kitam) cv. “Candid”
Transcript of kitam) cv. “Candid”
Congenial in vitro γ- ray induced Mutagenesis underlying the diverse array of petal colours in chrysanthemum (Dendranthemum grandiflorum kitam) cv ldquoCandidrdquo
Ambreena Din1 ZAQadri1 Muneeb Ahmad Wani1 ZARather1 Shameen Iqbal1 Sajid Ali Malik1 Peerzada R Hussain2 SadafRafiq1 and ITNazki1
1Division of Floriculture and Landscape Architecture Faculty of Horticulture Sher-e-KashmirUniversity of Agricultural Sciences and Technology of Kashmir Jammu and Kashmir India 2Astrophysical Sciences DivisionNuclear Research Laboratory Bhabha Atomic Research Centre Srinagar India
Corresponding author E-mail dinambreenagmailcom
Abstract
Chrysanthemum (Dendranthemum grandiflorum kitam) is a leading flower with applied value worldwide The flower color of ancestral species is limited to yellow
pink and white and is derived from carotenoids anthocyanins and the absence of both pigments respectively A wide range of flower colors including purplish-red
orange red and dark red has been developed by increasing the range of pigment content or the combination of both pigments Recently green-flowered cultivars
containing chlorophylls in their ray petals have been produced and have gained popularity In addition blueviolet flowers have been developed using a transgenic
approach Flower color is an important trait that influences the commercial value of chrysanthemum cultivars Developing new chrysanthemum cultivars with novel
characteristics such as new flower colors in a time- and cost-efficient manner is the ultimate goal for breeders Understanding the molecular mechanisms that regulate
flower pigmentation may provide important implications for the rationale manipulation of flower color To generate diverse array of flower colour mutants in
chrysanthemum cv ldquoCandidrdquo through mutagenesis in vitro grown micro shoots were exposed to 10 20 30 and 40 Gy gamma irradiation at 100 Gy per minute and
were evaluated for different parameters The rhizogenesis parameters decreased with the increase in irradiation dose from 0 Gy to 40 Gy while as 10 Gy dose proved
to record minimum decline as compared to the control Survival leaf size and number of leaves plant-1 a1048990 er 8th week interval also decreased with the increasing
trend of gamma irradiation dose but recorded minimum decline in plants developed from shoots irradiated with 10 Gy gamma irradiation dose with respect to the
control Apparently minimum delay in number of days to floral bud appearance took under 10 Gy as compared to control Highest number of flower colour mutants
were recorded under 10 Gy (light pink orange pinkwhite and yellow) Amountable mutation frequency on the basis of flower colour was desirable in plants irradiated
with least dose of 10 Gy
Keywords Chrysanthemum Mutagenesis Gamma Irradiation Mutants
Technical ProgrammeI Plant material
Explant Shoot tips
IIVariety
Candid
To generate diverse array of flower colour mutants through mutagenesis
ldquoObjectivesrdquo
Details of the Treatment
T1Mercuric chloride 01 for 2 and 4 minutes
T2Sodium hypochlorite 01 for 2 and 4 minutes
T3Carbendazim 100 and 200 ppm for 30 minutes followed by Mercuric chloride 01
for 2 and 4 minutes followed by 70 ethyl alcohol dip for 10 seconds
T4Carbendazim 100 and 200 ppm for 30 minutes followed by Sodium hypochlorite 01
for 2 and 4 minutes followed by 70 ethyl alcohol dip for 10 seconds
IIIExplant sterilization
Omissions incremental increasedecrease in the typenature of sterilantschemicals time
duration of application strength of sterilantchemicals combinations shall be tried in case
aforementioned treatments are not found satisfactory
IV Basal culture media used
Murashige and Skoog medium (1962)
V Growth regulators used for morphogenesis
i) Auxins
Indole Butyric Acid (IBA) (05-5 mg l-1)
Naphthalene Acetic Acid (NAA) (05-10 mg l-1)
