Les rayonnements UV-C : un moyen de lutte pour stimuler les défenses du fraisier et de la tomate en cours de culture et améliorer la qualité / conservation des fruits après récolte / The UV-C radiation : a means of struggle to boost the defenses of strawberry and tomato plants during cultivation and improve quality/conservation of fruit after harvest

Forges, Marine

29 November 2018

Certains champignons sont très dommageables pour les plantes mais aussi pour la conservation après récolte des produits végétaux. Les restrictions réglementaires concernant l’utilisation des fongicides nécessitent de trouver des solutions alternatives. L'amélioration de la résistance des plantes en utilisant des méthodes physiques, comme les rayonnements UV, peut présenter une alternative prometteuse en association avec d’autres méthodes dans le cadre d’une protection intégrée des cultures. L'objectif de cette thèse a été d’étudier l’effet des rayonnements UV-C sur la sensibilité des plantes aux agents pathogènes. Les rayonnements UV-C ont été appliqués durant la culture, seuls ou en combinaison à des agents de biocontrôle, ou en post-récolte. Les expérimentations ont été menées sur deux espèces végétales : le fraisier et la tomate.Sur fraisier, des traitements UV-C à une dose de 1,70 kJ/m² entraînent une diminution systématique d'environ 20 % de la sensibilité des feuilles à Botrytis cinerea et diminuent jusqu’à 50 % le nombre de feuilles attaquées par Podosphaera aphanis, l’agent causal de l’oïdium. Chez la tomate, la protection des feuilles contre B. cinerea atteint 43 % avec une dose d’UV-C cumulée de 4,0 kJ/m². Ces mêmes traitements UV-C appliqués sur fruits réduisent la sensibilité des fraises vis-à-vis de Rhizopus de 75 % mais aucun effet n’est observé vis-à-vis de B. cinerea. Au contraire, sur fruits de tomate, la sensibilité est diminuée d'environ 63 % contre cet agent pathogène. Parallèlement, des tests biochimiques et gustatifs suggèrent que la qualité des fruits n’est pas significativement améliorée ni altérée par les expositions UV-C. Malgré un effet germicide marqué des rayonnements UV-C sur feuilles de fraisiers, aucun effet bénéfique de l’application de ces rayonnements sur le niveau d’efficacité d’agents de lutte biologique n’a été mis en évidence.Nos observations sont encourageantes pour envisager une utilisation de cette méthode dans un schéma de protection intégrée des cultures. Cependant, une compréhension claire de la façon dont les rayonnements UV-C sont perçus par les plantes et traduits en mécanismes de défense est nécessaire avant que leur utilisation ne soit recommandée sur le terrain. / Some fungi are very damaging during plant cultivation and also in post-harvest storage of products. Regulatory restrictions on fungicide use require alternative solutions. Improving plant resistance using physical methods, such as aplication of UV radiation, can be a promising alternative in association with other methods as part of an integrated pest management strategy. The objective of the present thesis was to study the effect of UV-C aplication on the sensitivity of plants to fungal pathogens. UV-C radiation was applied during plant cultivation, alone or in combination with biocontrol agents, or in post-harvest. Experiments were conducted on two plant species: strawberry and tomato.On strawberry plants, UV-C treatments at 1.70 kJ/m² result in a systematic 20 % decrease in leaves sensitivity to Botrytis cinerea and in a reduction by up to 50 % of the number of leaves infected by Podosphaera aphanis, the causal agent of powdery mildew. In tomato, leaves protection against B. cinerea reaches 43 % with a cumulative dose of 4.0 kJ/m². UV-C treatments applied on fruits reduce the strawberry sensitivity to Rhizopus by 75 % but no effect is observed against B. cinerea. On the contrary, sensitivity against B. cinerea is reduced by 63 % on tomato fruit. Biochemical and taste tests suggest that fruit quality is not significantly improved or altered by UV-C treatment. Despite a marked germicidal effect of UV-C radiation on strawberry leaves, it has no significant effect on the protective efficacy of biocontrol agents.Our observations are encouraging to consider the use of this tool in an integrated crop protection scheme. However, a clear understanding of how UV-C radiations are perceived by plants and their translation into defense mechanisms is necessary before their use is recommended in the field.

