associates. I predict that in contrast to Europe, natural enemies of the indigenous North American beetle (Ips) will be both more diverse and specialized, and occur at greater densities than those on the nonindigenous beetle (Tomicus), and that this will lend support for the enemy release hypothesis. Biogeographic and ontongenic data will be derived across a gradient of beetle densities to quantify the degree to which enemies are present, and can account for beetle mortality and productivity. By comparing communities (natural enemies, mutualists, and competitors) and patterns associated with these beetles under manipulated densities and controlled biotic interactions, I will be able to establish the best explanatory mechanism. Results from this primary research will add to our understanding of invasion dynamics in our forests, and at the applied level, help to direct management strategies for alien insect species. They will be of interest to scientists, bio-control researchers, as well as policy-makers who regulate invasive species and the public and forest industry concerned with the ecological and economic effects of such species. My proposal requests funding to fuel not only basic knowledge underpinning processes of ecosystem resilience, but also to achieve unique and complementary HQP capacity in invasion biology for Canada’s most significant renewable resource, our forests.

全球化确保了入侵物种将继续到达，建立并对我们的生态系统造成重大破坏，导致重大的全球变化。我的研究旨在通过提高对影响天敌调节其种群的社区相互作用的理解，提高我们管理这些物种的能力。NSERC-DG的资助将使我的研究团队能够进行这里提出的主要生态研究，这些研究将阐明推动这些变化的关键机制，以及在森林中缓解这些变化的潜在途径。物种间的相互作用支撑了敌人释放和生物抗性的理论，也是我研究的主要方向。有一个伟大的需要，以了解这些过程中入侵的森林，我的研究计划代表了在加拿大积极在这一领域的入侵物种和生物控制的学术团体之一。最近引进到加拿大的几个主要的森林昆虫（祖母绿灰螟（EAB），亚洲长角甲虫（ALHB），Sirex木蜂），使我们能够比较本地和外来的天敌复合体，并探讨这些社区影响主机死亡率和害虫入侵的机制。我最出名的是我的贡献增加本地天敌在森林系统中的生物控制，广泛引用的工作仍然在该领域的决定性，但是，我目前的研究探索本地物种的位移周围的假设，以更好地了解入侵过程。我的具体利益是在引进外来物种或通过森林操纵天敌的社区模式。在这里，我调查的敌人释放和生物抗性假说作为可能的解释观察到的社区模式作为一个新的物种建立在森林中。我问的问题，哪种假说更好地解释了敌人的攻击和主机生产力在两个密切相关的甲虫系统;一个本地（东部松刻纹甲虫，Ips pini），和一个最近从欧洲引进（纵坑切梢小蠹）。这两种树皮甲虫都是同域的韧皮部进食者，攻击加拿大东部的本土和外来松树。使用这个外来土著模型系统，我将测试这两个假设的捕食水平，寄生，专业化，和社区多样性的敌人和联营公司。我预测，与欧洲相反，北美本土甲虫（Ips）的天敌将更加多样化和专业化，并发生在更大的密度比那些非本土甲虫（切梢小蠹），这将支持敌人释放假说。将通过甲虫密度梯度推导生物地理和个体发生数据，以量化敌人存在的程度，并可以解释甲虫死亡率和生产力。通过比较社区（天敌，互利主义者，和竞争对手）和模式与这些甲虫在操纵密度和控制生物相互作用，我将能够建立最好的解释机制。这项初步研究的结果将增加我们对森林入侵动态的了解，并在应用层面上，有助于指导外来昆虫物种的管理策略。它们将引起科学家、生物控制研究人员以及管理入侵物种的政策制定者和关心这些物种的生态和经济影响的公众和林业的兴趣。我的提案要求提供资金，不仅为支撑生态系统恢复力过程的基础知识提供燃料，而且还为加拿大最重要的可再生资源-我们的森林-在入侵生物学方面实现独特和互补的HQP能力。