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Collaborative Research: Ecological and Evolutionary Forces Reshaping Mutualism During Species Introductions

合作研究：生态和进化力量重塑物种引进过程中的互利共生

基本信息

批准号：
1821892
负责人：
Maren Friesen
金额：
$ 20.55万
依托单位：
Washington State University
依托单位国家：
美国
项目类别：
Continuing Grant
财政年份：
2017
资助国家：
美国
起止时间：
2017-08-16 至 2021-07-31
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=1821892&HistoricalAwards=false
关键词：
Collaborative Research Ecological Evolutionary Forces

项目摘要

Introduced species can wreak havoc on ecosystems by displacing natives and by altering environmental conditions. While much is known about the properties of invasive plants and animals, much less is known about the beneficial microbes (microscopic organisms) that accompany introduced species. Rhizobia are beneficial bacteria that inhabit leguminous plant root tissue where they convert nitrogen from the atmosphere to a plant-available form. Leguminous plants provide these microbes with sugars from photosynthesis. Legumes that disperse to habitats that lack these bacteria are typically unable to persist, however the bacteria can also spread through the soil or air. The aim of this research is to examine whether invasions change the nature of a mutualistic interaction. The investigators will study specialization and the evolution of cooperation in both natural and experimentally staged invasions for two plant species and their beneficial microbes. While this question has been addressed in aboveground systems, this is one of the first to utilize a belowground plant mutualism. This project will promote diversity in the sciences, provide research training and education in the biology of plant-microbe interactions, and inform efforts to control invasive plants. Diverse undergraduate students from Florida International University will participate in summer research at University of California at Riverside and Michigan State University. An educational module will also be developed on rhizobium-legume interactions in neighborhood soils, to be distributed to school children via MSU's Kellogg Biological Station Bioenergy Sustainability Program and the Fairchild Challenge, an environmental education program that reaches over 100,000 children a year in Miami.To understand whether mutualisms become less beneficial in the process of species invasions, this project will test the hypothesized trade-off between partner breadth and mutualism benefit across legume and rhizobium genotypes from the native and invasive range for two Medicago species. Medicago is the genus that includes alfalfa. Both species are native to Europe and invasive in the US. The researchers will 1) compare genetic diversity in native vs. invaded host range mutualists, using high marker density genotyping for hosts and whole-genome sequencing for symbionts, 2) assess divergence in mutualism properties between the native and invaded range to test hypotheses of reduced specialization, partner choice and mutualism dependence in invaded range mutualists using cross-inoculation trials, 3) test the impact of invasion on symbiont genome dynamics and mutualisms by simulated symbiont invasions in soil mesocosms under contrasting host density and diversity, and 4) identify the molecular underpinnings of mutualism specialization using a transcriptomic approach to nominate host-symbiont pathways. This research will shed light on the long-standing question of whether beneficial microbes face a trade-off between having a broad partner range and providing a high degree of benefit to a partner.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.

引入的物种可能会取代本地物种并改变环境条件，从而对生态系统造成严重破坏。虽然人们对入侵植物和动物的特性了解甚多，但对伴随引进物种的有益微生物（微生物）知之甚少。根瘤菌是栖息在豆科植物根部组织中的有益细菌，它们将大气中的氮转化为植物可利用的形式。豆科植物通过光合作用为这些微生物提供糖。散布到缺乏这些细菌的栖息地的豆类通常无法生存，但细菌也可以通过土壤或空气传播。这项研究的目的是检验入侵是否改变了互惠互动的性质。研究人员将研究两种植物物种及其有益微生物在自然和实验阶段入侵中的专业化和合作进化。虽然这个问题已经在地上系统中得到解决，但这是第一个利用地下植物互利共生的系统之一。该项目将促进科学的多样性，提供植物-微生物相互作用生物学的研究培训和教育，并为控制入侵植物的努力提供信息。来自佛罗里达国际大学的不同本科生将参加加州大学河滨分校和密歇根州立大学的夏季研究。还将开发一个关于邻近土壤中根瘤菌-豆科植物相互作用的教育模块，并将通过密歇根州立大学凯洛格生物站生物能源可持续发展计划和 Fairchild Challenge 分发给学童，Fairchild Challenge 是一项每年覆盖迈阿密超过 100,000 名儿童的环境教育计划。来自两种苜蓿物种的本地和入侵范围的豆科植物和根瘤菌基因型。苜蓿是包括苜蓿的属。这两个物种都原产于欧洲，并入侵美国。研究人员将1）比较本地与入侵宿主范围互利共生者的遗传多样性，使用宿主的高标记密度基因分型和共生体的全基因组测序，2）评估本地和入侵范围互利共生特性之间的差异，以使用交叉接种试验检验入侵范围互利共生者专业化、伙伴选择和互利共生依赖性降低的假设，3）测试入侵的影响通过在对比宿主密度和多样性的情况下模拟土壤中宇宙中的共生体入侵来研究共生体基因组动力学和互利共生，4）使用转录组学方法指定宿主-共生体途径来确定共生专业化的分子基础。这项研究将揭示一个长期存在的问题，即有益微生物是否面临着拥有广泛的合作伙伴范围和为合作伙伴提供高度利益之间的权衡。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。