2 4-Dichlorophenoxyacetic acid (2 4-D) (05-5 mg l-1)
Indole Acetic Acid (IAA) (05-5 mg l-1)
ii) Cytokinins
Benzyl Amino Purine (BAP) (05-5 mg l-1)
Kinetin (05-10 mg l-1)
iii) Gibberelic Acid (GA3) (02-05 mg l-1)
Omissions incremental increasedecrease in the constituents of basal media concentration of growth
regulator combinationschemicals shall be tried in case no satisfactory results are obtained with
aforementioned concentration ranges
VI Hardening of rooted plantlets
The plantlets will be transferred to containers containing appropriate
dosages of shoot and root promoting hormones along with controlled light and
temperature regimes Latter the semi-hardened plantlets shall be transferred to
containers with different hardening media components like vermiculite
perlite sterilized sandsoil etc
ldquoEffect of gamma-irradiation on in-vitro cultured explant of
chrysanthemumrdquo
I Varieties
a) Candid
II Explant
Shoot tips (in-vitro)
III Gamma irradiation doses
Explant were irradiated at a dose rate of 100 Gy per minute at 10 2030 and 40 Gy Untreated explant were
used as control
Observations recorded
Number of irradiated shoots rooted ()
Number of roots per shoot
Survival of plants ()
Leaf size (lengthwidth)
Leaf number
Number of days to bud appearance
xii) Plant height at flowering
Flower colour
Mutation frequency
Statistical analysis
CRD with 3 replications
Table 1 Influence of 60Co gamma irradiation on rhizogenesis in shoots of Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose Rooting () Root number shoot-1
0 Gy8928
(944)
1575
-
10 Gy
8571
(926)
(190)
775
(5079)
20 Gy
7976
(893)
(540)
550
(6507)
30 Gy
7499
(866)
(826)
300
(8095)
40 Gy
7380
(859)
(900)
275
(8253)
LSD Ple005 018 090
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Rooting
10 Gy 20 Gy 30 Gy 40 Gy
10 Gy 20 Gy 30 Gy 40 Gy
Table 2 Influence of 60Co gamma irradiation on survival of rooted plantlets under polyhouse conditions in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Survival ()
Dose Week 4th Week 8th Mean
0 Gy 9523
(976)
9523
(976)
9523
(976)
10 Gy 8571
(925)
(522)
8214
(906)
(717)
8392
(916 )
20 Gy 7618
(872)
(1065)
6785
(823)
(1567)
7001
(848)
30 Gy 6190
(786)
(1946)
5356
(731)
(2510)
5773
(759)
40 Gy 5356
(731)
(2510)
4047
(634)
(3504)
4001
(683)
Mean 7451
(858)6785
(814)
LSD Ple005
Week 017
Dose 0 27
WeekDose 039
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Abstract
Chrysanthemum (Dendranthemum grandiflorum kitam) is a leading flower with applied value worldwide The flower color of ancestral species is limited to yellow
pink and white and is derived from carotenoids anthocyanins and the absence of both pigments respectively A wide range of flower colors including purplish-red
orange red and dark red has been developed by increasing the range of pigment content or the combination of both pigments Recently green-flowered cultivars
containing chlorophylls in their ray petals have been produced and have gained popularity In addition blueviolet flowers have been developed using a transgenic
approach Flower color is an important trait that influences the commercial value of chrysanthemum cultivars Developing new chrysanthemum cultivars with novel
characteristics such as new flower colors in a time- and cost-efficient manner is the ultimate goal for breeders Understanding the molecular mechanisms that regulate
flower pigmentation may provide important implications for the rationale manipulation of flower color To generate diverse array of flower colour mutants in
chrysanthemum cv ldquoCandidrdquo through mutagenesis in vitro grown micro shoots were exposed to 10 20 30 and 40 Gy gamma irradiation at 100 Gy per minute and
were evaluated for different parameters The rhizogenesis parameters decreased with the increase in irradiation dose from 0 Gy to 40 Gy while as 10 Gy dose proved
