INTRODUCTION
Source of the explant plays an important role in

successful plant regeneration. Explants collected from the
field are a major source of contamination of cultures, and
results in a reduction in the number of clean cultures. Various
factors like temperature, moisture, light, etc. collectively
influence germination. In vitro seed germination is the best
alternative if a crop is sexually propagated. Seed-borne
infections may be an important source of the primary
inoculum and the seed should be treated before sowing to
obtain good germination and a healthy crop (Habib et al,
2007). Mercuric chloride-HgCl2 (Sarker et al, 2006) is a
widely used chemical for effective control of in vitro
bacterial and fungal infections in eggplant effectively. Most
of the seeds have a hard seed coat, and are easy to disinfect,
generally escaping the adverse effects of the chemical. But
HgCl2 is found to have a lethal effect on initiation of cultures
in solanaceous crops. A number of other chemicals like
sodium hypochlorite and hydrogen peroxide are used as
disinfectants for in vitro seed germination. Rick and
Borgnino (1989) advocated the use of 2.7% sodium

Effect of seed disinfectants on in vitro seed germination and
seedling development in eggplant

M. Kaur, A.S. Dhatt, and A.S. Sidhu1
Department of Vegetable Science

Punjab Agricultural University, Ludhiana-141004, India
E-mail: mkaur97@rediffmail.com

ABSTRACT
The present investigation reports effects of disinfectants on culture contamination, seed germination and seedling

growth in eggplant. Mercuric chloride hampers seed germination when seeds are treated with 0.1% solution above 2
min duration and lesser durations are not helpful in controlling in vitro contamination. The highest seed germination
(89.97%) was recorded with 50% commercial bleach for 20 min in the genotype BL-3, followed by BR-16 (88.53%),
BR-14 (86.19%), BL-5 (86.16%) and BSR-23 (85.57%). However, least number of seeds germinated in BR-18
(10.94%), BSR-25 (13.27%) and BL-7 (18.62%) when disinfected with 75% commercial bleach for 25min. Overall
results revealed that 50% commercial bleach concentration (73.76%) was better than 75% (36.85%), and 20 min
duration (60.82%) was better than 25 min (49.80%) for seed disinfection. Among the varieties, BL-3 was at the top
(68.85%) and BR-18 at the lowest (34.16%) edge for per cent seed germination. Seedling growth (cm) with use of
commercial bleach was quite satisfactory compared to disinfection with HgCl2, where, 50% commercial bleach favored
a good stand of plant lets even after 10 days, showing a healthy root (3cm), hypocotyl (5cm) and cotyledons (1.5cm).

Key words: Seed germination, seedling growth, culture contamination, bleach, mercuric chloride, sodium hypochlorite

1ICAR-Indian Institute of Horticultural Research, Hessaraghatta Lake Post, Bengaluru – 560 089, India

hypochlorite (half-strength standard household bleach) for
30 min for improvement in seed germination. Commercial
bleach can thus used for disinfection. Bleach is readily
available and can be diluted to desired concentrations.
Chemically, it contains Sodium hypochlorite (4%), Sodium
hydroxide (1%), and Amine oxide (1%) that are used as
disinfectants for in vitro cultures. Sodium hypochlorite
(NaOCl) is effective as a disinfecting and sterilizing agent
against a broad range of bacteria, viruses and fungi (Aref
and Baki, 1974). Germination of both mature and immature
seeds was rather stimulated by soaking seeds in 3.5%
sodium hypochlorite solution for 15 min (Ho et al, 1995).
Sodium hypochlorite accelerated germination and improved
germination rate in other plant species and vigour index in
all the cases studied (Pernezny et al, 2002). Objectives of
the present study were to examine effects of various
chemicals as seed treatments, including a range of
concentrations and duration of exposure, on in vitro seed
contamination, subsequent seed-germination and seedling
growth. Emphasis was placed on evaluation of mercuric
chloride and the commercial bleach.

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62

MATERIAL AND METHODS
The present investigation was carried out in Dr G.S.

