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Communication between plants and Trichoderma spp
Name of the speaker: Professor Maria Isabel Trillas (PhD Biology, Full time lecturer University of Barcelona, co-founder Biocontrol Technologies, finalist EU WomenInnovator Prize 2017)Company: Biocontrol Technologies, S.L.
Topic: 3. Microbials
Summary: Reduction of plant diseasesby Trichoderma spp. goes further than antagonism /competition with pathogens, they also enhance plant resistance. In addition, plants play an active role in the maintenance of the beneficial interaction.
Trillas, M.I., Segarra G., Casanova, E., Fernández, [email protected]
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*PhD Biology, Full time lecturer Universitat de Barcelona, co-founder BiocontrolTechnologies, finalist EU Women Innovator Prize 2017)
Communication between plants and Trichoderma spp
Name of the speaker: Professor Maria Isabel Trillas (PhD Biology, Full time lecturer University of Barcelona, co-founder Biocontrol Technologies, finalist EU WomenInnovator Prize 2017)Company: Biocontrol Technologies, S.L.
Topic: 3. Microbials
Summary: Reduction of plant diseasesby Trichoderma spp. goes further than antagonism /competition with pathogens, they also enhance plant resistance. In addition, plants play an active role in the maintenance of the beneficial interaction.
Trillas, M.I., Segarra G., Casanova, E., Fernández, [email protected]
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R. James Cook – Kenneth F. Baker. Chapter 6. The host and biological control. In: The Nature and Practice of Biological Control of Plant Pathogens. 1983. The American Phytopathological Society.
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REDUCTION Population of PATHOGEN
Changes at according the
population of T34 applied to the roots
ISR /SAR
At 107 cfu/ml
JA SA Peroxidase
17 proteins 11 proteins
regulated
+ Pseudomonas syringae pv. lachrymans5 x107 spores/ml
T34 1x105 or 1x106 or 1x107
cfu/ml growth media
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+ P. syringae pv tomato2,5 x107 cfu/ml
+ Hyaloperonospora parasitica5 x104 spores/ml
+ Plectosphaerella cucumerina5 x106 spores/ml
DISEASE REDUCTION BROAD SPECTRUM
ISR
T34 populations 10 fold
PEROXIDASE CHITINASE
CALLOSEDeposition
T34 1x105 cfu/ml growth media
priming
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+ Hyaloperonospora parasitica5 x104 spores/ml
T34 1x105 cfu/ml growth media
ISR
Arabidopsis mutants: sid2-1, npr1-1 and myb72-1
MYB72, NPR1required
priming
LOX 2 gen(LIPOXYGENASE2)
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+ B. cinerea1x105 conidia/ml
E. Fernández, G. Segarra and M.I. Trillas. Physiological effects of the induction of resistance by compost or Trichoderma asperellum strain T34 against Botrytis cinerea in tomato. 2014. Biological Control 78:77-85.
ISR
DISEASE SEVERITY (35)%
IMPROVED PLANT GROWTH
Nutrient uptakeMg, P, Cu, Bo
δ13C, δ15NBetter allocation
Leaf area Height Biomass T34 1x105 cfu/ml growth media
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+ B. cinerea1x105 conidia/ml
T34 1x105 cfu/ml growth media
ISR
DISEASE SEVERITY (25)%
Changes (200 metabolite
peaks) in the secretion pattern root exudates
gluconic acid Inositol sucrose
Communication between plants and Trichoderma spp
Name of the speaker: Professor Maria Isabel Trillas (PhD Biology, Full time lecturer University of Barcelona, co-founder Biocontrol Technologies, finalist EU WomenInnovator Prize 2017)Company: Biocontrol Technologies, S.L.
Topic: 3. Microbials
Summary: Reduction of plant diseasesby Trichoderma spp. goes further than antagonism /competition with pathogens, they also enhance plant resistance. In addition, plants play an active role in the maintenance of the beneficial interaction.
Trillas, M.I., Segarra G., Casanova, E., Fernández, [email protected]
12