to record minimum decline as compared to the control Survival leaf size and number of leaves plant-1 a1048990 er 8th week interval also decreased with the increasing
trend of gamma irradiation dose but recorded minimum decline in plants developed from shoots irradiated with 10 Gy gamma irradiation dose with respect to the
control Apparently minimum delay in number of days to floral bud appearance took under 10 Gy as compared to control Highest number of flower colour mutants
were recorded under 10 Gy (light pink orange pinkwhite and yellow) Amountable mutation frequency on the basis of flower colour was desirable in plants irradiated
with least dose of 10 Gy
Keywords Chrysanthemum Mutagenesis Gamma Irradiation Mutants
Technical ProgrammeI Plant material
Explant Shoot tips
IIVariety
Candid
To generate diverse array of flower colour mutants through mutagenesis
ldquoObjectivesrdquo
Details of the Treatment
T1Mercuric chloride 01 for 2 and 4 minutes
T2Sodium hypochlorite 01 for 2 and 4 minutes
T3Carbendazim 100 and 200 ppm for 30 minutes followed by Mercuric chloride 01
for 2 and 4 minutes followed by 70 ethyl alcohol dip for 10 seconds
T4Carbendazim 100 and 200 ppm for 30 minutes followed by Sodium hypochlorite 01
for 2 and 4 minutes followed by 70 ethyl alcohol dip for 10 seconds
IIIExplant sterilization
Omissions incremental increasedecrease in the typenature of sterilantschemicals time
duration of application strength of sterilantchemicals combinations shall be tried in case
aforementioned treatments are not found satisfactory
IV Basal culture media used
Murashige and Skoog medium (1962)
V Growth regulators used for morphogenesis
i) Auxins
Indole Butyric Acid (IBA) (05-5 mg l-1)
Naphthalene Acetic Acid (NAA) (05-10 mg l-1)
2 4-Dichlorophenoxyacetic acid (2 4-D) (05-5 mg l-1)
Indole Acetic Acid (IAA) (05-5 mg l-1)
ii) Cytokinins
Benzyl Amino Purine (BAP) (05-5 mg l-1)
Kinetin (05-10 mg l-1)
iii) Gibberelic Acid (GA3) (02-05 mg l-1)
Omissions incremental increasedecrease in the constituents of basal media concentration of growth
regulator combinationschemicals shall be tried in case no satisfactory results are obtained with
aforementioned concentration ranges
VI Hardening of rooted plantlets
The plantlets will be transferred to containers containing appropriate
dosages of shoot and root promoting hormones along with controlled light and
temperature regimes Latter the semi-hardened plantlets shall be transferred to
containers with different hardening media components like vermiculite
perlite sterilized sandsoil etc
ldquoEffect of gamma-irradiation on in-vitro cultured explant of
chrysanthemumrdquo
I Varieties
a) Candid
II Explant
Shoot tips (in-vitro)
III Gamma irradiation doses
Explant were irradiated at a dose rate of 100 Gy per minute at 10 2030 and 40 Gy Untreated explant were
used as control
Observations recorded
Number of irradiated shoots rooted ()
Number of roots per shoot
Survival of plants ()
Leaf size (lengthwidth)
Leaf number
Number of days to bud appearance
xii) Plant height at flowering
Flower colour
Mutation frequency
Statistical analysis
CRD with 3 replications
Table 1 Influence of 60Co gamma irradiation on rhizogenesis in shoots of Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose Rooting () Root number shoot-1
0 Gy8928
(944)
1575
-
10 Gy
8571
(926)
(190)
775
(5079)
20 Gy
7976
(893)
(540)
550
(6507)
30 Gy
7499
(866)
(826)
300
(8095)
40 Gy
7380
(859)
(900)
275
(8253)
LSD Ple005 018 090
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Rooting
10 Gy 20 Gy 30 Gy 40 Gy
10 Gy 20 Gy 30 Gy 40 Gy
Table 2 Influence of 60Co gamma irradiation on survival of rooted plantlets under polyhouse conditions in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Survival ()
Dose Week 4th Week 8th Mean
0 Gy 9523
(976)
9523
(976)
9523
(976)
10 Gy 8571
(925)
(522)
8214
(906)
(717)
8392
(916 )
20 Gy 7618
(872)
(1065)
6785
(823)
(1567)
7001
(848)
30 Gy 6190
(786)
(1946)
5356
(731)
(2510)