Fraisier

Tomate

UV-C

Botrytis cinerea

Podosphaera aphanis

Rhizopus

Biocontrôle

Qualité des fruits

Strawberry

Tomato

UV-C

Botrytis cinerea

Podosphaera aphanis

Rhizopus

Biocontrol

Fruit quality

Strawberry powdery mildew: epidemiology and the effect of host nutrition on disease.

Palmer, Sarah A.

January 2007

Knowledge of disease epidemiology and the impact of plant nutrient status on development of disease is fundamental in establishing effective management strategies for crop pathogens such as Podosphaera aphanis Br. (Braun et al., 2002), the causal agent of powdery mildew on strawberries. The following study investigated the conditions conducive for powdery mildew in strawberry crops in South Australia, the effect of foliar concentration of potassium and calcium on yield and pathogen development on the strawberry cultivars Aromas (resistant to powdery mildew) and Selva (susceptible), the potential for use of foliar-applied potassium silicate to control disease and identification of genes differentially expressed during disease. Meteorological conditions associated with establishment of powdery mildew were observed over three consecutive seasons in commercial strawberry crops grown in Woodside, South Australia. Conducive conditions appear to be >28 oC, <55 % relative humidity (RH) with no rain during the day (for conidiation), followed by a night with >10 oC, >90 % RH and no rain (for germination). Colony development was then promoted by days of >15 oC and <70 % RH, with nights of >8 oC, >80 % RH and less than 2 mm rain in every 24 hour period. These are consistent with epidemiological studies of this pathogen (Peries, 1962a; Jhooty and McKeen, 1964; Mukerji, 1968; Perera and Wheeler, 1975; Byrne et al, 2000; Miller et al, 2003; Blanco et al, 2004; Davik and Honne, 2005; Amsalem et al, 2006). This knowledge may facilitate prediction of times considered high risk for establishment of powdery mildew in strawberry crops. Subsequently, this may allow optimisation of fungicide application and improved management of this disease and reduced yield loss and management expenses. P. aphanis developed at an increased rate on leaves of Selva with low calcium content compared with development on normally fertilised leaves. Increased numbers of conidia germinated successfully on leaves of Aromas with low calcium content compared with development on normally fertilised Aromas leaves, however, the germinated conidia still failed to develop into sporulating colonies. Potassium nutrition had no obvious effect on P. aphanis development. Foliar concentration found to be adequate for growth of cultivars, Selva and Aromas were 6.0 mg/g and 4.5 mg/g Calcium, dry weight and 11.0 mg/g and 12.5 mg/g potassium, dry weight (respectively). Potassium silicate, buffered to pH 7.0 and applied as a foliar fertiliser, reduced the severity of powdery mildew below the economic threshold, though not below the disease severity on plants treated with the fungicide, Systhane® (Bayer CropScience). As potassium silicate can be produced organically this compound may provide a useful management tool for both organic and conventional strawberry growers. Although the cultivar Aromas was not immune to disease under conducive conditions and high inoculum load in the field, inoculation of healthy Aromas plants with P. aphanis in the laboratory failed to produce disease. Conidia were seldom found attached to the leaf surface of healthy Aromas leaves. Germination and subsequent colony development were also not observed in inoculated samples. This suggests there is some mechanism of Aromas that inhibits development of this fungus. Preliminary investigation of differential expression in Aromas inoculated with P. aphanis, identified sequences with homology to a putative antimicrobial protein and photosynthesis-related genes. The results of these studies should enable growers to increase both crop yields and control of powdery mildew, one of the major economic diseases in South Australia. The epidemiological knowledge attained will be valuable, and may provide the basis for future forecast modelling for P. aphanis in strawberry crops in South Australia. Recommendations for calcium and potassium leaf content will allow growers to monitor their fertiliser regime for increased yield of these cultivars. Aromas was identified as a powdery mildew resistant cultivar potentially suitable for production in South Australia, and the genes associated with this resistance response may be used in studies of Fragaria species and breeding for powdery mildew resistant cultivars. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1297684 / Thesis (Ph.D.) -- University of Adelaide, School of Agriculture, Food and Wine, 2007

Strawberries Growth.

Strawberries Nutrition.

Strawberry powdery mildew: epidemiology and the effect of host nutrition on disease.

Palmer, Sarah A.

