White lupin (Lupinus albus) is an interesting crop for use as food, feed, forage or cover crop. However, its cultivation is currently limited because of its high susceptibility to the seed-borne pathogen Colletotrichum lupini, causal agent of lupin anthracnose. Twenty-eight seed treatments were studied here for their efficacy against lupin anthracnose, consisting of 4 hot water, 5 steam, 4 dry heat, 5 electron, 2 plant-based and 2 microbial treatments, as well as 6 controls. Experiments were divided into a germination assay and a pot-based disease assessment experiment. Treatment effects were studied by visual assessments of plants, culture-based incubation of plant tissue and quantitative polymerase chain reaction (qPCR)-based detection of Colletotrichum spp. in plants. Only the sodium hypochlorite control significantly impaired germination rate, normal germination rate and early vigour of seedlings. Culture-based incubation of epicotyl samples from 1.5-week old seedlings revealed significant treatment effects on the overall seed microbiome. No significant treatment effects were observed for plant vitality scores, percentage of diseased leaves and plant biomass at harvest. Colletotrichum spp. was detected in epicotyl samples of 1.5-week old seedlings and in shoot samples of 7.5-week old plants, but no significant treatment effects were observed. Absence of treatment effects could be due to insufficient power of the tested treatments, or to insufficient pathogen levels in the plants. No characteristic anthracnose symptoms were observed, and it is possible that the initial seed inoculum level was too low to lead to sufficient disease pressure in the plants. Nevertheless, the steam treatments significantly reduced the overall seed microbiome, and no Colletotrichum spp. was detected in seedlings or grown shoots, indicating a potential efficacy of the steam treatments against lupin anthracnose. The treatments dry heat 75°C/5h, electron at penetration depth 3 and intensity 3, and thyme oil also showed slight indications of efficacy against lupin anthracnose

Haesen, Esther

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Efficacy of non-synthetic seed treatments against anthracnose (Colletotrichum lupini) in white lupin

Efficacy of non-synthetic seed treatments against anthracnose (Colletotrichum lupini) in white lupin. Poster about master thesis

Partners 28 seed treatments: hot water (4 conditions), steam (5), dry heat (4),   electron (5), plant-based (2), microbial (2) and controls (6) Germination assay Pot-based disease assessment experiment Results Introduction Materials and Methods References Fig. 1. Twisting of stems and necrosis in petiole caused by anthracnose in white lupin (Talhinhas et al., 2016) Use of clean seeds, crop rotation, breeding (Talhinhas et al., 2016) Post-harvest treatment of seeds if production of clean seeds not possible Various physical and chemical seed treatments tested against lupin anthracnose, but no clear effective method identified Objectives Conclusion Decker. 1947. Plant Disease Reporter 31, 270-271. Nirenberg et al. 2002. Mycologia 94, 307-320.  Talhinhas et al. 2016. Journal of Plant Pathology 98, 5-14. Fig. 2. Mean percentages of epicotyl samples on growth medium that displayed fungal growth for different treatments.  Fig. 3. Mean concentrations of Colletotrichum spp. SporeEq/10 pooled epicotyl halves of different treatments. Green squares show mean treatment concentrations when both technical replicates of qPCR gave a signal; black points include concentrations when only one technical replicate gave a signal. Fig. 4. Mean log-transformed concentrations of Colletotrichum spp. SporeEq/g fresh shoot material of different treatments in pot experiment. Green squares show mean treatment concentrations when both technical replicates of qPCR gave a signal; black points include concentrations when only one technical replicate gave a signal. 4 replications RCBD Efficacy of non-synthetic seed treatments against anthracnose (Colletotrichum lupini) in white lupin Master‘s thesis Esther Haesen    1st of June – 30th November 2018 Supervisors: Prof. Dr. Bruno Studer, Dr. Pierre Hohmann, Dr. Roland Kölliker  MSc Agricultural Sciences Lupin anthracnose Seed-borne disease caused by fungus Colletotrichum lupini (Decker, 1947; Nirenberg et al., 2002) Main challenge to lupin cultivation worldwide (Talhinhas et al., 2016) Current control of disease a)  Identify effective seed treatment that reduces C. lupini in seed without impairing seed vigour b)  Assess practical relevance of promising seed treatments c)  Identify suitable method for detection of viable pathogen in plants/seeds No treatment with significant efficacy against Colletotrichum spp. identified, but steam treatments and to lesser extent dry heat 75°C/5h, electron penetration depth 3 and intensity 3, and thyme oil showed promise for follow-up research No impairment of seed vigour with these treatments ! Field emergence? High variation within replicates and low pathogen levels ! Use highly-infected seeds and/or extend plant growth period Only NaOCl control significantly impaired seed germination, normal seed germination and seedling early vigour (not shown) No significant differences using visual disease assessment of plants (not shown) Donors 

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Efficacy of non-synthetic seed treatments against anthracnose (Colletotrichum lupini) in white lupin

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