improvement of plant yield - an achievement of innovative plant protection strategies :heinz wilhelm...
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INRES-Phytomedicine – University of Bonn
Improvement of Plant Yield – an Achievement of Innovative PlantProtection Strategies
Heinz-W. Dehne
University of Bonn
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Development of fungicides:
- seed treatments against smut (Tilletia caries)
- protective chemicals against Phytophthora infestans (potato famine)
- plant systemic chemicals (benzimidazoles) - exhibiting curative activity
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Development of fungicides:
- seed treatments against smut (Tilletia caries)
- protective chemicals against Phytophthora infestans (potato famine)
- plant systemic chemicals (benzimidazoles) - exhibiting curative activity
- development of azoles (triazoles) – with broad spectrum activity= protective and curative= strong effects on host plant physiology (cytokinin-like effects)
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Development of fungicides:
- seed treatments against smut (Tilletia caries)
- protective chemicals against Phytophthora infestans (potato famine)
- plant systemic chemicals (benzimidazoles) - exhibiting curative activity
- development of azoles (triazoles) – with broad spectrum activity= protective and curative= strong effects on host plant physiology (cytokinin-like effects)
- development of morpholines (broad spectrum, further mode of action)= ideal for counteracting against azole resistance of fungal pathogens
- development of strobilurins (different systemicity)= systemicity influenced plant physiology and plant stress resistance
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Development of fungicides:
- seed treatments against smut (Tilletia caries)
- protective chemicals against Phytophthora infestans (potato famine)
- plant systemic chemicals (benzimidazoles) - exhibiting curative activity
- development of azoles (triazoles) – with broad spectrum activity= protective and curative= strong effects on host plant physiology (cytokinin-like effects)
- development of morpholines (broad spectrum, further mode of action)= ideal for counteracting against azole resistance of fungal pathogens
- development of strobilurins (different systemicity)= systemicity influenced plant physiology and plant stress resistance
- carboxamide fungicides = further mode of action and increasing photo-synthetic activity and resistance against abiotic stresses
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Penetration and distribution of different Strobilurines in and on the plant(mod. n. Bartlett et al. 2002)
properties of Strobilurines
penetration in leaf very limited to middle
redistribution by vapour phase not existent to existent
stability in plants limited to distinct
phloem-mobility none
transport into growing parts not existent to existent
translaminar transport limited to distinct
xylem-mobility not existent to existent
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Influence of Strobilurines on yield of winter wheat(‘Orestis’)
F+F-1 (EC 75):SEPTSP 5,2%PUCCRE 2,3% +18%
+26%
0
2
4
6
8
10
12
controluntreated
2x Azole 2x Strobilurines
Yiel
d [
t/ha
]
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Influence of fungicide application on green leaf area and yield in kernels
0
20
40
60
80
100
EC 69 EC 73 EC 83
gree
n le
af a
rea
(%)
untreatedAzoleStrobilurine
*
*
0
20
40
60
80
100
120
91,8
untreated
yiel
d in
dt/h
a
104,5
Azole
+ 14%
112,5
Strobilurine
+ 23%
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Influence of selected fungicides on quality* of wheat protein('Ritmo')
338
369 373
290
300
310
320
330
340
350
360
370
380
390
untreated Azole Strobilurine
Indi
ce d
e ch
ute
[ s
]
* Indice de chute (Hagberg)
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0
20
40
60
80
100
untreated
Azole
Green leaf area of wheat in dependence of fungicide-application ('Kanzler’, Mean F bis F-3)
30.05EC 39
05.06.EC 47
14.06.EC 67
25.06.EC 71
08.07.EC 75
15.07.EC 81
Leaf
are
a F
–F-
3 [
% ]
14.05EC 32
22.07.EC 87
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0
20
40
60
80
100
untreated
Azole
Green leaf area of wheat in dependence of fungicide-application ('Kanzler’, Mean F bis F-3)
30.05EC 39
05.06.EC 47
14.06.EC 67
25.06.EC 71
08.07.EC 75
15.07.EC 81
Leaf
are
a F
–F-
3 [
% ]
14.05EC 32
1. treatment 2. treatment
22.07.EC 87
damage bypowdery mildew