January 2007

Knowledge of disease epidemiology and the impact of plant nutrient status on development of disease is fundamental in establishing effective management strategies for crop pathogens such as Podosphaera aphanis Br. (Braun et al., 2002), the causal agent of powdery mildew on strawberries. The following study investigated the conditions conducive for powdery mildew in strawberry crops in South Australia, the effect of foliar concentration of potassium and calcium on yield and pathogen development on the strawberry cultivars Aromas (resistant to powdery mildew) and Selva (susceptible), the potential for use of foliar-applied potassium silicate to control disease and identification of genes differentially expressed during disease. Meteorological conditions associated with establishment of powdery mildew were observed over three consecutive seasons in commercial strawberry crops grown in Woodside, South Australia. Conducive conditions appear to be >28 oC, <55 % relative humidity (RH) with no rain during the day (for conidiation), followed by a night with >10 oC, >90 % RH and no rain (for germination). Colony development was then promoted by days of >15 oC and <70 % RH, with nights of >8 oC, >80 % RH and less than 2 mm rain in every 24 hour period. These are consistent with epidemiological studies of this pathogen (Peries, 1962a; Jhooty and McKeen, 1964; Mukerji, 1968; Perera and Wheeler, 1975; Byrne et al, 2000; Miller et al, 2003; Blanco et al, 2004; Davik and Honne, 2005; Amsalem et al, 2006). This knowledge may facilitate prediction of times considered high risk for establishment of powdery mildew in strawberry crops. Subsequently, this may allow optimisation of fungicide application and improved management of this disease and reduced yield loss and management expenses. P. aphanis developed at an increased rate on leaves of Selva with low calcium content compared with development on normally fertilised leaves. Increased numbers of conidia germinated successfully on leaves of Aromas with low calcium content compared with development on normally fertilised Aromas leaves, however, the germinated conidia still failed to develop into sporulating colonies. Potassium nutrition had no obvious effect on P. aphanis development. Foliar concentration found to be adequate for growth of cultivars, Selva and Aromas were 6.0 mg/g and 4.5 mg/g Calcium, dry weight and 11.0 mg/g and 12.5 mg/g potassium, dry weight (respectively). Potassium silicate, buffered to pH 7.0 and applied as a foliar fertiliser, reduced the severity of powdery mildew below the economic threshold, though not below the disease severity on plants treated with the fungicide, Systhane® (Bayer CropScience). As potassium silicate can be produced organically this compound may provide a useful management tool for both organic and conventional strawberry growers. Although the cultivar Aromas was not immune to disease under conducive conditions and high inoculum load in the field, inoculation of healthy Aromas plants with P. aphanis in the laboratory failed to produce disease. Conidia were seldom found attached to the leaf surface of healthy Aromas leaves. Germination and subsequent colony development were also not observed in inoculated samples. This suggests there is some mechanism of Aromas that inhibits development of this fungus. Preliminary investigation of differential expression in Aromas inoculated with P. aphanis, identified sequences with homology to a putative antimicrobial protein and photosynthesis-related genes. The results of these studies should enable growers to increase both crop yields and control of powdery mildew, one of the major economic diseases in South Australia. The epidemiological knowledge attained will be valuable, and may provide the basis for future forecast modelling for P. aphanis in strawberry crops in South Australia. Recommendations for calcium and potassium leaf content will allow growers to monitor their fertiliser regime for increased yield of these cultivars. Aromas was identified as a powdery mildew resistant cultivar potentially suitable for production in South Australia, and the genes associated with this resistance response may be used in studies of Fragaria species and breeding for powdery mildew resistant cultivars. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1297684 / Thesis (Ph.D.) -- University of Adelaide, School of Agriculture, Food and Wine, 2007

Strawberries Growth.

Strawberries Nutrition.

Strawberry powdery mildew: epidemiology and the effect of host nutrition on disease.

Palmer, Sarah A.

