Post on 27-Mar-2020
Université Laval
Faculty of Science and Engineering
Biology Department
Presented by: Mohamed Amine AYARI
Laboratory of Pr. Line LAPOINTE
March 15th, 2019 1
Challenges of cultivating saffron under cold climate
2
Scheme of the annual cycle and the principal growth stages of saffron
Lopez-Corcoles, 2007
Introduction Soil Warming Planting Period Fertilization Conclusion
Flower
induction
Flowering
Appearance of
the first leaves
The foliage becomes denser and
continues to lengthen
Yellowing and
disappearing leaves
Dormancy
Warm
Climate
Cold
Climate
Beginning of
root growth
Warm
Climate
Cold
Climate
leaves
corms
3
WinterFall SummerSpring
Flowering Dormancy
Senescence
Snow: No photosynthesisDormancyshortenedIn cold climate
Flower
induction
Avinash Sharma, 2015
Introduction Soil Warming Planting Period Fertilization Conclusion
Photosynthesis
4
• Climate: cooler summer, snow cover for 5 months
deeper planting (Escape frost in winter)
• No irrigation needed
• Planting: on ridges and ideally on slopes (to improve
drainage),
• Weeds: fields overgrown with weeds during second
summer
Distinctive features under cold climate
Introduction Soil Warming Planting Period Fertilization Conclusion
5
Floral Induction
Ve
rnalizatio
n
Nutrition
Tem
per
atu
re
Summer
23-27 ° C
High
temperature
(Initiation)
Release of dormancy
Emergence
17°C
Introduction Soil Warming Planting Period Fertilization Conclusion
6
Floral Induction
Ve
rnalizatio
n
Nutrition
Tem
per
atu
re
Summer
23-27 ° C
High
temperature
(Initiation)
Release of dormancy
Emergence
17°C
Introduction Soil Warming Planting Period Fertilization Conclusion
Soil warming
Planting Period
Soil warming effect on
floral induction
7
Objectives:
• Increase soil temperature during the dormancy period using mini-tunnels
and mulch to increase floral induction.
• Document the most advantageous method.
• Quantify the impact of these different techniques on weed control.
Soil warming experimentIntroduction Soil Warming Planting Period Fertilization Conclusion
8
• Organic corms from the Netherlands 25 cm deep planted in August 2016
Treatments:
• “MT": Installation of mini-tunnels (30% leaf yellowing)
• “MT-M": Installation of mini-tunnels (30% yellowing), then removal of
tunnels and laying of black mulch (2017) or solar mulch (2018) (> 75%
yellowing)
• “M": Laying black mulch (2017) or solar mulch (2018) (> 75% yellowing)
• “C": Control
9
Introduction Soil Warming Planting Period Fertilization Conclusion
2017 2018
10
Introduction Soil Warming Planting Period Fertilization Conclusion
Figure 5. Mean (± standard error) of daily temperatures by treatment. Different letters
indicate significant differences between treatments.
2017 2018
11
Introduction Soil Warming Planting Period Fertilization ConclusionM
ean
da
ily
tem
per
atu
re(°
C)
0
5
10
15
20
25
MT MT-M M C
Mea
nd
ail
yte
mp
era
ture
(°C
)Treatment
b ba
c
Weed manual control
Total time (min) spent weeding per plot per m2 by treatment for the entire season.
12
Introduction Soil Warming Planting Period Fertilization Conclusion
2017 2018
Wee
din
gm
an
ag
emen
t ti
me
(min
)
Wee
din
gm
an
ag
emen
t ti
me
(min
)
• In 2017: 14 flowers / 960 corms (1.5%)
• Attributed to late emergence and flowering (1st flower November 18th,
persistent ground snow November 23rd)
• In 2018: 7 flowers / 936 corms (0.7%) ..., some problems
Require additional repetitions to determine the impact on saffron yield!
Flowering and harvest
13
Introduction Soil Warming Planting Period Fertilization Conclusion
Effect of planting period on
saffron yield
14
Planting Period experiment
Objective: To test the effect of planting date on plant growth and saffron yield
• Corms grown in Quebec(origin: France) planted in July to September 2017
• Plots of 40 corms
Treatments:
• Planting July 25
• Planting August 7
• Planting August 21
• Planting September 5
Introduction Soil Warming Planting Period Fertilisation Nutrients
15
Shoot emergence over time for each treatment
16
Introduction Soil Warming Planting Period Fertilisation Nutrients
Emer
gen
tsh
oo
t/p
lot
(%)
Plots of 40 corms
Number of flowers per plot per treatment and date
17
Introduction Soil Warming Planting Period Fertilisation Nutrients
Nu
mer
of
flo
wer
s
Plots of 40 corms
Dry saffron harvest per plot according to the treatment
18
Introduction Soil Warming Planting Period Fertilisation Nutrients
Dry
saf
fro
n(g
/m2)
Effects of fertilization, mycorrhizas
and bio-stimulants on saffron
growth and yield
19
Objective: To test the individual and synergistic effect of
organic fertilization, mycorrhizas and various biostimulants on
saffron yield and growth,
* Planting on August 2017 combination of 12 treatments
Fert
ilizati
on, m
ycorr
hizati
onan
d bio
-stimu
lants
20
Introduction Soil Warming Planting Period Fertilization Conclusion
21
Bioprotection
Soil stabilization
Bioregulation
Biofertilization
Introduction Soil Warming Planting Period Fertilization Conclusion
Biostimulant
Better germination and
root development
Optimization of the metabolic
process
Better vitality and stress resistance
Increased yield in quality and
quantity
22
Roles of biostimulants
Source: http://ag.alltech.com/en/blog/athlete-style-nutrition-plant-science-biostimulants
Composition of biostimulant:
Algae, microbes, chitin, plant
extracts, humic and fulvic acid.
