SPH -JHS Coverpage December 2019 Number 2


166

J. Hortl. Sci.
Vol. 14(2) : 166-168, 2019

Short Communication

Management of Eulophid Seed Borer, Anselmella kerrichi (Narayanan et al.)
(Hymenoptera : Chalcidoidea : Eulophidae) on Jamun

Jayanthi Mala B.R.1*, Kamala Jayanthi P.D.1, Anjana Subramoniam1 and Rekha A.2
Division of  Entomology and Nematology1, Division of Fruit crops2, ICAR- Indian Institute of Horticultural Research

Hesaraghatta Lake PO, Bengaluru - 560 089.
*Email: entjaya@gmail.com

ABSTRACT
A field experiment was conducted at ICAR-Indian Institute of Horticultural Research,
Bengaluru during 2019 to evaluate certain insecticides and botanicals against jamun seed
borer, Anselmella keriichi (Naryananet al.). The results revealed that the seed borer
infestation was significantly low in -cyhalothrin (4.20%) and cypermethrin (5.77%)
treatments followed by spinosad (6.36%), deltamethrin (6.40%) and imidacloprid (6.71%)
(F=7.9; df=11; P<0.0001). Among the organic insecticides viz., spinosad @ 0.2 mL/L
showed significant reduction in jamun seed borer infestation.

Keywords: Syziumcumini, Chemical insecticides, Botanical insecticides, Hymenoptera and Insect pest

Fr uits of Ja mun,  Syzium cumini L.  (Fa mily
Myrtaceae; commonly known as jambul, black plum,
Indian blackberry, jambulan, java plum etc.) are known
for their economic importance with several medicinal
properties (Warrier et al., 1996). Jamun is attacked
by number of insect pests and recently a eulophid
seed borer, Anselmella kerrichi (Narayanan et al.,)
(Hymenoptera: Chalcidoidea: Eulophidae) causing
huge economic losses in jamun cultivation have been
reported (Kamala Jayanthi et al., 2019; Anjana et al.,
2019). The adult female wasp lays eggs inside the
tender fruits. After completing the life cycle inside the
Jamun seeds, fully-grown adults emerge out making
a circular hole, in turn causing both quantitative and
qualitative losses. The infested fruits bore black,
pinprick size oviposition punctures along with circular
exit holes on the rind. Heavy infestation of jamun fruits
by A. kerrichi rendering the fruits unmarketable was
observed (Fig.1).

The present study was conducted during March-April
2019 at an experimental block of ICAR-Indian
Institute of Horticultural Research, Bengaluru, India
located at 13o58’ N Latitude and 78o E Longitude at
an elevation of 890 m above mean sea level. A total
of 12 treatments (as listed in Table 1) were evaluated
against jamun seed borer. Each treatment involved
three consecutive sprays with 15 days interval and
each treatment replicated thrice in three different sets.

A total of 1200 fruits were harvested for each
tr eatment. Ea ch set containing 1200 fruits per
treatment in which randomly 400 fruits per replication
were observed.  Keeping the fact in view that jamun
fruits are consumed fresh for its high medicinal value,
all the experimental sprays were restricted to early
stages of fruiting (during G3 to G4 stages; Kamala
Jayanthi et al., 2019) to avoid pesticide residue issues.
The observations were recorded on total number of
fruits and number of fruits infested with jamun seed
borer. Data were subjected to ANOVA (using F test
as criteria at P=0.05 level). Net benefit per acre for
each treatment was derived by subtracting the total
cost of plant protection from total income. Cost:
Benefit ratio of each treatment wa s derived by
subtracting the income of the control treatment from
the net income of each sprayed treatment and the
products were divided by total cost of plant protection
for each treatment (Shabozoi et al., 2011).

The results pertaining to the efficacy of various
treatments in the management of jamun seed borer
were given in Table 1. The mean per cent fruit
infestation by A. kerrichi varied significantly from
4.20-19.45 among the treatments (F=7.9; df=11;
P<0. 0001).  After  a dminister ing a ll the thr ee
experimental sprays the per cent fruit infestation by
A.kerrichi was significantly lower in treatments viz.,

-cyhalothrin, cypermethrin, spinosad, deltamethrin



167

Management of Eulophid Seed Borer, Anselmella kerrichi

J. Hortl. Sci.
Vol. 14(2) : 166-168, 2019

and imidacloprid with a fruit infestation of 4.20, 5.77,
6.36, 6.40 and 6.71% respectively compared to the
control. However, all above treatments were found
on par with each other with respect to seed borer
infestation.  The treatments viz., abamectin, pongamia
soap, neem soap, neem oil did not reduce the seed
borer infestation compared to the control (Table 1).