January 2007

Knowledge of disease epidemiology and the impact of plant nutrient status on development of disease is fundamental in establishing effective management strategies for crop pathogens such as Podosphaera aphanis Br. (Braun et al., 2002), the causal agent of powdery mildew on strawberries. The following study investigated the conditions conducive for powdery mildew in strawberry crops in South Australia, the effect of foliar concentration of potassium and calcium on yield and pathogen development on the strawberry cultivars Aromas (resistant to powdery mildew) and Selva (susceptible), the potential for use of foliar-applied potassium silicate to control disease and identification of genes differentially expressed during disease. Meteorological conditions associated with establishment of powdery mildew were observed over three consecutive seasons in commercial strawberry crops grown in Woodside, South Australia. Conducive conditions appear to be >28 oC, <55 % relative humidity (RH) with no rain during the day (for conidiation), followed by a night with >10 oC, >90 % RH and no rain (for germination). Colony development was then promoted by days of >15 oC and <70 % RH, with nights of >8 oC, >80 % RH and less than 2 mm rain in every 24 hour period. These are consistent with epidemiological studies of this pathogen (Peries, 1962a; Jhooty and McKeen, 1964; Mukerji, 1968; Perera and Wheeler, 1975; Byrne et al, 2000; Miller et al, 2003; Blanco et al, 2004; Davik and Honne, 2005; Amsalem et al, 2006). This knowledge may facilitate prediction of times considered high risk for establishment of powdery mildew in strawberry crops. Subsequently, this may allow optimisation of fungicide application and improved management of this disease and reduced yield loss and management expenses. P. aphanis developed at an increased rate on leaves of Selva with low calcium content compared with development on normally fertilised leaves. Increased numbers of conidia germinated successfully on leaves of Aromas with low calcium content compared with development on normally fertilised Aromas leaves, however, the germinated conidia still failed to develop into sporulating colonies. Potassium nutrition had no obvious effect on P. aphanis development. Foliar concentration found to be adequate for growth of cultivars, Selva and Aromas were 6.0 mg/g and 4.5 mg/g Calcium, dry weight and 11.0 mg/g and 12.5 mg/g potassium, dry weight (respectively). Potassium silicate, buffered to pH 7.0 and applied as a foliar fertiliser, reduced the severity of powdery mildew below the economic threshold, though not below the disease severity on plants treated with the fungicide, Systhane® (Bayer CropScience). As potassium silicate can be produced organically this compound may provide a useful management tool for both organic and conventional strawberry growers. Although the cultivar Aromas was not immune to disease under conducive conditions and high inoculum load in the field, inoculation of healthy Aromas plants with P. aphanis in the laboratory failed to produce disease. Conidia were seldom found attached to the leaf surface of healthy Aromas leaves. Germination and subsequent colony development were also not observed in inoculated samples. This suggests there is some mechanism of Aromas that inhibits development of this fungus. Preliminary investigation of differential expression in Aromas inoculated with P. aphanis, identified sequences with homology to a putative antimicrobial protein and photosynthesis-related genes. The results of these studies should enable growers to increase both crop yields and control of powdery mildew, one of the major economic diseases in South Australia. The epidemiological knowledge attained will be valuable, and may provide the basis for future forecast modelling for P. aphanis in strawberry crops in South Australia. Recommendations for calcium and potassium leaf content will allow growers to monitor their fertiliser regime for increased yield of these cultivars. Aromas was identified as a powdery mildew resistant cultivar potentially suitable for production in South Australia, and the genes associated with this resistance response may be used in studies of Fragaria species and breeding for powdery mildew resistant cultivars. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1297684 / Thesis (Ph.D.) -- University of Adelaide, School of Agriculture, Food and Wine, 2007

Strawberries Growth.

Strawberries Nutrition.

Sustainable strawberry production and management including control of strawberry powdery mildew