5773
(759)
40 Gy 5356
(731)
(2510)
4047
(634)
(3504)
4001
(683)
Mean 7451
(858)6785
(814)
LSD Ple005
Week 017
Dose 0 27
WeekDose 039
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Technical ProgrammeI Plant material
Explant Shoot tips
IIVariety
Candid
To generate diverse array of flower colour mutants through mutagenesis
ldquoObjectivesrdquo
Details of the Treatment
T1Mercuric chloride 01 for 2 and 4 minutes
T2Sodium hypochlorite 01 for 2 and 4 minutes
T3Carbendazim 100 and 200 ppm for 30 minutes followed by Mercuric chloride 01
for 2 and 4 minutes followed by 70 ethyl alcohol dip for 10 seconds
T4Carbendazim 100 and 200 ppm for 30 minutes followed by Sodium hypochlorite 01
for 2 and 4 minutes followed by 70 ethyl alcohol dip for 10 seconds
IIIExplant sterilization
Omissions incremental increasedecrease in the typenature of sterilantschemicals time
duration of application strength of sterilantchemicals combinations shall be tried in case
aforementioned treatments are not found satisfactory
IV Basal culture media used
Murashige and Skoog medium (1962)
V Growth regulators used for morphogenesis
i) Auxins
Indole Butyric Acid (IBA) (05-5 mg l-1)
Naphthalene Acetic Acid (NAA) (05-10 mg l-1)
2 4-Dichlorophenoxyacetic acid (2 4-D) (05-5 mg l-1)
Indole Acetic Acid (IAA) (05-5 mg l-1)
ii) Cytokinins
Benzyl Amino Purine (BAP) (05-5 mg l-1)
Kinetin (05-10 mg l-1)
iii) Gibberelic Acid (GA3) (02-05 mg l-1)
Omissions incremental increasedecrease in the constituents of basal media concentration of growth
regulator combinationschemicals shall be tried in case no satisfactory results are obtained with
aforementioned concentration ranges
VI Hardening of rooted plantlets
The plantlets will be transferred to containers containing appropriate
dosages of shoot and root promoting hormones along with controlled light and
temperature regimes Latter the semi-hardened plantlets shall be transferred to
containers with different hardening media components like vermiculite
perlite sterilized sandsoil etc
ldquoEffect of gamma-irradiation on in-vitro cultured explant of
chrysanthemumrdquo
I Varieties
a) Candid
II Explant
Shoot tips (in-vitro)
III Gamma irradiation doses
Explant were irradiated at a dose rate of 100 Gy per minute at 10 2030 and 40 Gy Untreated explant were
used as control
Observations recorded
Number of irradiated shoots rooted ()
Number of roots per shoot
Survival of plants ()
Leaf size (lengthwidth)
Leaf number
Number of days to bud appearance
xii) Plant height at flowering
Flower colour
Mutation frequency
Statistical analysis
CRD with 3 replications
Table 1 Influence of 60Co gamma irradiation on rhizogenesis in shoots of Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose Rooting () Root number shoot-1
0 Gy8928
(944)
1575
-
10 Gy
8571
(926)
(190)
775
(5079)
20 Gy
7976
(893)
(540)
550
(6507)
30 Gy
7499
(866)
(826)
300
(8095)
40 Gy
7380
(859)
(900)
275
(8253)
LSD Ple005 018 090
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Rooting
10 Gy 20 Gy 30 Gy 40 Gy
10 Gy 20 Gy 30 Gy 40 Gy
Table 2 Influence of 60Co gamma irradiation on survival of rooted plantlets under polyhouse conditions in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Survival ()
Dose Week 4th Week 8th Mean
0 Gy 9523
(976)
9523
(976)
9523
(976)
10 Gy 8571
(925)
(522)
8214
(906)
(717)
8392
(916 )
20 Gy 7618
(872)
(1065)
6785
(823)
(1567)
7001
(848)
30 Gy 6190
(786)
(1946)
5356
(731)
(2510)
5773
(759)
40 Gy 5356
(731)
(2510)
4047
(634)
(3504)
4001
(683)
Mean 7451
(858)6785
(814)
LSD Ple005
Week 017
Dose 0 27
WeekDose 039
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Details of the Treatment
T1Mercuric chloride 01 for 2 and 4 minutes
T2Sodium hypochlorite 01 for 2 and 4 minutes
T3Carbendazim 100 and 200 ppm for 30 minutes followed by Mercuric chloride 01
for 2 and 4 minutes followed by 70 ethyl alcohol dip for 10 seconds
