Jorge Sopena, Natalia Sierra Cornejo, A. Cosoveanu, C. G. Rodriguez, R. Cabrera
{"title":"RAPID METHODS TO SELECT FACULTATIVE PATHOGENS ON INVADER Cenchrus setaceus","authors":"Jorge Sopena, Natalia Sierra Cornejo, A. Cosoveanu, C. G. Rodriguez, R. Cabrera","doi":"10.54574/rjpp.14.16","DOIUrl":null,"url":null,"abstract":"\"Fountain grass, Cenchrus setaceus (Forssk.) Chiov. (syn. Pennisetum setaceum) is an invasive plant\nwith high impact on insular environments such as the Canary Islands. Although there are no mentions on C.\nsetaceus phytopathogens, plant communities with symptoms of withering, yellowing and decay have been found\nin Canary Islands. Our project aims to find autochthonous potential biological control agents for C. setaceus.\nHerein, we present a workflow in which we tested fast and cost-effective methods to screen a high number of\nfungal strains, aiming features like fast colonizers as well as competitive saprophytes and facultative pathogens\nwith ability to cause infection. Affected plants were collected from the islands of Gran Canaria, Tenerife, La\nGomera, La Palma and Lanzarote and 243 fungal strains belonging to 38 genera were isolated. First screening was\nperformed on adult plants with pooled multiple species strains – spores suspensions of 10 random strains per pool,\neach strain representing a genus or a morphotype (n = 83). No symptoms of disease were observed. Most isolated\ngenera in this study were Alternaria and Fusarium, known as cosmopolite phytopathogens. Next screening\nmethods were focused accordingly. Two in vitro single-strain screening methods were employed by using\nmycelium-inoculated sectioned and entire leaves, to observe the ability of tissue colonization. First screening on\nsectioned leaves was performed with high amount of inoculum, to increase the chances of colonization and to\ndetermine the ability of fungi to use the plant material as substrate. The method was not effective in significantly\nreducing the number of candidates as most strains had abundant growth. To detect differences in fungal strains\nacting as facultative pathogens or phytopathogens, the 2nd single-strain screening was performed on\nphysiologically-stressed (pelargonic acid, a desiccant molecule to induce turgor loss) and not pre-treated leaves\nusing less inoculum. Six strains were selected and subsequently evaluated in the last in vivo screening in the\npresence and absence of the desiccant. Finally, we detected strain 967 Fusarium clavum as able to colonize and\nreproduce at the crown of the young plants. In view of our experimental process, we propose a workflow for the\ncost-effective search for potential BCAs in similar situations.\"","PeriodicalId":315564,"journal":{"name":"Romanian Journal for Plant Protection","volume":"10 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"1900-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Romanian Journal for Plant Protection","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.54574/rjpp.14.16","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
"Fountain grass, Cenchrus setaceus (Forssk.) Chiov. (syn. Pennisetum setaceum) is an invasive plant
with high impact on insular environments such as the Canary Islands. Although there are no mentions on C.
setaceus phytopathogens, plant communities with symptoms of withering, yellowing and decay have been found
in Canary Islands. Our project aims to find autochthonous potential biological control agents for C. setaceus.
Herein, we present a workflow in which we tested fast and cost-effective methods to screen a high number of
fungal strains, aiming features like fast colonizers as well as competitive saprophytes and facultative pathogens
with ability to cause infection. Affected plants were collected from the islands of Gran Canaria, Tenerife, La
Gomera, La Palma and Lanzarote and 243 fungal strains belonging to 38 genera were isolated. First screening was
performed on adult plants with pooled multiple species strains – spores suspensions of 10 random strains per pool,
each strain representing a genus or a morphotype (n = 83). No symptoms of disease were observed. Most isolated
genera in this study were Alternaria and Fusarium, known as cosmopolite phytopathogens. Next screening
methods were focused accordingly. Two in vitro single-strain screening methods were employed by using
mycelium-inoculated sectioned and entire leaves, to observe the ability of tissue colonization. First screening on
sectioned leaves was performed with high amount of inoculum, to increase the chances of colonization and to
determine the ability of fungi to use the plant material as substrate. The method was not effective in significantly
reducing the number of candidates as most strains had abundant growth. To detect differences in fungal strains
acting as facultative pathogens or phytopathogens, the 2nd single-strain screening was performed on
physiologically-stressed (pelargonic acid, a desiccant molecule to induce turgor loss) and not pre-treated leaves
using less inoculum. Six strains were selected and subsequently evaluated in the last in vivo screening in the
presence and absence of the desiccant. Finally, we detected strain 967 Fusarium clavum as able to colonize and
reproduce at the crown of the young plants. In view of our experimental process, we propose a workflow for the
cost-effective search for potential BCAs in similar situations."
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