Khush Laboratories of School of Agricultural Biotechnology,
Punjab Agricultural University, Ludhiana, during 2005-2008.
Ten genotypes of eggplant, viz., BL-3, BL-5, BR-14, BSR-
21, BSR-27, BR-16, BL-7, BSR-23, BR-18 and BSR-25
were used in the investigation. Seeds of each variety were
first washed with TeepolTM (Labolene) to remove dirt and
light-weight seeds. Only bold seeds were selected and
treated with 0.1% HgCl2 and the commercial bleach (75%
and 50%) for different lengths of time (2, 4, 6, 8 min for
HgCl2, and 20, 25 min for the commercial bleach),
respectively. After treatment with HgCl2, seeds were
washed thrice, under a Laminar Air Flow Cabinet, with
autoclaved MilliQ water to remove traces of HgCl2 on the
surface of the seeds. Commercial bleach treated seeds,
however, were washed till formation of the foam stopped.
Disinfected seeds were shifted to clean and autoclaved petri-
dishes. The seeds were then cultured on half-strength MS
medium (Murashige and Skoog, 1962) solidified with 0.8%
agar for germination, and incubated at 25±2°C in the dark
for 20 days. Each jam-jar was inoculated with 10-14 seeds.
Observations on culture contamination, seed germination and
seedling growth were made. Seed germination (%) was
calculated using the number of seeds germinated from
among seeds cultured in clean cultures. Statistical analysis
was done in CRD factorial design, using CPCS-1 software
package (Cheema and Singh, 1990). Results were compared
at 1 per cent level of least square differences (LSD), and
interpreted.

RESULTS AND DISCUSSION
Culture contamination (%)

Mercuric chloride was found to be more effective of
the two in controlling culture contamination. Culture
contamination was less (3.99%, 8.66% and 25.10%,
respectively), when seeds were treated with 0.1% HgCl2
for 8, 6 and 4 min; however, treatment for 2 min showed
highest (53.33%) per cent contaminated cultures even
before actual germination started (Fig. 1). Some cultures,
although clean, did not show the good seedling growth
required for culture initiation. Hypocotyl and the cotyledon
remained mostly inside the seed coat. Exposure of seeds to
0.1% HgCl2 for over 2 min further hampered seed
germination and seedling growth. Seeds turned brown at
first, and then black, as days passed, but did not germinate.
Growth of the seedlings may have been hindered due to
excessive exposure to the harsh chemical. Seed coat of

eggplant is thin compared to that in woody plant species
that escape this effect. Thus, the chemical may enter the
seed through the thin seed coat, and may affect germination
of the seed and growth of seedlings.

Commercial bleach also reduced culture
contamination (24.88%, 23.77%, 22.21% and 13.99,
respectively, with 50% conc. for 20 min, 50% conc. for 25
min, 75% conc. for 20 min and 75% conc. for 25 min.)
exhibiting good seedling growth while having satisfactory
roots, hypocotyl and cotyledons (Fig.1). Increased
concentration of the bleach, while reducing the number of
contaminated cultures did not hamper seedling growth. Seed
germination was delayed by 2-3 days with use of higher
concentration (75%) of bleach than with 50% concentration.
Chemically, it contains sodium hypochlorite (4%), sodium
hydroxide (1%), and amine oxide (1%) that are used as
disinfectants in in vitro culture. Sodium hypochlorite
(NaOCl) is effective as a disinfecting and sterilizing agent
against a broad range of bacteria, viruses and fungi
(Mustafa, 2002). This is also found to increase seed
germination in field conditions.