Liu, Bo

January 2017

At present, the global population is increasing, while soil and fresh water resources for crop production are declining. It is important to adopt sustainable practices to optimise the use of limited natural resources without compromising the environment, and to enhance continuous production in the long term. The rapid growth of UK strawberry industry has been achieved through the precision use of varieties, nutrients and polythene tunnels. This intensive production has caused significant environmental impacts especially Greenhouse Gas (GHG) emissions from the production. Strawberry powdery mildew (Podosphaera aphanis) is a major fungal disease affecting strawberry production worldwide particularly in polythene tunnels. The disease can result in yield losses of up to 70% of the crop. A ruleQbased system was used in the field trials to predict high risk days of P. aphanis development, taking into account the optimal environmental conditions conducive to conidial germination and disease development. The results (Chapter 3) showed that the use of this prediction system achieved satisfactory control of P. aphanis in commercial strawberry production, with reduced fungicide applications compared with commercial spray programme. The results were consistent in two consecutive years and on different varieties. In addition, it was suggested that the use of the prediction system may also lead to lower GHG emissions associated with fewer fungicide applications, thereby benefit strawberry growers both environmentally and economically. Results from 2014 & 2015 silicon fertigation trials showed that the use of a silicon nutrient via the fertigation system reduced the strawberry susceptibility to P. aphanis and twoQspotted spider mites (Tetranychus urticae Koch) in two consecutive years on different varieties (Chapter 4). In both years, crops received the silicon nutrient only without fungicides had both lower rate of epidemic (r) and lower value of Area Under the Disease Progress Curve (AUDPC) (r = 0.0036, AUDPC = 475 in 2014; r = 0.001, AUDPC = 267 in 2015) compared with the untreated control (r = 0.0042, AUDPC = 662 in 2014; r = 0.0011, AUDPC = 281 in 2015). Silicon also delayed the epidemic buildQup in the silicon nutrient only treatment for approximately two weeks compared with the untreated control. Crops from the silicon nutrient plus fungicides treatment had lower susceptibility (r = 0.0012 in 2014; r = 0.0004 in 2015) than those from the fungicides only treatment (r = 0.0017 in 2014; r = 0.0005 in 2015) suggesting that the silicon nutrient may also enhance fungicides performance in reducing the epidemic buildQup when used together. Moreover, the presence of T. urticae on strawberry leaves was significantly lower (P < 0.001) in plants treated with the silicon nutrient than those without. In addition, initial results suggested that silicon may play a positive role in raising °Brix of strawberry leaf petiole, improving pollen viability, and influencing the length of flower receptacle and stamens. Maltmas Farm has a wide range of semiQnatural habitats that provide food and nesting resources for wild pollinators. Hoverflies, bumblebees and solitary bees were found to be the main wild pollinators that pollinate commercial strawberries at Maltmas Farm (Chapter 5). The number of pollinators in tunnels or open fields significantly correlated with the abundance of strawberry flowers (P < 0.05). Pollinator presence also differed between groups throughout the day and over the seasons. Hoverflies appeared early in the day and were abundant in summer months; bumblebees and solitary bees were present most of the day and throughout the season, whereas honeybees were only active in sunny days. Temperatures, relative humidity and cloud coverage also affected pollinator presence. In addition, pollinator activity was not significantly (P > 0.05) affected by the application of the silicon nutrient via the fertigation system. The integrated use of the prediction system (to reduce fungicide applications and subsequent GHG emissions), the silicon nutrient (to reduce crop susceptibility to P. aphanis and T. urticae), and sustainable farmland management (to encourage the presence of wild pollinators) could help strawberry growers to achieve a more sustainable production.

634

Évaluation du silicium (Si) contre le blanc du fraisier dans un système de production commerciale au champ

Goyette, Marie-Hélène

24 April 2018

Le blanc du fraisier (Podosphaera aphanis) est particulièrement nuisible chez les variétés à jour neutre puisque son cycle est favorisé par le climat présent en août et septembre, occasionnant ainsi, un usage abondant de fongicides. Dans une optique de lutte écologique, le silicium (Si) se démarque par ses propriétés prophylactiques chez plusieurs végétaux. Bien que le Si semble stimuler la résistance des fraisiers (Fragaria × ananassa Duch) au P. aphanis en culture hors-sol, il reste que son efficacité dans un contexte de production commerciale au champ demeure ambigüe. Dans ce projet, l'objectif était d'évaluer l'effet d'amendements en Si sur l'intensité du blanc du fraisier et sur les rendements dans un système de production en champ. Le contenu en Si dans les feuilles, l'intensité de la maladie et les rendements étaient les variables étudiées. Deux types d'amendements ont été évalués : le silicate de potassium, une formulation soluble appliquée en fertigation deux fois par semaine en 2015, et trois doses de silicate de calcium (wollastonite), une forme solide incorporée à la plantation en 2016. De plus, chaque traitement en Si a été mis en interaction avec trois cultivars. En 2015, la silice soluble n'a donné aucune augmentation significative du contenu en Si chez tous les cultivars testés, résultat concordant avec les données de rendements qui se sont avérées similaires chez les témoins et les plants traités. Également, en 2016, pour chacun des cultivars, les contenus en Si dans les plants n'ont pas été influencés par les trois doses de silicate de calcium. Par conséquent, aucun effet n'a été observé tant au niveau des rendements que de la répression du blanc. Nos résultats illustrent bien l'intérêt de valider la disponibilité d'acide silicique lors d'applications de fertilisants à base de Si expliquant ainsi les résultats contradictoires, parfois véhiculés, quant aux bénéfices du Si en agriculture.

S 405 UL 2017

Podosphaera aphanis

Fraisiers -- Essais en plein champ

Silicium

Silicates de calcium