Dimensions: Collaborative Research: Biotic and abiotic drivers of Neotropical plant speciation

维度：合作研究：新热带植物物种形成的生物和非生物驱动因素

• 批准号: 1737878
• 负责人: Jennifer Funk
• 金额: $ 57.84万
• 依托单位: Chapman University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2018
• 资助国家: 美国
• 起止时间: 2018-04-01 至 2023-07-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1737878&HistoricalAwards=false
• 关键词: Dimensions; Collaborative; Research; Biotic; abiotic

Plants are the foundation for terrestrial biodiversity, and the forests of Central and South America are home to more types of plants than anywhere else in the world. Over very long time periods, this diversity of plants is produced by speciation, the complicated process whereby one species becomes two. This project will test ideas about how speciation happens in tropical forests. It will also greatly increase basic knowledge of how plants cope with different environments and how they interact with insects that pollinate their flowers and eat their leaves. Many undergraduate and graduate students, especially those from underrepresented groups in science, will participate in the project, gaining research experience and career training. The team will work to increase international capacity in biodiversity science by helping with field courses in Latin America, involving local research assistants at each tropical field site, and organizing an international research symposium in Costa Rica. Finally, investigators will broadly communicate their experiences and scientific findings to the general public. Results will help guide conservation and management of tropical forests, which are rapidly changing due to human influences.Two evolutionary hypotheses for high tropical speciation rates have been proposed. First, because tropical climates are relatively stable year-round, organisms may not evolve the ability to tolerate a wide range of climates and therefore may not disperse widely. Local populations will then become isolated from their relatives and gradually become new species. Alternatively, interactions between plants and other organisms, such as pollinators and herbivores, may vary from place to place, such that a population adapted to one biological community will grow and reproduce poorly when it spreads to another community. In this way, there may be natural selection for plants in different locations to become different species. This research uses spiral gingers in the monocot genus Costus in Costa Rica and Panama to test these hypotheses about tropical speciation. Spiral gingers occupy a wide range of habitats, extending from lowlands to montane forests and from dense understory to forest edges, with different temperature, water, and soil conditions. They interact with many different orchid bee and hummingbird pollinators, highly specialized beetles that feed on young leaves, and ants that provide protection from herbivores in exchange for nectar. This work integrates phylogenetic studies, broad scale observational approaches, focused field experiments (reciprocal transplants and direct manipulations of interacting organisms and abiotic factors), and genetic mapping. It will determine how plants interact with and adapt to pollinators, herbivores, ant protectors, and climatic conditions across their geographic ranges. It will evaluate whether speciation is caused by traits and genes that have positive effects in one environment and negative effects in other environments.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.

植物是陆地生物多样性的基础，中美洲和南美洲的森林比世界其他任何地方都拥有更多种类的植物。在很长一段时间内，植物的这种多样性是由物种形成产生的，物种形成是一个物种变成两个物种的复杂过程。该项目将测试有关热带森林中物种形成如何发生的想法。它还将大大增加植物如何应对不同环境以及它们如何与为花朵授粉和吃叶子的昆虫相互作用的基本知识。许多本科生和研究生，特别是那些来自科学领域代表性不足的群体的学生，将参与该项目，获得研究经验和职业培训。该团队将通过帮助拉丁美洲的实地课程、让每个热带实地地点的当地研究助理参与以及在哥斯达黎加组织国际研究研讨会，努力提高生物多样性科学的国际能力。 最后，研究人员将向公众广泛传播他们的经验和科学发现。 研究结果将有助于指导热带森林的保护和管理，由于人类的影响，热带森林正在迅速发生变化。人们提出了两种关于高热带物种形成率的进化假设。首先，由于热带气候全年相对稳定，生物体可能无法进化出耐受各种气候的能力，因此可能不会广泛传播。然后当地种群将与其亲属隔离并逐渐成为新物种。另外，植物和其他生物（例如传粉媒介和食草动物）之间的相互作用可能因地而异，因此适应一个生物群落的种群在传播到另一个群落时将生长和繁殖不良。这样，不同地点的植物可能会通过自然选择而成为不同的物种。这项研究使用哥斯达黎加和巴拿马单子叶植物属的螺旋姜来检验这些关于热带物种形成的假设。螺旋姜的栖息地范围广泛，从低地到山地森林，从茂密的林下林下到森林边缘，具有不同的温度、水和土壤条件。它们与许多不同的兰花蜜蜂和蜂鸟传粉者、以嫩叶为食的高度专业化的甲虫以及提供保护以免受食草动物侵害以换取花蜜的蚂蚁相互作用。这项工作整合了系统发育研究、大规模观察方法、重点实地实验（相互移植和直接操作相互作用的生物体和非生物因素）以及遗传图谱。它将决定植物如何与传粉者、食草动物、蚂蚁保护者以及其地理范围内的气候条件相互作用并适应。它将评估物种形成是否是由在一种环境中产生积极影响而在其他环境中产生消极影响的性状和基因引起的。该奖项反映了 NSF 的法定使命，并通过使用基金会的智力价值和更广泛的影响审查标准进行评估，被认为值得支持。