Maria Caballol, Miguel Ángel Redondo, Núria Catalán, Tamara Corcobado, Thomas Jung, Benoît Marçais, Ivan Milenković, Miguel Nemesio-Gorriz, Jan Stenlid, Jonàs Oliva
{"title":"Climate acts as an environmental filter to plant pathogens","authors":"Maria Caballol, Miguel Ángel Redondo, Núria Catalán, Tamara Corcobado, Thomas Jung, Benoît Marçais, Ivan Milenković, Miguel Nemesio-Gorriz, Jan Stenlid, Jonàs Oliva","doi":"10.1093/ismejo/wrae010","DOIUrl":null,"url":null,"abstract":"Climate shapes the distribution of plant-associated microbes such as mycorrhizal and endophytic fungi. However, the role of climate in plant pathogen community assembly is less understood. Here, we explored the role of climate in the assembly of Phytophthora communities at >250 sites along a latitudinal gradient from Spain to northern Sweden and an altitudinal gradient from the Spanish Pyrenees to lowland areas. Communities were detected by ITS sequencing of river filtrates. Mediation analysis supported the role of climate in the biogeography of Phytophthora and ruled out other environmental factors such as geography or tree diversity. Comparisons of functional and species diversity showed that environmental filtering dominated over competitive exclusion in Europe. Temperature and precipitation acted as environmental filters at different extremes of the gradients. In northern regions, winter temperatures acted as an environmental filter on Phytophthora community assembly, selecting species adapted to survive low minimum temperatures. In southern latitudes, a hot dry climate was the main environmental filter, resulting in communities dominated by drought-tolerant Phytophthora species with thick oospore walls, a high optimum temperature for growth and a high maximum temperature limit for growth. By taking a community ecology approach, we show that the establishment of Phytophthora plant pathogens in Europe is mainly restricted by cold temperatures.","PeriodicalId":516554,"journal":{"name":"The ISME Journal","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2024-01-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"The ISME Journal","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1093/ismejo/wrae010","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
Climate shapes the distribution of plant-associated microbes such as mycorrhizal and endophytic fungi. However, the role of climate in plant pathogen community assembly is less understood. Here, we explored the role of climate in the assembly of Phytophthora communities at >250 sites along a latitudinal gradient from Spain to northern Sweden and an altitudinal gradient from the Spanish Pyrenees to lowland areas. Communities were detected by ITS sequencing of river filtrates. Mediation analysis supported the role of climate in the biogeography of Phytophthora and ruled out other environmental factors such as geography or tree diversity. Comparisons of functional and species diversity showed that environmental filtering dominated over competitive exclusion in Europe. Temperature and precipitation acted as environmental filters at different extremes of the gradients. In northern regions, winter temperatures acted as an environmental filter on Phytophthora community assembly, selecting species adapted to survive low minimum temperatures. In southern latitudes, a hot dry climate was the main environmental filter, resulting in communities dominated by drought-tolerant Phytophthora species with thick oospore walls, a high optimum temperature for growth and a high maximum temperature limit for growth. By taking a community ecology approach, we show that the establishment of Phytophthora plant pathogens in Europe is mainly restricted by cold temperatures.
气候影响着菌根真菌和内生真菌等植物相关微生物的分布。然而,人们对气候在植物病原体群落集结中的作用了解较少。在这里,我们沿着从西班牙到瑞典北部的纬度梯度和从西班牙比利牛斯山脉到低地地区的海拔梯度,在 250 个地点探索了气候在噬菌体群落组合中的作用。通过对河流滤液进行 ITS 测序检测了群落。中介分析支持气候在噬菌体生物地理学中的作用,并排除了地理或树木多样性等其他环境因素。功能多样性和物种多样性的比较表明,在欧洲,环境过滤作用比竞争排斥作用更重要。温度和降水在梯度的不同极端起着环境过滤的作用。在北部地区,冬季气温对噬菌体群落的集结起到了环境过滤的作用,选择了适应在最低气温下生存的物种。在南纬地区,炎热干燥的气候是主要的环境过滤器,导致群落以具有厚卵孢子壁、生长最适温度高和生长最高温度限制高的耐旱噬菌体物种为主。通过采用群落生态学方法,我们表明欧洲植物病原菌的建立主要受到低温的限制。