T4Carbendazim 100 and 200 ppm for 30 minutes followed by Sodium hypochlorite 01
for 2 and 4 minutes followed by 70 ethyl alcohol dip for 10 seconds
IIIExplant sterilization
Omissions incremental increasedecrease in the typenature of sterilantschemicals time
duration of application strength of sterilantchemicals combinations shall be tried in case
aforementioned treatments are not found satisfactory
IV Basal culture media used
Murashige and Skoog medium (1962)
V Growth regulators used for morphogenesis
i) Auxins
Indole Butyric Acid (IBA) (05-5 mg l-1)
Naphthalene Acetic Acid (NAA) (05-10 mg l-1)
2 4-Dichlorophenoxyacetic acid (2 4-D) (05-5 mg l-1)
Indole Acetic Acid (IAA) (05-5 mg l-1)
ii) Cytokinins
Benzyl Amino Purine (BAP) (05-5 mg l-1)
Kinetin (05-10 mg l-1)
iii) Gibberelic Acid (GA3) (02-05 mg l-1)
Omissions incremental increasedecrease in the constituents of basal media concentration of growth
regulator combinationschemicals shall be tried in case no satisfactory results are obtained with
aforementioned concentration ranges
VI Hardening of rooted plantlets
The plantlets will be transferred to containers containing appropriate
dosages of shoot and root promoting hormones along with controlled light and
temperature regimes Latter the semi-hardened plantlets shall be transferred to
containers with different hardening media components like vermiculite
perlite sterilized sandsoil etc
ldquoEffect of gamma-irradiation on in-vitro cultured explant of
chrysanthemumrdquo
I Varieties
a) Candid
II Explant
Shoot tips (in-vitro)
III Gamma irradiation doses
Explant were irradiated at a dose rate of 100 Gy per minute at 10 2030 and 40 Gy Untreated explant were
used as control
Observations recorded
Number of irradiated shoots rooted ()
Number of roots per shoot
Survival of plants ()
Leaf size (lengthwidth)
Leaf number
Number of days to bud appearance
xii) Plant height at flowering
Flower colour
Mutation frequency
Statistical analysis
CRD with 3 replications
Table 1 Influence of 60Co gamma irradiation on rhizogenesis in shoots of Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose Rooting () Root number shoot-1
0 Gy8928
(944)
1575
-
10 Gy
8571
(926)
(190)
775
(5079)
20 Gy
7976
(893)
(540)
550
(6507)
30 Gy
7499
(866)
(826)
300
(8095)
40 Gy
7380
(859)
(900)
275
(8253)
LSD Ple005 018 090
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Rooting
10 Gy 20 Gy 30 Gy 40 Gy
10 Gy 20 Gy 30 Gy 40 Gy
Table 2 Influence of 60Co gamma irradiation on survival of rooted plantlets under polyhouse conditions in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Survival ()
Dose Week 4th Week 8th Mean
0 Gy 9523
(976)
9523
(976)
9523
(976)
10 Gy 8571
(925)
(522)
8214
(906)
(717)
8392
(916 )
20 Gy 7618
(872)
(1065)
6785
(823)
(1567)
7001
(848)
30 Gy 6190
(786)
(1946)
5356
(731)
(2510)
5773
(759)
40 Gy 5356
(731)
(2510)
4047
(634)
(3504)
4001
(683)
Mean 7451
(858)6785
(814)
LSD Ple005
Week 017
Dose 0 27
WeekDose 039
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
IV Basal culture media used
Murashige and Skoog medium (1962)
V Growth regulators used for morphogenesis
i) Auxins
Indole Butyric Acid (IBA) (05-5 mg l-1)
Naphthalene Acetic Acid (NAA) (05-10 mg l-1)
2 4-Dichlorophenoxyacetic acid (2 4-D) (05-5 mg l-1)
Indole Acetic Acid (IAA) (05-5 mg l-1)
ii) Cytokinins
Benzyl Amino Purine (BAP) (05-5 mg l-1)
Kinetin (05-10 mg l-1)
iii) Gibberelic Acid (GA3) (02-05 mg l-1)
Omissions incremental increasedecrease in the constituents of basal media concentration of growth
regulator combinationschemicals shall be tried in case no satisfactory results are obtained with
aforementioned concentration ranges
VI Hardening of rooted plantlets
The plantlets will be transferred to containers containing appropriate
dosages of shoot and root promoting hormones along with controlled light and
temperature regimes Latter the semi-hardened plantlets shall be transferred to