Relative economic performance of the treatments
was compared with the control using the cost:benefit
(C:B) r atio.  T he synthetic pyrethr oid viz. , -
cyhalothrin (1:9.67), gave the highest C:B ratio
followed by spinosad (1:8.57), cypermethrin (1:8.48),
and deltamethrin (1:8.23).   The present study
revealed that spinosad and other synthetic pyrethroids
could be recommended for the management of jamun

seed borer at the early stage of fruiting. Anjana et
al., (2109) studied the possibility of using color sticky
traps as a strategy for management of A. kerrichi in
jamun.  Their results showed that females were
attracted to blue sticky trap whereas, male wasps
attracted to yellow sticky trap. Considering the need
for eco-friendly pest management modules for jamun,
integrated management strategies involving colour
traps and need based spray interventions have to be
standardized to minimize the economic losses caused
by jamun seed borer A. kerrichi.

ACKNOWLEDGEMENTS
Authors thank the Director, ICAR-IIHR, Bengaluru
for providing research facilities. We also thank Mr T
S. Rajanna for technical support.

Fig. 1: a. Pricks on immature Jamun fruits, b. adult Jamun seed borer, c & d. galleries



168

Jayanthi Mala et al

Treatment
            Fruit infestation (%) C: B Ratio

Set I Set II Set III Overall Mean
T1 Cypermethrin (1.0 mL/L) 4.83 8.12 4.38 5.77 1:8.48

(12.70) (16.55) (12.07) (13.77)
T2 Deltamethrin (1.0 mL/L) 5.00 7.57 6.62 6.40 1:8.23

(12.92) (15.97) (14.91) (14.60)
T3 Spinosad (0.2 mL/L) 3.57 4.35 11.14 6.36 1:8.57

(10.89) (12.04) (19.50) (14.15)
T4 Quinalphos (2.5 mL/L) 10.00 17.87 13.64 13.84 1:2.14

(18.43) (25.01) (21.67) (21.70)
T5 Chlorantraniliprole (0.3 mL/L) 13.46 10.56 1.74 8.59 1:6.53

(21.52) (18.96) (7.59) (16.02)
T6 - cyhalothrin (1.0 mL/L) 5.00 4.32 3.27 4.20 1:9.67

(12.92) (11.99) (10.42) (11.78)
T7 Imidacloprid (0.5 mL/L) 6.67 7.33 6.14 6.71 1:7.57

(14.96) (15.71) (14.34) (15.01)
T8 Abamectin (0.5 mL/L) 24.00 18.13 15.20 19.11 1:1.14

(29.33) (25.20) (22.95) (25.83)
T9 Pongamia soap (10 g/L) 12.08 12.63 16.43 13.71 1:2.15

(20.34) (20.82) (23.91) (21.69)
T10 Neem soap (10 g/L) 24.17 19.57 14.61 19.45 1:1.57

(29.45) (26.25) (22.47) (26.06)
T11 Neem oil (10 mL/L) 13.33 19.40 22.22 18.32 1:0.84

(21.42) (26.14) (28.13) (25.53)
T12 Control 13.68 17.39 20.00 17.03 -

(21.71) (24.65) (26.57) (24.31)
CD @0.05% 5.80

*Figures in the parenthesis are arcsine transformed values

Table 1: Efficacy of different insecticides against jamun seed borer, A.kerrichi (Narayanan et al.)

J. Hortl. Sci.
Vol. 14(2) : 166-168, 2019

REFERENCES

Anjana S., P.D. Kamala Jayanthi, B.R. JayanthiMala
and A. Rekha. 2019. Differential attraction of
Ja mun seed bor er,  Anselmella kerrichi
(Narayanan, Subba Rao & Patel, 1988) to
various colour traps. Pest Man. in Hort.
Eco.25 (1):121-122

Kamala Jayanthi P. D., Anjana S., Rekha, A., Jayanthi
Mala , B. R.  2019.  Eulophid seed bor er,
Anselmella kerrichi (Na r a ya na n et a l. ;
Hymenoptera), an emerging pest of Jamun.
Cur, Sci., 117 (6): 922-924

Na ra ya na n,  E.S.,  Subba  Rao, B. R.  a nd Patel,
G.A.A.1957. A new pteromalid genus from
India. Ind. J. Ent. 19: 202-203

Shabozoi, N.U.K., Abro, G.H., Syed, T.S., Awan,
M.S. , 2011.  Economic appra isa l of pest
management options in Okra . Pak.  J.  of
Zool.43, 869-879.

Warrier, P, Nambiar, V. and Ramankutty, C. 1996.
Indian Medical Plants, Orient Longman Ltd.,
Hyderabad, 5: 225-228

(Received on 9.9.2019 , Revised on 7.12.2019 and accepted on 20.12.2019)