Seed germination (%)

HgCl2 was highly toxic and inhibited seed germination.
No germination was seen, when seeds of different genotypes
were treated with 0.1% HgCl2 for 8, 6 and 4min time
duration; however, 2 min treatment showed 9.27%
germination, with poor seedling growth (Fig. 2a). Genotypic
differences were also observed, where BR-18 and BSR-25
showed the poorest response to HgCl2 treatment. Mercuric
chloride resulted in delayed germination and restricted
growth in eggplant seedlings. As per Sarker et al (2006),

t1 0.1% HgCl2 for 8min, t2 0.1% HgCl2 for 6min, t3 0.1% HgCl2 for
4min, t4 0.1% HgCl2 for 2min, t5 50% Commercial bleach for 20min, t6
50% Commercial bleach for 25min, t7 75% Commercial bleach for 20min,
t8 75% Commercial bleach for 25min.
Fig 1. Effect of various disinfectants on culture contamination in
eggplant

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63

seeds treated with 0.1% (w/v) mercuric chloride for 5-6
min showed germination in eggplant. However, increased
concentration of, and longer exposure to, mercuric chloride
while further reducing bacterial contamination, caused a
modest reduction in seed germination and growth too, as
reported by Ling et al (2010).

The effect of commercial bleach concentrations on
seed germination in different genotypes of eggplant is given
in Fig. 2b. Highest seed germination with 50% commercial
bleach was observed in the genotype BL-3 (85.80%),
followed by BR-16 (84.25%), BL-5 (82.23%), BR-14
(82.15%), and BSR-23 (82.13%), however, corresponding
germination values with 75% commercial bleach were: 51.91,
45.19, 44.44, 43.00 and 44.29%, respectively. The length of
treatment with commercial bleach significantly affected seed
germination in different genotypes (Fig. 2c). It was highest
in BL-3 (74.58%), followed by BR-16 (70.89%), BL-5
(69.17%), BR-14 (68.94%) and BSR-23 (68.93%) with
20min duration. However, increase in duration to 25min
lowered germination rate to 63.13, 58.55, 57.50, 56.20 and
57.49 % in the respective genotypes. Interaction effect of
concentrations and durations of commercial bleach treatment
on seed germination was significant too (Fig 2d). Highest
seed germination of 77.30% was seen with 50% commercial
bleach for 20min duration in all the genotypes. However, it
was lowest (29.38%) with 75% commercial bleach for 25min
treatment. Similar increase in germination was also reported
in conifer seeds by Wenny and Dumroese (1987).

Interaction of genotype, and concentration and
duration of exposure to commercial bleach in Table 1
revealed that seed germination (89.97%) was highest with

50% commercial bleach for 20min in BL-3, followed by
BR-16 (88.53%), BR-14 (86.19%), BL-5 (86.16%), and
BSR-23 (85.57%). However, least number of seeds
germinated in BR-18 (10.94%), BSR-25 (13.27%) and BL-
7 (18.62%) when disinfected with 75% commercial bleach
for 25min. Overall, the results revealed that 50% commercial
bleach concentration (73.76%) was better than 75%

Fig 2.  A)  Effect of HgCl2 (0.1%) on seed germination (%) in
various eggplant genotypes B) Effect of commercial bleach
concentrations on seed germination (%) C) Effect of duration of
commercial bleach treatment on seed germination (%) D) Effect
of commercial bleach concentration and duration of treatment on
seed germination (%)

Table 1. Effect of commercial bleach concentrations duration and genotype on seed germination (%) in eggplant
Genotype Commercial Bleach Genotype

75% 50% Mean
25min 20min 25min 20min

BL-3 44.63 (41.90) 59.19 (50.27) 81.64 (64.60) 89.97 (71.52) 68.85 (57.07)
BL-5 36.70 (37.26) 52.18 (46.23) 78.29 (62.21) 86.16 (68.14) 63.33 (53.46)
BR-14 34.30 (35.83) 51.70 (45.95) 78.11 (62.07) 86.19 (68.15) 62.57 (53.00)
BSR-21 29.89 (33.12) 43.66 (41.34) 72.27 (58.20) 78.06 (62.04) 55.97 (48.68)
BSR-27 32.02 (34.44) 46.07 (42.73) 73.46 (58.97) 80.80 (63.99) 58.08 (50.03)
BR-16 37.14 (37.53) 53.24 (46.84) 79.96 (63.38) 88.53 (70.18) 64.72 (54.48)
BL-7 18.62 (25.54) 32.35 (34.65) 58.23 (49.71) 62.85 (52.43) 43.01 (40.58)
BSR-23 36.28 (37.02) 52.29 (46.29) 78.70 (62.49) 85.57 (67.66) 63.21 (53.36)
BR-18 10.94 (19.30) 23.27 (28.82) 48.47 (44.10) 53.96 (47.25) 34.16 (34.87)
BSR-25 13.27 (21.31) 29.36 (32.79) 53.16 (46.79) 60.63 (51.29) 39.18 (38.05)
Conc. Mean 36.85 (36.96) 73.76 (59.76)
Duration Mean 25min: 49.80   (44.79) 20min: 60.80 (51.93)
LSD (P=0.01)   Conc: 0.25   Duration: 0.27   Genotype:  0.56   Conc x Duration: 0.35   Conc x Genotype: 0.80   Duration  x  Genotype: 0.82
Conc x Duration x Genotype: 1.13