containers with different hardening media components like vermiculite
perlite sterilized sandsoil etc
ldquoEffect of gamma-irradiation on in-vitro cultured explant of
chrysanthemumrdquo
I Varieties
a) Candid
II Explant
Shoot tips (in-vitro)
III Gamma irradiation doses
Explant were irradiated at a dose rate of 100 Gy per minute at 10 2030 and 40 Gy Untreated explant were
used as control
Observations recorded
Number of irradiated shoots rooted ()
Number of roots per shoot
Survival of plants ()
Leaf size (lengthwidth)
Leaf number
Number of days to bud appearance
xii) Plant height at flowering
Flower colour
Mutation frequency
Statistical analysis
CRD with 3 replications
Table 1 Influence of 60Co gamma irradiation on rhizogenesis in shoots of Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose Rooting () Root number shoot-1
0 Gy8928
(944)
1575
-
10 Gy
8571
(926)
(190)
775
(5079)
20 Gy
7976
(893)
(540)
550
(6507)
30 Gy
7499
(866)
(826)
300
(8095)
40 Gy
7380
(859)
(900)
275
(8253)
LSD Ple005 018 090
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Rooting
10 Gy 20 Gy 30 Gy 40 Gy
10 Gy 20 Gy 30 Gy 40 Gy
Table 2 Influence of 60Co gamma irradiation on survival of rooted plantlets under polyhouse conditions in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Survival ()
Dose Week 4th Week 8th Mean
0 Gy 9523
(976)
9523
(976)
9523
(976)
10 Gy 8571
(925)
(522)
8214
(906)
(717)
8392
(916 )
20 Gy 7618
(872)
(1065)
6785
(823)
(1567)
7001
(848)
30 Gy 6190
(786)
(1946)
5356
(731)
(2510)
5773
(759)
40 Gy 5356
(731)
(2510)
4047
(634)
(3504)
4001
(683)
Mean 7451
(858)6785
(814)
LSD Ple005
Week 017
Dose 0 27
WeekDose 039
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
VI Hardening of rooted plantlets
The plantlets will be transferred to containers containing appropriate
dosages of shoot and root promoting hormones along with controlled light and
temperature regimes Latter the semi-hardened plantlets shall be transferred to
containers with different hardening media components like vermiculite
perlite sterilized sandsoil etc
ldquoEffect of gamma-irradiation on in-vitro cultured explant of
chrysanthemumrdquo
I Varieties
a) Candid
II Explant
Shoot tips (in-vitro)
III Gamma irradiation doses
Explant were irradiated at a dose rate of 100 Gy per minute at 10 2030 and 40 Gy Untreated explant were
used as control
Observations recorded
Number of irradiated shoots rooted ()
Number of roots per shoot
Survival of plants ()
Leaf size (lengthwidth)
Leaf number
Number of days to bud appearance
xii) Plant height at flowering
Flower colour
Mutation frequency
Statistical analysis
CRD with 3 replications
Table 1 Influence of 60Co gamma irradiation on rhizogenesis in shoots of Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose Rooting () Root number shoot-1
0 Gy8928
(944)
1575
-
10 Gy
8571
(926)
(190)
775
(5079)
20 Gy
7976
(893)
(540)
550
(6507)
30 Gy
7499
(866)
(826)
300
(8095)
40 Gy
7380
(859)
(900)
275
(8253)
LSD Ple005 018 090
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Rooting
10 Gy 20 Gy 30 Gy 40 Gy
10 Gy 20 Gy 30 Gy 40 Gy
Table 2 Influence of 60Co gamma irradiation on survival of rooted plantlets under polyhouse conditions in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Survival ()
Dose Week 4th Week 8th Mean
0 Gy 9523
(976)
9523
(976)
9523
(976)
10 Gy 8571
(925)
(522)
8214
(906)
(717)
8392
(916 )
20 Gy 7618
(872)
(1065)
6785
(823)
(1567)
7001
(848)
30 Gy 6190
(786)
(1946)
5356
(731)
(2510)
5773
(759)
40 Gy 5356
(731)
(2510)
4047
(634)
(3504)
4001
(683)
Mean 7451
(858)6785
(814)
LSD Ple005
Week 017
Dose 0 27
WeekDose 039
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
ldquoEffect of gamma-irradiation on in-vitro cultured explant of
chrysanthemumrdquo
I Varieties
a) Candid
II Explant
Shoot tips (in-vitro)
III Gamma irradiation doses
Explant were irradiated at a dose rate of 100 Gy per minute at 10 2030 and 40 Gy Untreated explant were
