Leone Ermes Romano, Luca Braglia, Maria Adelaide Iannelli, Yuri Lee, Laura Morello
{"title":"A survey of duckweed species in southern Italy provided first occurrences of the hybrid Lemna × mediterranea in the wild","authors":"Leone Ermes Romano, Luca Braglia, Maria Adelaide Iannelli, Yuri Lee, Laura Morello","doi":"10.1101/2024.08.09.607168","DOIUrl":null,"url":null,"abstract":"Interspecific hybridization and polyploidization are recognized as two main driving forces in plant evolution, shaping genomes and favoring evolutionary novelty and ecological adaptation. Recent studies have demonstrated hybridization within the genus Lemna (Lemnaceae Martinov). Lemna minor has given rise to two interspecific hybrids: Lemna x japonica, recognized as a species since 1980, and the newly discovered L. x mediterranea, identified among germplasm collection clones. L. x mediterranea, a hybrid between L. minor and L. gibba, was hypothesized to correspond to the species L. symmeter, which was invalidly described about 50 years ago in Southern Italy. A sampling campaign identified eight populations of the hybrid, at different sites across the Campania region, in Italy. The isolated specimens were found to be genetically identical by the nuclear marker Tubulin-based polymorphism (TBP), likely belonging to the same original clone (LER-LME) distinct from previously analyzed collection clones, suggesting recurrent hybridization. The natural hybrid clone is triploid, with L. gibba as the plastid donor. Morphology is very similar to L. gibba, although the typical gibbosity of this species becomes evident only upon flower induction. Flowers are protogynous and self-sterile. Populations of both parent species, L. minor and L. gibba, were recovered during the survey, recording a high genetic variability in L. minor. Other Lemnaceae species, Wolffia arrhiza and L. trisulca were also occasionally present. The presence of the invasive species L. minuta seems to be less prevalent with respect to other Italian regions.\nSynthesis: Five populations of the cryptic hybrid L. x mediterranea were discovered for the first time in the wild in Southern Italy. Clones isolated from these populations, sampled from distinct water bodies over an area of about 4200 Km2, are genetically indistinguishable and likely originated from the same hybridization event. Thanks to high intron polymorphism, TBP provides a straightforward method for genetically identifying sterile clonal lineages and tracking their spatial and temporal distribution. Ecological factors including competition with parental and invasive species, niche and climate change adaptation, stability in time and space are to be investigated.","PeriodicalId":501320,"journal":{"name":"bioRxiv - Ecology","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-08-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"bioRxiv - Ecology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1101/2024.08.09.607168","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Interspecific hybridization and polyploidization are recognized as two main driving forces in plant evolution, shaping genomes and favoring evolutionary novelty and ecological adaptation. Recent studies have demonstrated hybridization within the genus Lemna (Lemnaceae Martinov). Lemna minor has given rise to two interspecific hybrids: Lemna x japonica, recognized as a species since 1980, and the newly discovered L. x mediterranea, identified among germplasm collection clones. L. x mediterranea, a hybrid between L. minor and L. gibba, was hypothesized to correspond to the species L. symmeter, which was invalidly described about 50 years ago in Southern Italy. A sampling campaign identified eight populations of the hybrid, at different sites across the Campania region, in Italy. The isolated specimens were found to be genetically identical by the nuclear marker Tubulin-based polymorphism (TBP), likely belonging to the same original clone (LER-LME) distinct from previously analyzed collection clones, suggesting recurrent hybridization. The natural hybrid clone is triploid, with L. gibba as the plastid donor. Morphology is very similar to L. gibba, although the typical gibbosity of this species becomes evident only upon flower induction. Flowers are protogynous and self-sterile. Populations of both parent species, L. minor and L. gibba, were recovered during the survey, recording a high genetic variability in L. minor. Other Lemnaceae species, Wolffia arrhiza and L. trisulca were also occasionally present. The presence of the invasive species L. minuta seems to be less prevalent with respect to other Italian regions.
Synthesis: Five populations of the cryptic hybrid L. x mediterranea were discovered for the first time in the wild in Southern Italy. Clones isolated from these populations, sampled from distinct water bodies over an area of about 4200 Km2, are genetically indistinguishable and likely originated from the same hybridization event. Thanks to high intron polymorphism, TBP provides a straightforward method for genetically identifying sterile clonal lineages and tracking their spatial and temporal distribution. Ecological factors including competition with parental and invasive species, niche and climate change adaptation, stability in time and space are to be investigated.
种间杂交和多倍体化被认为是植物进化的两大动力,它们塑造了基因组,有利于进化的新颖性和生态适应性。最近的研究证明了Lemna属(Lemnaceae Martinov)的杂交。小百合属(Lemna minor)产生了两个种间杂交种:Lemna x mediterranea,是在种质收集克隆中发现的。L. x mediterranea是L. minor和L. gibba的杂交种,被假定与50年前在意大利南部被无效描述的物种L.一项取样活动在意大利坎帕尼亚地区的不同地点发现了该杂交种的八个种群。通过核标记管蛋白多态性(TBP)发现,分离出的标本在遗传学上是相同的,可能属于同一个原始克隆(LER-LME),与之前分析的采集克隆不同,这表明杂交是反复进行的。自然杂交克隆为三倍体,以 L. gibba 为质体供体。形态与 L. gibba 非常相似,但该物种典型的雌雄同株现象只有在诱导开花时才变得明显。花为原雌蕊,自花不育。调查期间发现了两个亲本物种--L. minor 和 L. gibba--的种群,记录了 L. minor 的高遗传变异性。其他柠檬科植物、Wolffia arrhiza 和 L. trisulca 也偶尔出现。与意大利其他地区相比,入侵物种 L. minuta 的存在似乎不太普遍:x mediterranea 的五个种群。从这些种群中分离出来的克隆,取样于面积约为 4200 平方公里的不同水体,在遗传学上没有区别,很可能源自同一杂交事件。由于内含子具有高度多态性,TBP 为从基因上识别不育克隆系和追踪其时空分布提供了一种直接的方法。生态因素包括与亲本和入侵物种的竞争、生态位和气候变化适应性、时间和空间的稳定性等都有待研究。