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0
20
40
60
80
100
untreated
Azole
Strobilurine
Green leaf area of wheat in dependence of fungicide-application ('Kanzler’, mean F to F-3)
30.05EC 39
05.06.EC 47
14.06.EC 67
25.06.EC 71
08.07.EC 75
15.07.EC 81
gree
n le
af a
rea
F –
F-3
[ %
]
14.05EC 32
1. treatment 2. treatment
22.07.EC 87
Strobilurine-effect
damage bypowdery mildew
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untreated Strobilurine 2 x
Delay in ripening
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Azole 2 x Strobilurine 2 x
delay in ripening II
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increase in yield
increased CO2-uptake
changes of phytohormone
levels
reduction of pathogens and
saprophytes
increased
photosynthetic rate
“greening effect”
reduced
respiration rate
Effects of Strobilurines on physiology of wheat plants
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Mitochondrium
inner membrane of mitochondriae
Matrix
Cristae
Construction and function of mitochondriae
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Matrix
Intracristae-hole
Mito
chon
dria
l mem
bran
Q
QH2
Q/QH2
Pool
Succinat-Dehydrogenase
Succinat
2 QH2
complex III
2 Q -
2 Q
QQ -
QH2
SFe Fe
SFe (c1)
Fe (b1)
Fe (bh)
2 H+
Q0 - site
Q1 - site
Fe (S)
2 H+2 H+
Antimycin AFuniculosin
strobilurine
Electron transport chain of mitochondriae and target ofStrobilurines ( n. Jagow, 1989; QoI und QiI)
Fumarat
-
complex II
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Electrontransport of photosynthesis
grana-stack
chloroplast
thylakoid-membrane
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Electron transportchain of chloroplasts andtarget of Strobilurines
PC
PC
LHC II LHC IICP47CP43
D2 D1
Cyt
b-5
59
Cyt b IV
RieskeCyt f
LHC I LHC I
PsaA PsaB
PsaF
FA FB
PsaL
FNR
Thyl
akoi
d-M
mem
bran
P700
FX
A1
A0
PsaC
PsaD PsaE
NADPH/H+NADP+
2 H+
Cyt
2 H+2 H+
H2O
2 H+ 1/2 O2
MnMn
MnMn
P 680Z
PheoPheo
D
QA QB
2 H+
QZ
Fe2S2
QC
PQ/PQH2
FD
FDStrobilurine
+Stroma
Intrathylakoid-space
modified after Rich et al. 1991
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Important biosynthesis pathways stimulated by energy from chloroplasts
CO2-Assimilation
SO42- -Assimilation
NO2--Reduction
CO2 + 4 H+ + 3 ATP C + 2 H2O
SO42- + 6 Fd red + 4 H+ + 2 ATP S2-
NO2-- + 6 Fd red + 8 H+ NH4 + 2 H2O
Production of energy and reduction-equivalents
(ATP und NADPH + H+, etc.)
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Chlorophyll Fluorescence-Measurement in the field
detection clip on wheat leaf
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0,0
0,1
0,2
0,3
0,4
0,5
0,6
EC 65 EC 75 EC 85
effe
ctiv
e qu
antu
m e
ffici
ency
of P
S II
untreated
Azole
yield in dt/ha
83,7
84,4
Influence of location and fungicide application at quantum efficiency of PSll and yield of grain (Meckenheim)
(SNK-Test, p<0,05)
ab
a
b
a
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0,0
0,1
0,2
0,3
0,4
0,5
0,6
EC 65 EC 75 EC 85
effe
ctiv
e qu
antu
m e
ffici
ency
of P
S II
untreated
Azole
Strobilurin A
Strobilurine B
Strobilurine C
yield in dt/ha
83,7
84,4
87,7
87,4
87,3
(SNK-Test, p<0,05)
cc
c
c
cc
ab
a
b
a
Influence of location and fungicide application at quantum efficiency of PSll and yield of grain (Meckenheim)
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0,0
0,1
0,2
0,3
0,4
0,5
0,6
EC 65 EC 75 EC 85
effe
ctiv
e qu
antu
m e
ffici
ency
of P
S II
untreated
Azole
Strobilurine A
Strobilurine B
Strobilurine C
76,0
86,8
92.3
91,4
91,2
yield in dt/ha
(SNK-Test, p<0,05)
c
c
b
c
a
c
c
c
b
a
Influence of location and fungicide application at quantum efficiency of PSll and yield of grain (Meckenheim)
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equipment
Gas exchange measurements in the field
equipment with gas cooling
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Chlorophyll Fluorescence-Measurement in the field
cuvetteoptimal illumination
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Influence of Wheat genotype on increase of yield by Strobilurines (3 Locations)
(SNK-Test, p<0,05)
0
1
2
3
4
5
6
7
8
Kanzler Jonas Flair Hybnos Gorbi Hanseat
Yiel
d in
crea
se [d
t/ha]
abab
b
aa
ab
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Influence of Strobilurines on utilisation of water in wheat('Kanzler‘, F-1, EC 71)
untreated
Azole
Azole + Strobilurine
utilisation of water [ µmol / mmol ]0 2 4 6 8 10 12 14
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0
10
20
30
3d p.a. 7d p. a. 10d p.a.assi
mila
tionr
ate
in µ
mol
CO
2/ m
2le
af a
rea
/ sec
.
