Post on 25-Feb-2016
description
HOST-PARASITE INTERACTION REVEALS INTER- AND
INTRASPECIFIC VARIATION FOR PHELIPANCHE SPECIES
A G R I C U L T U R A L U N I V E R S I T Y O F A T H E N S
Lyra1, D., Economou1, G. and Kotoula-Syka2, E.1. Agricultural University of Athens Hellas
2. Democritus University of Thrace Orestiada Hellas
E-mail: dionyssialyra@yahoo.com
2nd International Conference on «Novel and Sustainable Weed Management in arid and semi-arid agro-ecosystems» 7-10 September Santorini Hellas
Introduction Material & Methods Results Discussion & Conclusions
Theory
building
O. minor
O. cumana Ph. aegyptiaca
Ph. ramosa O. crenata
(Gianniantonio Domina 2005)
Broomrapes as holoparasites
depend on their host-plants for resources
in order to secure their survival and perpetuation
Introduction Material & Methods Results Discussion & Conclusions
Theory
building
Orobanche and Phelipanche species
A varying degree of host-plant specificity
Introduction Material & Methods Results Discussion & Conclusions
O. minor Ph. aegyptiaca
Ph. ramosa
O. cumana O. crenata
What is host specificity?
Introduction Material & Methods Results Discussion & Conclusions
Introduction Material & Methods Results Discussion & Conclusions
HOST SPECIFICITY
O O
O O
O
CH3
CH3 CH3
H
OCH3 CH3 O
O O
O
CH3
OH
H
OCH3 CH3 O
O O
O
CH3
H
OH
Stimulan
ts
Seeds
5-DeoxystrigolOrobanchol
2‘-epi-Orobanchol
Hosts
Broomrapes
Root system
During host-parasite interaction,
A VARIATION
has been observed from both sides which has to do with………
Introduction Material & Methods Results Discussion & Conclusions
HOST SPECIFICITY
Introduction Material & Methods Results Discussion & Conclusions
Hosts
Broomrape
species
1st case
…stimulantsSolanaceae
Cannabidaceae
Compositae
Cruciferae
Cucurbitaceae
HOST SPECIFICITY
Introduction Material & Methods Results Discussion & Conclusions
Host
Broomrape
populations
Pop. 1
Pop. 2
Pop. 3
Pop. 4
2nd case… variable response
Introduction Material & Methods Results Discussion & Conclusions
HOST SPECIFICITY
Hosts
BroomrapesBroomrape seeds
demonstrate different sensitivity in the biochemical stimulus derived from plant-host
roots
Not all host plants do they exude
substances with the same chemical
composition
The main research objective
of our study
Introduction Material & Methods Results Discussion & Conclusions
Why are we interested in studying population diversity?
Populations are categorized according to the level of divergence between them
Variability (morphological, genetical, physiological, spatial heterogeneity)
Hybrids / Subspecies (Ph. ramosa / Ph. aegyptiaca)Races (O. cumana)
Host-specificity is one of the driver of genetic divergence
Impact on decision-making processes for Orobanche control
Broomrape plants were collected from naturally parasitized tobacco and
tomato crops
Sampling
Introduction Material & Methods Results Discussion & Conclusions
2002-2004
Ph. aegyptiaca
Ph. ramosa / Ph. aegyptiaca
Ph. ramosa
Introduction Material & Methods Results Discussion & Conclusions
Tobacco
Ph. ramosa
Results Discussion & ConclusionsIntroduction Material & Methods
Tomato
Results Discussion & ConclusionsIntroduction Material & Methods
20 Phelipanche ramosa populations28 Phelipanche aegyptiaca populations
Results Discussion & ConclusionsIntroduction Material & Methods
1st experiment• Hosts: 2 rapeseed varieties (EXACT, CALIFORNIA) -
tobacco3 Phelipanche ramosa populations4 Phelipanche aegyptiaca populations
2nd experiment• Host: tobacco13 Phelipanche ramosa populations6 Phelipanche aegyptiaca populations
3rd experiment• Host: tomato18 Phelipanche ramosa populations9 Phelipanche aegyptiaca populations
Results Discussion & ConclusionsIntroduction Material & Methods
Plastic bag assays were used to study hosts and holoparasite interactions
in vivo
MEASUREMENTS• Germinated
seeds
• Formed tubercles
Results Discussion & ConclusionsIntroduction Material & Methods
Statistical analysis* Data did not follow Normal Distribution
* Kruskal – Wallis test / Nemenyi test
* Box-Whisker plot
?
