Comparative abundance and diversity of populations of the Pseudomonas syringae and Soft Rot Pectobacteriaceae species complexes throughout the Durance River catchment from its French Alps sources to its delta

C.E. Morris, C. Lacroix, C. Chandeysson, C. Guilbaud, C. Monteil, S. Piry, E. Rochelle Newall, S. Fiorini, F. Van Gijsegem, M.A. Barny, O. Berge
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Abstract

Rivers, creeks, streams are integrators of biological, chemical and physical processes occurring in a catchment linking land cover from the headwaters to the outlet. The dynamics of human and animal pathogens in catchments have been widely studied in a large variety of contexts allowing the optimization of disease risk reduction. In parallel, there is an emerging awareness that crop pathogens might also be disseminated via surface waters especially when they are used for irrigation. However, there are no studies on the extent to which potential plant pathogens are present – nor about their dynamics - along the full course of a catchment. Here we have compared the seasonal dynamics of populations of the Pseudomonas syringae (Psy) and the Soft Rot Pectobacteriaceae (SRP) species complexes along a 270 km stretch of the Durance River from the upstream alpine reaches to the downstream agricultural production areas at the confluence with the Rhone River at Avignon. Among 168 samples collected at 21 sites in fall, winter, spring and summer of 2016 and 2017, Psy strains were detected at all sampling sites and in 156 of the samples at population densities up to 105 bacteria L-1. In contrast, SRP strains were detected in 98 of the samples, mostly from the southern part of the river, at population densities that did not exceed 3 ´ 104 bacteria L-1. Among the biological and chemical parameters that were characterized at each sampling site, temperature was the only factor that explained a significant amount of the variability in population size for both species complexes. Psy densities decreased with increasing temperature whereas SRP densities increased with increasing temperature. River-borne populations of SRP were composed mainly of Pectobacterium versatile and P. aquaticum that have little known epidemiological importance. Only a few strains of Pectobacterium and Dickeya species reputed for their epidemiological impact were observed. In contrast, Psy populations at all sites were dominated by a genetic lineage of phylogroup 2 known from other studies for its broad host range and its geographic and habitat ubiquity. Our observations suggest that surveillance of river water for SRP could be leveraged to signal diagnostic and management reactions to avoid disease outbreaks. In contrast, the constant presence of Psy throughout the catchment in absence of regular and widespread disease outbreaks due to this group of bacteria suggests that surveillance should focus on future changes in land use, river water conditions and agronomic practices that could destabilize the mechanisms currently holding Psy outbreaks in check.
丁香假单胞菌和软腐乳酸菌科菌群在法国阿尔卑斯河流域至三角洲的相对丰度和多样性
河流、小溪和溪流是集水区发生的生物、化学和物理过程的集合体,将陆地覆盖从源头连接到出口。人类和动物病原体在集水区的动态已经在各种各样的环境中得到了广泛的研究,从而优化了疾病风险的降低。与此同时,人们逐渐认识到作物病原体也可能通过地表水传播,特别是当地表水用于灌溉时。然而,目前还没有研究潜在的植物病原体在流域的整个过程中存在的程度——也没有研究它们的动态。在此,我们比较了丁香假单胞菌(Pseudomonas syringae, Psy)和软腐乳酸菌科(Soft Rot Pectobacteriaceae, SRP)两种菌群的季节动态。这两种菌群分布在从上游阿尔卑斯河段到下游与阿维尼翁罗纳河汇合处270公里长的杜朗斯河流域。2016年和2017年秋、冬、春、夏季在21个采样点采集的168份样本中,所有采样点均检出Psy菌株,其中156份样本的种群密度高达105个细菌L-1。98份样本中检出SRP菌株,种群密度不超过3 × 104个细菌L-1,主要来自河南地区。在每个采样点的生物和化学参数中,温度是解释两种物种复合体种群大小差异的唯一因素。Psy密度随温度升高而降低,而SRP密度随温度升高而升高。河流传播的SRP种群主要由多功能乳杆菌和水生乳杆菌组成,它们在流行病学上的重要性鲜为人知。仅观察到几株以其流行病学影响而闻名的乳酸菌和迪克亚菌。相比之下,所有地点的Psy种群都由2种类群的遗传谱系主导,这一遗传谱系在其他研究中已知,其宿主范围广,地理和栖息地普遍存在。我们的观察结果表明,可以利用对河水SRP的监测来指示诊断和管理反应,以避免疾病暴发。相比之下,Psy在整个集水区的持续存在,而没有由于这组细菌引起的定期和广泛的疾病暴发,这表明监测应侧重于未来土地利用、河水条件和农艺实践的变化,这些变化可能会破坏目前控制Psy暴发的机制。
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