used as control
Observations recorded
Number of irradiated shoots rooted ()
Number of roots per shoot
Survival of plants ()
Leaf size (lengthwidth)
Leaf number
Number of days to bud appearance
xii) Plant height at flowering
Flower colour
Mutation frequency
Statistical analysis
CRD with 3 replications
Table 1 Influence of 60Co gamma irradiation on rhizogenesis in shoots of Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose Rooting () Root number shoot-1
0 Gy8928
(944)
1575
-
10 Gy
8571
(926)
(190)
775
(5079)
20 Gy
7976
(893)
(540)
550
(6507)
30 Gy
7499
(866)
(826)
300
(8095)
40 Gy
7380
(859)
(900)
275
(8253)
LSD Ple005 018 090
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Rooting
10 Gy 20 Gy 30 Gy 40 Gy
10 Gy 20 Gy 30 Gy 40 Gy
Table 2 Influence of 60Co gamma irradiation on survival of rooted plantlets under polyhouse conditions in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Survival ()
Dose Week 4th Week 8th Mean
0 Gy 9523
(976)
9523
(976)
9523
(976)
10 Gy 8571
(925)
(522)
8214
(906)
(717)
8392
(916 )
20 Gy 7618
(872)
(1065)
6785
(823)
(1567)
7001
(848)
30 Gy 6190
(786)
(1946)
5356
(731)
(2510)
5773
(759)
40 Gy 5356
(731)
(2510)
4047
(634)
(3504)
4001
(683)
Mean 7451
(858)6785
(814)
LSD Ple005
Week 017
Dose 0 27
WeekDose 039
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Observations recorded
Number of irradiated shoots rooted ()
Number of roots per shoot
Survival of plants ()
Leaf size (lengthwidth)
Leaf number
Number of days to bud appearance
xii) Plant height at flowering
Flower colour
Mutation frequency
Statistical analysis
CRD with 3 replications
Table 1 Influence of 60Co gamma irradiation on rhizogenesis in shoots of Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose Rooting () Root number shoot-1
0 Gy8928
(944)
1575
-
10 Gy
8571
(926)
(190)
775
(5079)
20 Gy
7976
(893)
(540)
550
(6507)
30 Gy
7499
(866)
(826)
300
(8095)
40 Gy
7380
(859)
(900)
275
(8253)
LSD Ple005 018 090
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Rooting
10 Gy 20 Gy 30 Gy 40 Gy
10 Gy 20 Gy 30 Gy 40 Gy
Table 2 Influence of 60Co gamma irradiation on survival of rooted plantlets under polyhouse conditions in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Survival ()
Dose Week 4th Week 8th Mean
0 Gy 9523
(976)
9523
(976)
9523
(976)
10 Gy 8571
(925)
(522)
8214
(906)
(717)
8392
(916 )
20 Gy 7618
(872)
(1065)
6785
(823)
(1567)
7001
(848)
30 Gy 6190
(786)
(1946)
5356
(731)
(2510)
5773
(759)
40 Gy 5356
(731)
(2510)
4047
(634)
(3504)
4001
(683)
Mean 7451
(858)6785
(814)
LSD Ple005
Week 017
Dose 0 27
WeekDose 039
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Table 1 Influence of 60Co gamma irradiation on rhizogenesis in shoots of Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose Rooting () Root number shoot-1
0 Gy8928
(944)
1575
-
10 Gy
8571
(926)
(190)
775
(5079)
20 Gy
7976
(893)
(540)
550
(6507)
30 Gy
7499
(866)
(826)
300
(8095)
40 Gy
7380
(859)
(900)
275
(8253)
LSD Ple005 018 090
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Rooting
10 Gy 20 Gy 30 Gy 40 Gy
10 Gy 20 Gy 30 Gy 40 Gy
Table 2 Influence of 60Co gamma irradiation on survival of rooted plantlets under polyhouse conditions in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Survival ()
Dose Week 4th Week 8th Mean
0 Gy 9523
(976)
9523
(976)
9523
(976)
10 Gy 8571
(925)
(522)
8214
(906)
(717)
8392
(916 )
20 Gy 7618
(872)
(1065)
6785
(823)
(1567)
7001
(848)
30 Gy 6190
(786)
(1946)
5356
(731)
(2510)
5773
(759)
40 Gy 5356
(731)
(2510)
4047
(634)
(3504)
4001
(683)
Mean 7451
(858)6785
(814)
LSD Ple005
Week 017
Dose 0 27
WeekDose 039
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Rooting
10 Gy 20 Gy 30 Gy 40 Gy
10 Gy 20 Gy 30 Gy 40 Gy
Table 2 Influence of 60Co gamma irradiation on survival of rooted plantlets under polyhouse conditions in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Survival ()
Dose Week 4th Week 8th Mean