A E G
R A M
0 4 8 1 2 1 6 2 0 2 4
Mean
MedianOutliers
Interquartile range
Data range
1st experimentC a n o l a – To b a c c o
Results Discussion & ConclusionsIntroduction Material & Methods
CALIFORNIA EXACT TOBACCO0
20
40
60
80
100
CALIFORNIA EXACT TOBACCO0
20
40
60
80
100
CALIFORNIA EXACT TOBACCO0
4
8
12
16
20
24
a
b
b
CALIFORNIA EXACT TOBACCO0
1
2
3
4
5
a a
b
Formed tuberclesGermination (%)
Ph. ramosaPh. ramosa
Ph. aegyptiaca
Ph. aegyptiaca
a a
b
b
a
c
Interspecific variability
LA1 LA2 LA3 LA4 LA5 LA6 LA70
20
40
60
80
100O. ramosa O. aegyptiaca
LA1 LA2 LA3 LA4 LA5 LA6 LA70
6
12
18
24
30
36
LA1 LA2 LA3 LA4 LA5 LA6 LA70
20
40
60
80
100
LA1 LA2 LA3 LA4 LA5 LA6 LA70
3
6
9
12
15
LA1 LA2 LA3 LA4 LA5 LA6 LA70
20
40
60
80
100
LA1 LA2 LA3 LA4 LA5 LA6 LA70
2
4
6
8
CALIFORNIA EXACT TOBACCO
Form
ed tu
berc
les
Ger
min
atio
n (%
)
Intraspecific variability
c
d d
ab ab a
bc
O. ramosa
O. aegyptiaca
bc a
c a a
d
ab
O. ramosa O. aegyptiaca
a b
e
a
c
d
f
a a
d
a
b c
eO. ramosa O. aegyptiaca
c
a c
a
d
b
eO. ramosa O. aegyptiaca
a a a
a
c
a
b
O. ramosa O. aegyptiaca
B r o o m r a p e p o p u l a t I o n s
B r o o m r a p e p o p u l a t I o n s
B r o o m r a p e p o p u l a t I o n s
B r o o m r a p e p o p u l a t I o n s
B r o o m r a p e p o p u l a t I o n s
B r o o m r a p e p o p u l a t I o n s
(Phelipanche populations collected on tobacco same region-same year)
• Ph. ramosa‘s seeds germinated more by tobacco
• More host-specific
• Ph. aegyptiaca’s seeds germinated more by canola
• Less host-specific • Less tubercles on canola root system• More tubercles on tobacco root system
results
2nd experimentTobacco
Results Discussion & ConclusionsIntroduction Material & Methods
?
AEG
RAM
0 20 40 60 80 100
b
Ph. aegyptiaca
Ph. ramosa
Germination (%)
?
AEG
RAM
0 3 6 9 12 15
a
a
Ph. aegyptiaca
Ph. ramosa
Formed tubercles
a
Interspecific
Variability
? A1A2A3A4A5RARBRCRDRERFRGRHRI RJRKRLRM0
20
40
60
80
100O. ramosaO. aegyptiaca
?1 A 1 A 2 A 3 A 4 A 5 R A R B R C R D R E R F R G R H R I R J R K R L R M
0
3
6
9
12
15 O. ramosaO. aegyptiaca
For
med
tube
rcle
sG
erm
inat
ion
(%)
Phelipanche populations
Intraspecific
variability
Ph. ramosa populations collected on
tobacco different regions-
different years
Region 1 Collection year 2002
Region 2
2004Region
12003
Region 1 Collection year 2002
Region 22004
Region 1
2003
Region 22004
Region 22004
results
• Ph. ramosa‘s seeds germinated more compared to Ph. aegyptiaca’s seeds
• The number of tubercles was not statistical different for both species
• High variability among and within regions • High variability among and within collective
years
3rd experimentTomato
Results Discussion & ConclusionsIntroduction Material & Methods
?
AEG
RAM
0 20 40 60 80 100
Ph. aegyptiaca
Ph. ramosa
b
Germination (%)
?
AEG
RAM
0 4 8 12 16 20 24
b
Ph. aegyptiaca
Ph. ramosa
Formed tubercles
a
a
Interspecific
Variability
? 1? 2? 3? 4A1A2A3A4A5A6A7A8A9RARBRCRDRERFRGRHRIRJRKRLRMRNRORPRQRR0
20
40
60
80
100
O. ramosaO. aegyptiaca
? 1? 2? 3? 4A1A2A3A4A5A6A7A8A9RARBRCRDRERFRGRHRIRJRKRLRMRNRORPRQRR0
4
8
12
16
20
24 O. ramosaO. aegyptiaca
Phelipanche populations
For
med
tube
rcle
sG
erm
inat
ion
(%)
Intraspecific
variability
Ph. ramosa populations collected on
tobacco different regions-
different years
Region 3 Collection year 2002
Region 4
2004
Region 2
2004
Region 3Collection year 2002
Region 42004Region
22004
Region 12004
Region 12004
Region 32003
Region 32003
results
• Ph. ramosa‘s seeds germinated more compared to Ph. aegyptiaca’s seeds
• The number of tubercles was statistical different for both species
• High variability among and within regions • High variability among and within collective
years
• Ph. ramosa seems to be more host-specific
Results Discussion & ConclusionsIntroduction Material & Methods
• Tobacco – a traditional crop• Canola – a newly introduced cultivation
Why were not many tubercles formed on canola root system by Ph. ramosa (1st experiment)?
Why were not many tubercles formed on tobacco root system by Ph. ramosa, although germination was high (1st
experiment)? • Tobacco variety
• Second level of resistance
Are Ph. aegyptiaca/Ph. ramosa highly host-specified species ? No
Results Discussion & ConclusionsIntroduction Material & Methods
Massive collections of seeds
Where can population variability be attributed?
WeightShapeSizeSeed coat
Physiological age
Dormancy
Genetic material
Results Discussion & ConclusionsIntroduction Material & Methods
Spatial heterogeneity
Climate
Landscape Topography
Soil