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Collaborative Research: PurSUiT: Species diversity and evolution of parasitic microfungi

合作研究：PurSUiT：寄生微真菌的物种多样性和进化

基本信息

批准号：
2127291
负责人：
Alisha Quandt
金额：
$ 34.39万
依托单位：
University of Colorado at Boulder
依托单位国家：
美国
项目类别：
Standard Grant
财政年份：
2021
资助国家：
美国
起止时间：
2021-08-15 至 2024-07-31
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=2127291&HistoricalAwards=false
关键词：
Collaborative Research PurSUiT Species diversity

项目摘要

Fungi are essential to ecosystem functioning, occur virtually everywhere, and form complex relationships with diverse organisms including prokaryotes, algae, plants, invertebrates, vertebrates, and other fungi. Nonetheless, fungi are the most undersampled and poorly documented major lineage of eukaryotes, even though total species estimates range conservatively from 1.5–6.1 million species. This uncertainty reflects numerous gaps in knowledge about fungal distributions, especially regarding range and extent of unculturable fungi, microscopic fungi (microfungi), parasitic fungi, and tropical fungi. This project will document diversity of fungi in two groups that represent major gaps in our knowledge—the first are unculturable microfungi that associate with insects, called Labouls, and the other are unculturable microfungi that associate with plants, called Rust Fungi. Members of Labouls and Rust Fungi are expected to have profound effects on ecosystem health and functioning through both beneficial and harmful interactions with their animal and plant hosts. The research team will explore several global habitats in tropical and temperate regions that have not previously been surveyed for these fungi. It is expected that hundreds of new species will be discovered and described during this project. In addition to enhancing the documented biodiversity on the planet, this project will resolve the “tree of life” for both groups and use this information to resolve long-standing questions regarding the evolution of the Fungi. Broader impacts include graduate and undergraduate training, international workshops to enhance collaboration between US and local researchers, and outreach to the public through “Bat Night” and “Roach Hunt” field trips.These fungal lineages are being studied for several reasons: 1) both represent groups poorly documented from tropical world regions; 2) both represent groups that are not detected by commonly applied culture-based and high throughput sequencing efforts; 3) neither group has been resolved, phylogenetically, by application of multi-locus analyses of known species; 4) both represent obligately parasitic lineages that are rarely studied but expected to have profound effects on ecosystems; and 5) both are or are related to heteroecious fungi (requiring two different hosts), a phenomenon that is extremely rare in Fungi. A complementary team of US and other global experts on these fungi, ranging from junior to senior scientists, have designed an experimental approach that includes standardized sampling strategies from tropical and extra-tropical regions with multi-locus phylogenetic, phylogenomic, comparative genomic, and statistical analyses to: 1) Determine whether accurate estimates from obligate microparasitic fungi, not included in any other estimates, will affect overall Fungi species estimates; 2) whether parasitic microfungi follow the reverse latitudinal gradient posited for other fungal groups; and 3) resolve long-standing unresolved phylogenetic nodes by the incorporation of “missing” lineages.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.

真菌对生态系统功能至关重要，几乎无处不在，并与包括原核生物，藻类，植物，无脊椎动物，脊椎动物和其他真菌在内的各种生物体形成复杂的关系。尽管如此，真菌是采样最少和记录最少的真核生物主要谱系，尽管总物种估计保守地在150万至610万种之间。这种不确定性反映了关于真菌分布的知识存在许多差距，特别是关于不可培养真菌，微观真菌（微真菌），寄生真菌和热带真菌的范围和程度。这个项目将记录两组真菌的多样性，这两组真菌代表了我们知识中的主要空白-第一组是与昆虫相关的不可培养的微真菌，称为Labouls，另一组是与植物相关的不可培养的微真菌，称为锈菌。Labouls和Rust Fungi的成员预计将通过与动植物宿主的有益和有害相互作用对生态系统健康和功能产生深远影响。研究小组将探索热带和温带地区的几个全球栖息地，这些地区以前没有调查过这些真菌。预计在该项目期间将发现和描述数百个新物种。除了增强地球上记录的生物多样性外，该项目还将解决两个群体的“生命之树”，并利用这些信息解决有关真菌进化的长期问题。更广泛的影响包括研究生和本科生培训，国际研讨会，以加强美国和当地研究人员之间的合作，并通过“蝙蝠之夜”和“蟑螂狩猎”实地考察向公众宣传。这些真菌谱系正在研究有几个原因：1）两者都代表了热带世界地区的记录不足的群体; 2）两者都代表不能通过通常应用的基于培养物和高通量测序努力检测到的组; 3）两个组都不能通过应用已知物种的多基因座分析在遗传学上分辨; 4）两者都代表专性寄生谱系，很少研究，但预计对生态系统有深远的影响; 5）两者都是或与异株真菌有关（需要两种不同的宿主），这是真菌中极其罕见的现象。一个由美国和其他全球真菌专家组成的互补团队，从初级到高级科学家，设计了一种实验方法，包括来自热带和热带以外地区的标准化采样策略，具有多位点系统发育，单基因组，比较基因组和统计分析：1）确定未包括在任何其他估计中的专性微寄生真菌的准确估计是否会影响总体真菌物种估计; 2）寄生性微真菌是否遵循其他真菌群的反向纬度梯度; 3）通过纳入“缺失”的谱系来解决长期悬而未决的系统发育节点。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。