0 Gy 9523
(976)
9523
(976)
9523
(976)
10 Gy 8571
(925)
(522)
8214
(906)
(717)
8392
(916 )
20 Gy 7618
(872)
(1065)
6785
(823)
(1567)
7001
(848)
30 Gy 6190
(786)
(1946)
5356
(731)
(2510)
5773
(759)
40 Gy 5356
(731)
(2510)
4047
(634)
(3504)
4001
(683)
Mean 7451
(858)6785
(814)
LSD Ple005
Week 017
Dose 0 27
WeekDose 039
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
10 Gy 20 Gy 30 Gy 40 Gy
Table 2 Influence of 60Co gamma irradiation on survival of rooted plantlets under polyhouse conditions in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Survival ()
Dose Week 4th Week 8th Mean
0 Gy 9523
(976)
9523
(976)
9523
(976)
10 Gy 8571
(925)
(522)
8214
(906)
(717)
8392
(916 )
20 Gy 7618
(872)
(1065)
6785
(823)
(1567)
7001
(848)
30 Gy 6190
(786)
(1946)
5356
(731)
(2510)
5773
(759)
40 Gy 5356
(731)
(2510)
4047
(634)
(3504)
4001
(683)
Mean 7451
(858)6785
(814)
LSD Ple005
Week 017
Dose 0 27
WeekDose 039
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Table 2 Influence of 60Co gamma irradiation on survival of rooted plantlets under polyhouse conditions in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Survival ()
Dose Week 4th Week 8th Mean
0 Gy 9523
(976)
9523
(976)
9523
(976)
10 Gy 8571
(925)
(522)
8214
(906)
(717)
8392
(916 )
20 Gy 7618
(872)
(1065)
6785
(823)
(1567)
7001
(848)
30 Gy 6190
(786)
(1946)
5356
(731)
(2510)
5773
(759)
40 Gy 5356
(731)
(2510)
4047
(634)
(3504)
4001
(683)
Mean 7451
(858)6785
(814)
LSD Ple005
Week 017
Dose 0 27
WeekDose 039
Figures in the parenthesis are the square root transformed values of percentage data
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
10 Gy 20 Gy 30 Gy 40 Gy
survival
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Table 3 Influence of 60Co gamma irradiation on leaf number and leaf size in Chrysanthemum (Dendranthemum morifolium) cv ldquoCandidrdquo
Dose
Leaf number plant-1 Leaf size (lengthwidth) (cm2)
4th week 8th week 4th week 8th week
0 Gy1400
-
1575
-
2230
-
2852
-
10 Gy1100
(2142)
1300
(1746)
2042
(843)
2780
(252)
20 Gy925
(3392)
1175
(2539)
1734
(2224)
2042
(2840)
30 Gy875
(3750)
1075
(3174)
1352
(3937)
1482
(4803)
40 Gy800
(4285)
975
(3809)5317
(7618)
1074
(6234)
LSD Ple005 092 141 269 237
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Table 4 Influence of 60Co gamma irradiation on plant height at flowering number of days to bud appearance flower colour and mutation frequency in Chrysanthemum (Dendranthemum
morifolium) cv ldquoCandidrdquo
DoseNumber of days to bud
appearance
Flower colour Plant height at
flowering(cm)
Mutation
frequency
()
0 Gy2350
-Red
5325
-0
10 Gy2725
(1595)
Light-pink (1220)
White (320)
Orange pink(220)Light Yellow (120)
4900
(798)90(6010155)
20 Gy3700
(5744)Red bud distorted(1220)
Red floret distorted(820)
3650
(3145)100(6040)
30 Gy3925
(6702)Red bud distorted (2020)
3400
(3615)100
40 Gy4075
(7340)
Bud aborted(1720)
Red bud distorted(320)3150
(4084)100(85 15)
LSD Ple005 258 203
Figures in the parenthesis are the per cent decrease in vegetative parameters over control
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Buds of mutants of 10 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Mutants of 10 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Mutants of 10 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Mutants of 20-40 Gy
Red distorted bud of 20 30
and 40 Gy
Red distorted florets of 20 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy
Conclusions
Irradiation dose of 40 Gy resulted in significant decrease in rooting percentage and subsequent decline in field
survival number of days to bud appearance and mutation frequency
Highest number of mutants in the form of flower colour (Light pink Whiteorange pink and yellow) were recorded
in shoots irradiated with 10 Gy
Highest mutation frequency on the basis of colour was recorded with 10 Gy gamma irradiation treatment
LD50 value was around 2868 Gy