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64

(36.85%) and 20min duration (60.80%) was better than
25min (49.80%) for seed disinfection. Among the genotypes,
BL-3 was at the top (68.85%) and BR-18 at the lowest
(34.16%) edge for per cent seed germination.

Seed germination using the commercial bleach was
quite satisfactory compared to that in HgCl2 treatment,
exhibiting normal growth and development of seedlings (Plate
1a). Seed germination was observed after 15 days in HgCl2
treatment, while, it was within a week using the commercial
bleach. Commercial bleach contains 4% sodium hypochlorite
(NaOCl), which acts as a sterilizing agent. Kaur et al (2011a
& b) also used it for sterilizing eggplant seeds. However,
Mir et al (2008) used 0.1% HgCl2 for 3 min for disinfecting
eggplant seeds. Differential response in seed germination
using various disinfectants for different length of time can
be due to genotypic differences, method of treatment and
cultural condition during the experiment. Seed germination
(%) and seedling growth in eggplant were also seen to be
negatively affected by increasing concentration of the
disinfectant. A delayed germination (by 3-4 days) and reduced
seedling growth was observed with increase in concentration
and time of exposure in commercial bleach treatment.
Mustafa (2002) also reported similar results.

Seedling growth

Seedling growth (cm) with the use of commercial
bleach was quite satisfactory compared to disinfection with
HgCl2. Seedlings exhibited normal growth and development,
as visible in Fig III and Plate1b. Seeds did not germinate
when treated with 0.1% HgCl2 for over two minutes.

Two-minute treatment also gave a poor stand of
germinated seedlings with restricted growth having only root
growth after 15 days of culturing. However, 50%
commercial bleach favored good stand even after 10 days
with healthy root (3cm), hypocotyl (5cm) and cotyledons

(1.5cm). Increased concentration of commercial bleach
(75%) also produced seedlings with slow growth rate of
root (1cm), hypocotyl (4cm) and cotyledons (1cm). Mustafa
(2002) also reported similar results in flax.

Type of seed disinfectant in eggplant affects culture
contamination, seed germination and seedling growth
significantly. Moreover, the concentration, time duration of
disinfection and genotype also affect seed germination and
seedling growth potential. It is concluded that commercial
bleach is better than HgCl2 for initiation of in vitro cultures
in eggplant.

REFERENCES
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hypochlorite as a seed disinfectant in 14c
incorporation studies. Plant Physiol., 53:768-771

Cheema, H.S. and Singh, B. 1990. A user’s manual to
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pp-1, PAU, Ludhiana, Punjab, India

Habib, A., Sahi, S.T., Ghazanfar, M.U. and Ali, S. 2007.
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Plate 1. a) Seed-germination enhanced with 50% commercial
bleach (CB) b) Effect of HgCl2 (0.1%) and commercial bleach (75%
and 50%) on seedling growth (cm) in eggplant after 10 days of
culture

Fig 3. Effect of HgCl2 and Commercial bleach on seedling growth
(cm) in eggplant

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(MS Received 03 April 2012, Revised 14 October 2013, Accepted 29 November 2014)

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Seed disinfectants and in vitro response of eggplant seeds