Azol Strobilurin Azol + Stress Strobilurin + Stress
drought stress
Increase of Strobilurins and dry stress on wheat leaf assimilation (flag leaf)
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Increase in yield
increased CO2-uptake
changes in phytohormones
reduction of pathogens and
saprophytes
increase of
photosynthetic rate
“greening effect”
modified Stress-reactions
Institute for Plant Disease University Bonn
reduced
respiration rate
Effects of Strobilurines on crop physiology inwheat plants
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Conclusions: Positive effects of modern fungicides
• Strobilurines exert – before onset of senescence - an influence on the assimilation rate of plants
• additionally the increase in yield correlates with conservation of green leaf area
• Independence of susceptibility or resistance of variety
• Independence of yield potential of variety
• Plant genotype shows influence upon crop physiology of Strobilurines
• Strobilurines improve ability of compensation of plants
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Mycotoxin concentration in wheat ears and efficacy of fungicide treatment:
___________________________________________________________________
mycotoxin treatment concentration (ng/g) average maximum
___________________________________________________________________Deoxynivalenol untreated 2 263 6 601
azole ear application 464 508azole leaf & ear appl. 255 998
15-acetyl-DON untreated 130 232azole ear application 0 0azole leaf & ear appl. 0 0
Enniatin B untreated 108 227azole ear application 2 118azole leaf & ear appl. 1 117
___________________________________________________________________
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Innovative Plant Production and Plant Protection: _________________________________________________________________
- Control of organisms competing with host plants for space, nutrients, water – and even pests and plant diseases
- Improve plant yield and efficacy on a more an more getting smallerspace – save natural resources
- Combat international exchange and trade – transmission of pathogensand pests by trade and worldwide exchange
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Innovative Plant Production and Plant Protection: _________________________________________________________________
- Control of organisms competing with host plants for space, nutrients, water – and even pests and plant diseases
- Improve plant yield and efficacy on a more an more getting smallerspace – save natural resources
- Combat international exchange and trade – transmission of pathogensand pests by trade and worldwide exchange
- Avoid resistance to herbicides, insecticides and fungicides by thedevelopment of suitable plant protection strategies
- Make successfully use of innovative and environmentally safecompounds with beneficíal side effects on host plant physiology
-- Include innovative decision making technologies assisting the
practical farmer – one example: use of hyperspectral imaging
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Innovative Plant Production and Plant Protection: _________________________________________________________________
- innovative herbicides, insecticides and fungicides need to be plant systemic
- the chemicals have to be compatible with the crop plant
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Innovative Plant Production and Plant Protection: _________________________________________________________________
- innovative herbicides, insecticides and fungicides need to be plant systemic
- the chemicals have to be compatible with the crop plant
- the chemicals are generally single-site inhibitors
- so they are subject to resistance and need anti resistance strategies
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Innovative Plant Production and Plant Protection: _________________________________________________________________
- innovative herbicides, insecticides and fungicides need to be plant systemic
- the chemicals have to be compatible with the crop plant
- the chemicals are generally single-site inhibitors
- so they are subject to resistance and need anti resistance strategies
- innovative techniques have to assist the farmers to carry out the rightmeasures at the right time (e.g. in diagnosis of damaging agents)
- plant protection systems have to be adapted to different situationsand need to be optimized