Romina Morisoli scite author profile

Fusarium head blight (FHB) caused by Fusarium graminearum (FG) is a destructive disease impacting barley worldwide. The disease reduces the grain yield and contaminates grains with mycotoxins, such as the trichothecene deoxynivalenol (DON). Although the infection mainly affects the grain yield, little is known about its impact on grain structural and biochemical properties. Yet, such information is instrumental to characterize the facets of resistance in the grains. After artificial inoculation of six barley cultivars with FG in a 2 years field test, different levels of symptoms on spikes, of colonisation of grains and of DON content were observed. The infections caused a reduction in grain weight and an average decrease of 10% of the β-glucan content in grains, indicating alterations of grain filling, composition and structure. According to our results, we postulate the presence of two distinct resistance mechanisms in the grain, tolerance to grain filling despite infection as well as the inhibition of mycotoxin accumulation. Differently to wheat, in barley, type IV resistance (tolerance of the grain to infection) is directly linked with type III resistance (resistance against kernel infection). The resistance against toxin accumulation (named type V resistance in wheat) appeared to be independent to all other resistance types. Generally, the resistance was significantly influenced by the environment and by genotype x environment interactions explaining the generally weak stability of resistance in barley. Interestingly, a significant and inverse relationship between DON contamination and β-glucan content in grains suggests that high β-glucan content in grains contributes to type V resistance.

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Responses of Oat Grains to Fusarium poae and F. langsethiae Infections and Mycotoxin Contaminations

Martin

Schöneberg

Vogelgsang

et al. 2018

Toxins

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Recent increases of Fusarium head blight (FHB) disease caused by infections with F. poae (FP) and F. langsethiae (FL) have been observed in oats. These pathogens are producers of nivalenol (NIV) and T-2/HT-2 toxin (T-2/HT-2), respectively, which are now considered major issues for cereal food and feed safety. To date, the impact of FP and FL on oat grains has not yet been identified, and little is known about oat resistance elements against these pathogens. In the present study, the impact of FL and FP on oat grains was assessed under different environmental conditions in field experiments with artificial inoculations. The severity of FP and FL infection on grains were compared across three field sites, and the resistance against NIV and T-2/HT2 accumulation was assessed for seven oat genotypes. Grain weight, β-glucan content, and protein content were compared between infected and non-infected grains. Analyses of grain infection showed that FL was able to cause infection on the grain only in the field site with the highest relative humidity, whereas FP infected grains in all field sites. The FP infection of grains resulted in NIV contamination (between 30-500 µg/kg). The concentration of NIV in grains was not conditioned by environmental conditions. FL provoked an average contamination of grains with T-2/HT-2 (between 15-132 µg/kg). None of the genotypes was able to fully avoid toxin accumulation. The general resistance of oat grains against toxin accumulation was weak, and resistance against NIV accumulation was strongly impacted by the interaction between the genotype and the environment. Only the genotype with hull-less grains showed partial resistance to both NIV and T-2/HT-2 contamination. FP and FL infections could change the β-glucan content in grains, depending on the genotypes and environmental conditions. FP and FL did not have a significant impact on the thousand kernel weight (TKW) and protein content. Hence, resistance against toxin accumulation remains the only indicator of FHB resistance in oat. Our results highlight the need for new oat genotypes with enhanced resistance against both NIV and T-2/HT-2 to ensure food and feed safety.

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Stratégie de lutte envers une néophyte envahissante – exemple de la puéraire

Morisoli

Conedera²,

Moretti

et al. 2018

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Strategy to control an invasive neophyte: the study case of kudzu Kudzu (Pueraria lobata) is a vine native to East Asia that grows under optimal conditions up to 30 cm per day. In Switzerland, the species is found on the blacklist of the invasive neophytes. At present 41 spots covering 35 141 m2 are known in southern Switzerland. Historical spots known since 2006 have extended their area by 45% in the last six years, whereas 16 new spots have been registered and four sites have been eradicated. Seeds produced by mature lianas revealed to be viable and able to germinate in the wild. Kudzu has thus passed the naturalization stage and may soon enter the phase of a possible rapid expansion, what suggests adopting a strategy of systematic eradication of the species in the mid-term. Preliminary tests allowed to confirm the efficiency of the chemical and the mechanical (surgical removing of root crowns) control methods, the last allowing the treatment of kudzu in forest and in protected areas as well. Kudzu represents thus a good example for how combining early detection, better understanding of the ecology, and the development of suitable eradication methods of the species may allow to control or even systematically eradicate a species at reasonable costs.

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Romina Morisoli

Resistance against Fusarium graminearum and the relationship to β-glucan content in barley grains

Responses of Oat Grains to Fusarium poae and F. langsethiae Infections and Mycotoxin Contaminations

Stratégie de lutte envers une néophyte envahissante – exemple de la puéraire

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