Introduction Soil Warming Planting Period Fertilization Conclusion
23
Fert
ilizati
on, m
ycorr
hizati
onan
d bio
-stimu
lants
FertilizationAbsence F0
Presence F1
mycorrhizasAbsence M0
Presence M1
Bio-stimulant
Absence B0
Earth Alive B1
Turitek B2
Feather meal 13-0-0 (462 kg / ha),
fossil bone 0-13-0 (1538 kg / ha)
and Sul-Po-Mag 0-0-22 (1136 kg /
ha).
Myke Pro Gazon G (Premier
Tech):20g/corm
Introduction Soil Warming Planting Period Fertilization Conclusion
Liquid solution 4
kg/ha; and 15 ml
on each side of
each corm at the
time of planting
Soak the corms for 4
hours in 15 ml of
Turitek per liter of
water
Then, watering every
three weeks (0.23 ml
Turitek / m2)
24
Field measures and Harvesting
*Harvesting of roots
One root / plant; 3 plants / plot
Evaluate mycorrhization rate
*Harvest of 6 corms / plot
(Annual growth)
Measure of the diameter and dry weight of corms
*Drying of corms for
nutrient analyses and
weight
Introduction Soil Warming Planting Period Fertilization Conclusion
roots were mycorrhized
Treatment
F0 F1
Mass o
f la
rgest
corm
(g)
0
2
4
6
8
10
12
14a
b
Effects of fertilization on number of corms, total mass, mean mass and mass of
largest corm (g)
25
Introduction Soil Warming Planting Period Fertilization Conclusion
Treatment
F0 F1
Mean c
orm
mass (
g)
0
1
2
3
4
5
6
7
a
b
Treatment
F0 F1
Tota
l corm
mass (
g)
0
5
10
15
20
25
30
a
b
Treatment
F0 F1
Num
ber
of
corm
s
0
1
2
3
4
5
6a
b
Around 7.5 g for the grade 8
26
Introduction Soil Warming Planting Period Fertilization Conclusion
Effects of fertililization on:
0
2
4
6
8
10
12
14
16
Co
nce
ntr
atio
n (
mg
/g) N a
b
F0 F1
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1C
once
ntr
atio
n (
mg/g
)Mg
F0 F1
a
b
0
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
1.8
Co
nce
ntr
atio
n (
mg/g
)
P
F0 F1
ab
• The use of the mini-tunnels and mulch helped us to control
weed and to reduce the time of hand weeding
• The most advantageous method to increase the soil
temperature is the solar mulch
• The best period of planting is August 21.
• Fertilization improve saffron growth.
27
Introduction Soil Warming Planting Period Fertilization Conclusion
Conclusion
28
Thank you for
your attention
29
Corm nutrient concentrations
Introduction Soil warming Planting Period Fertilization Conclusion
0.00.20.40.60.81.01.21.41.61.8
B0 B1 B2 B0 B1 B2 B0 B1 B2 B0 B1 B2
F0 F1 F0 F1
M0 M1
P, Ca, Mg (mg/g)
P mg/g Ca mg/g Mg mg/g
Co
nce
ntr
atio
n (
mg
/g)
0
2
4
6
8
10
12
14
16
B0 B1 B2 B0 B1 B2 B0 B1 B2 B0 B1 B2
F0 F1 F0 F1
M0 M1
N,P,K (mg/g)
N mg/g K mg/g
Co
nce
ntr
atio
n (
mg
/g)
• Introduction
• Soil warming
• Planting Period
• Fertilization
• Conclusion
30
Plan
31
Field measures
Probe Thermochron
iButton
Impact of the treatments
on the growth and
development conditions of
corm
1 probe / plot
20cm deep
Introduction Soil warming Planting Period Fertilization Conclusion
32
Introduction Soil warming Planting Period Fertilization Conclusion
0
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
1.8
Co
nce
ntr
atio
n (
mg/g
)
P0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1C
once
ntr
atio
n (
mg/g
)Mg
Effects of
fertililization on
0
2
4
6
8
10
12
14
16
Co
nce
ntr
atio
n (
mg
/g) N a
b
F0 F1