Collaborative Research: Superinvaders: testing a general hypothesis of forest invasions by woody species across the Americas

合作研究：超级入侵者：测试美洲木本物种入侵森林的一般假设

• 批准号: 2331278
• 负责人: Julissa Rojas-Sandoval
• 金额: $ 49.96万
• 依托单位: University of Connecticut
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2024
• 资助国家: 美国
• 起止时间: 2024-04-01 至 2028-03-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2331278&HistoricalAwards=false
• 关键词: Collaborative; Research; Superinvaders; testing; general

Invasive plant species are a form of biological pollution that cost billions of dollars each year in lost crop and timber production, and they are one of the principal threats to native biodiversity. Effective management of invasive species requires that scientists understand how they compete successfully with native species. One of the least understood behaviors of invasive plants is that a single invasive species can dominate in many different types of environments. In particular, scientists have identified a group of ‘superinvaders’ that, counter to what is expected for native species, can grow very fast in sunlight but also tolerate heavy shade in the forest understory. Although there is good evidence that this behavior drives their increasing abundance in both temperate and tropical forests, scientists don’t understand how this occurs: why should invasive species play by different rules than native species in the same environment? One hypothesis is that invasive species have fewer pests than native species, and this advantage allows them to persist in stressful environments. In this project, ecologists will experimentally test this idea in many different types of forests to determine how this ‘superinvader’ behavior emerges. Moreover, by linking how plants simultaneously respond to pests and environmental stress, scientists will better understand how species coexist to foster native biodiversity. The project will train two US doctoral students, one postdoctoral scholar and numerous undergraduate students. The project will foster international collaboration, research partnerships and knowledge transfer across the Americas. This will benefit US scientists, doctoral student trainees and postdoctoral scholar. A new Research Experience for Undergraduates program at the University of South Carolina and a summer workshop in Puerto Rico will contribute to broadening participation by undergraduate students from groups under-represented in science and technology. The postdoctoral scholar will lead an effort to create a Forest Superinvader Network that will increase the scope of this project to the global level to facilitate international knowledge transfer and more effective forest and land management worldwide through better understanding of plant invasion mechanisms.The project involves two components. In the first, research teams will monitor the growth and survival of native and invasive tree saplings across lights gradients in 10 locations across the Americas, including temperate forests in Connecticut and South Carolina, tropical forests in Mexico, Costa Rica, and the Caribbean, and subtropical forests in southern Brazil. Using field measurements of metabolic activity of different tissues above- and belowground, researchers will test the hypothesis that lower energy costs in invaders, as a result of fewer pests, allows these invaders to circumvent functional tradeoffs typically associated with fast growth and shade tolerance. In a second component conducted in five locations, researchers will experimentally remove insects and fungal pathogens from native and invasive saplings to test whether shade tolerance is driven by pest loads. In both components, researchers will build and test integrative models of plant behavior that consider the energetic costs of seemingly disparate behaviors (e.g., resource capture versus defense) to further scientific understanding of critical linkages between plant functional ecology and population dynamics.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

入侵植物物种是一种生物污染，每年造成数十亿美元的作物和木材生产损失，是对当地生物多样性的主要威胁之一。有效管理入侵物种需要科学家了解它们如何成功地与本地物种竞争。对入侵植物最不了解的行为之一是，单一的入侵物种可以在许多不同类型的环境中占主导地位。特别是，科学家们已经确定了一组“超级入侵者”，与对本地物种的预期相反，它们可以在阳光下生长得非常快，但也可以在森林下层忍受沉重的阴影。尽管有充分的证据表明，这种行为推动了它们在温带和热带森林中的数量不断增加，但科学家们不明白这是如何发生的：为什么入侵物种在同一环境中会遵循与本地物种不同的规则？一种假设是，入侵物种的害虫比本地物种少，这种优势使它们能够在压力环境中持续存在。在这个项目中，生态学家将在许多不同类型的森林中实验性地测试这一想法，以确定这种“超级入侵者”行为是如何出现的。此外，通过将植物如何同时应对害虫和环境压力联系起来，科学家将更好地了解物种如何共存以促进本地生物多样性。该项目将培养两名美国博士生，一名博士后学者和众多本科生。该项目将促进整个美洲的国际合作、研究伙伴关系和知识转让。这将使美国科学家、博士生学员和博士后学者受益。南卡罗来纳州大学的一项新的本科生研究经验计划和波多黎各的一个夏季讲习班将有助于扩大来自科学和技术代表性不足群体的本科生的参与。这位博士后学者将领导创建一个森林超级入侵者网络的工作，该网络将把该项目的范围扩大到全球一级，以促进国际知识转让，并通过更好地了解植物入侵机制，在全世界范围内更有效地管理森林和土地。首先，研究小组将监测美洲10个地点的本地和入侵树苗在灯光梯度下的生长和生存情况，包括康涅狄格州和南卡罗来纳州的温带森林，墨西哥、哥斯达黎加和加勒比海的热带森林，以及巴西南部的亚热带森林。通过对地上和地下不同组织代谢活动的实地测量，研究人员将检验一个假设，即由于害虫较少，入侵者的能量成本较低，这使得这些入侵者能够规避通常与快速生长和耐荫性相关的功能权衡。在五个地点进行的第二部分中，研究人员将实验性地从原生和入侵树苗中去除昆虫和真菌病原体，以测试耐荫性是否由害虫负荷驱动。在这两个部分中，研究人员将建立和测试植物行为的综合模型，这些模型考虑了看似不同的行为的能量成本（例如，该奖项反映了NSF的法定使命，并通过使用基金会的知识价值和更广泛的影响审查标准进行评估，被认为值得支持。