Response of Chinese potato (Colocasia esculenta, Araceae) to abiotic and biotic stress, and the effectiveness of treatment with the fungus Trichoderma harzianum.
C E Ortiz Vásquez, N Rodríguez Castillo, A Zuluaga Trochez
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Abstract
Climate change intensifies drought, which increases susceptibility to phytopathogens in several crops such as the Chinese potato (Colocasia esculenta). This species is cultivated in tropical areas mainly for the production of corms, which are affected by Fusarium oxysporum dry rot. Phytopathology treated with toxic chemicals, which highlights the biocontroller Trichoderma harzianum, which also helps reduce the effects related to drought in other crops. Therefore, the objective was to characterize the response of C. esculenta to drought and infection by F. oxysporum, and the effectiveness of treatment with T. harzianum. Greenhouse tests were carried out with three factors (F. oxysporum, T. harzianum and drought), each with two levels (presence and absence) (N=48). Plant growth was evaluated for 30 days, in addition to the relative chlorophyll content, maximum efficiency of photosystem II, water content (WC%), incidence and severity. It was obtained that abiotic and biotic stress decreases growth. Drought lowered photosynthetic efficiency, and both stressors reduced chlorophyll in plants not treated with T. harzianum. Stress decreased leaf and corm WC%, but this effect was reduced by the biocontroller. This fungus reduced the incidence of F. oxysporum, and the severity of foliar symptoms for both types of stress. In conclusion, abiotic and biotic stress differentially impacts C. esculenta, and T. harzianum tends to improve growth under stress. However, more studies are required to evaluate its benefit on productivity. This work is one of the first to describe the stress response of this crop, and highlights its importance for future technification plans.
气候变化加剧了干旱,增加了中国马铃薯(Colocasia esculenta)等几种作物对植物病原体的易感性。该物种在热带地区的种植主要是为了生产球茎,而球茎会受到镰刀菌(Fusarium oxysporum)干腐病的影响。植物病理学使用有毒化学品进行治疗,这就突出了生物控制剂毛霉,它也有助于减少干旱对其他作物的影响。因此,我们的目标是描述 C. esculenta 对干旱和 F. oxysporum 感染的反应,以及用 T. harzianum 处理的效果。温室试验中使用了三个因子(草疽穗霉菌、T. harzianum 和干旱),每个因子有两个水平(存在和不存在)(N=48)。除了叶绿素相对含量、光系统 II 的最大效率、含水量(WC%)、发病率和严重程度外,还对植物生长情况进行了为期 30 天的评估。结果表明,非生物和生物胁迫都会降低生长。干旱降低了光合效率,这两种胁迫都降低了未施用鱼腥草的植物的叶绿素。胁迫降低了叶片和茎秆的 WC%,但生物控制剂降低了这种影响。在两种胁迫下,这种真菌都能降低 F. oxysporum 的发病率和叶面症状的严重程度。总之,非生物和生物胁迫对 C. esculenta 的影响是不同的,而 T. harzianum 往往能改善胁迫下的生长。不过,还需要更多的研究来评估它对生产力的益处。这项研究是首次描述这种作物的胁迫反应的研究之一,并强调了其对未来技术改造计划的重要性。
期刊介绍:
The BJB – Brazilian Journal of Biology® is a scientific journal devoted to publishing original articles in all fields of the Biological Sciences, i.e., General Biology, Cell Biology, Evolution, Biological Oceanography, Taxonomy, Geographic Distribution, Limnology, Aquatic Biology, Botany, Zoology, Genetics, and Ecology. Priority is given to papers presenting results of researches in the Neotropical region. Material published includes research papers, review papers (upon approval of the Editorial Board), notes, book reviews, and comments.
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