1National Termite Control Center of China, Moganshan Road 695, Hangzhou, Zhejiang 310011, 
P. R. China; 2Ministry of Agriculture Key Laboratory of Molecular Biolog y of Crop Pathogens and 
Insects, Institute of Insect Sciences, Zhejiang University at Zijingang, Ruhangtang Road 866, Hangzhou, 
Zhejiang 310058, P. R. China.

* Corresponding author. Email: mojianchu@zju.edu.cn

1365

Ivermectin Dust for the Control of Coptotermes formosanus in 
Residential Areas

by

Jing yang Zhao1, Ying Dong2, Baoting Yu2, Zhen Zhang2 & Jianchu Mo2*

ABSTRACT

Coptotermes formosanus Shiraki is an important termite severely damage 
wood components of housing construction and old living trees in residential 
areas in south of China. The 70% mirex dust was one of important chemical 
products to control this termite damage. As the completely elimination of 
mirex in May 2009 in China, one of key works for Chinese researchers on 
termite control is to find the alternatives of mirex product. In present study, 
we evaluated the effect of 3% ivermectin dust to eliminate the colonies of C. 
formosanus in residential areas of Hangzhou city, Zhejiang province, China 
from April 2010 to May 2012. The results indicated that when 20-30 grams 
of 3% ivermectin dust were applied onto the body of termites feeding in 
four monitor devices at 18-80 meter far from the C. formosanus nests, the 
termite colonies would be eliminated completely within three and half 
to eight months. This means 3% ivermectin dust was a good alternative 
of 70% mirex dust and could be used for subterranean termite control 
through the method of dusting in the monitor devices.

Keywords: Copototermes formosanus, ivermectin dust, colony, dusting 
technolog

Y.INTRODUCTION

The Formosan subterranean termite, Coptotermes formosanus Shiraki, is a 
native species of termites to China (Kistner 1985), and causes worldwide over 
2 billion U.S. dollars in damage and control costs each year (Potter 1997). 
Before May 2009, mirex dust and mirex bait are main products for control-



1366  Sociobiolog y Vol. 59,  No. 4, 2012

ling the damage of C. formosanus in China. As the completely elimination of 
mirex in Chinese termite control industry, ivermectin becomes a potential 
alternative of mirex. Some researches found that ivermectin had good lethal 
and sublethal effects on termites (Mo et al. 2005; Mo et al. 2006; Wang et 
al. 2007). When termites in monitor-controlling devices were treated with 
ivermectin dust and bait, damage of termites could be inhibited greatly (Mo et 
al. 2006; Wang et al. 2007; Jiang et al. 2011). However, it is not clear whether 
ivermectin dust could eliminate completely the colony of C. formosanus when 
it was applied in the monitor devices far to termite nest until now. Thus, the 
objective of this study is to evaluate the feasibility of 3% ivermectin dust to 
eliminate the C. formosanus colonies by means of monitor devices.

MATERIALS & METHODS

Chemical
The 3% ivermectin dust was provided by Deqing Institute of Termite 

Control, Zhejiang Province, China. 
Monitor-controlling device
The monitor-controlling devices for this study were provided by the Hang-

zhou Changlian Pest Control Technolog y Co., Ltd. (Hangzhou, China). 
This device was hollow cuboid and was 8 cm in length, 8 cm in width and 
18 cm in height. There were eight pine wooden blocks in its inner wall and 
empty cavity.

Test sites
The termite colonies tested was locating at the residential area of Hang-

zhou city, Zhejiang province and totally five Coptotermes formosanus colonies 
were tested.

Test procedures
Firstly, some monitor devices were installed in the area near to the nest of 

C. formosanus in the reason of termite activity of 2010. When most of monitor 
devices were infested by termites, all termites in two monitor devices 50 cm 
far to the termite nest were collected and labeled with filter papers treated by 
0.5% neutral red solution in laboratory. Then labeled termites were released 
into original two monitor devices. After that, the monitor devices were 
checked every week within one month. During check, if dyed termites in 



1367  Zhao, J. et al. —  vermectin dust for Coptotermes termite control

a monitor devices were found, and the position of the monitor device was 
marked on the map.

After the activity territory of termite colony was determined, application 
of dust was done. For each treated colony, only foraging worker termites 
feeding in four monitor devices farthest to the termite nest were treated by 
dust (5-10 grams of dust was applied to each device and totally 20-30 grams 
of dust for one colony were applied) and other monitor device with termite 
infestation were left for the observation of termite activity. Then the termite 
activity in untreated and treated monitor devices was checked every month. 
During check, if the woods were all consumed by termites, new woods would 
be added continuously into the monitor devices. When termite activities 
in untreated and treated monitor devices were not found within at least six 
continuing months in termite activity seasons, the test was ended. 

RESULTS

Colony one 
 Totally 40 monitor devices was installed in the place near to the Formosan 

subterranean nest located in the Zhijiang Community of Hangzhou City on 
April 5, 2010 (Fig. 1). Termite invasion was found in 10 monitor devices near 
to the nest on April 25. There was termite invasion in 22 monitor devices on 
June 9. Termite individuals dye labeled test showed that the termites within 
these monitor devices belonged to the same colony. Termites in four monitor 
devices were treated with about 25 grams of 3% ivermectin dust on July 11, 
2010. The distance from the farthest devices treated to the termite nest was 24 
m. When check on August 15, no termite was found in four devices treated 
but there were still some termites to be found in other untreated devices. 
When check on October 25, 2010, no termite activity was found in all devices 
with originally termite infestation. There was still no termite activity to be 
observed in these monitor devices from April 2011 to May 2012.(   termite 
nest;    monitor device with termite infestation;    monitor device without 
termite infestation;     monitor device treated with 3% ivermectin dust)

Colony two
  Totally 25 monitor devices was installed in the place near to the Formosa 

subterranean nest located in the Huajiachi Community of Hangzhou City 



1368  Sociobiolog y Vol. 59,  No. 4, 2012

on June 11, 2010 (Fig. 2). Termite invasion was found in 22 monitor devices 
on July 9 and dye labeled test verified that the termites within these monitor 
devices were from the same colony. After using about 20 grams 3% ivermectin 
dust to treat the termites feeding in four monitor devices (the farthest one to 
the nest was 38 m) on August 12, 2010, no termite activity was found in all 
untreated and treated devices when check on December 16, 2010. Moreover, 
no termite renewed to invade into these monitor devices during the period 
from April 2011 to May 2012.

Colony three 
 Totally 30 monitor devices was installed in the place near to the Formosa 

subterranean nest located in the Yuquan Community of Hangzhou City on 
July 14, 2010 (Fig. 3). Of which, 23 monitor devices was invaded by termites 
up to August 5 and dye labeled test showed that these termites were from 
the same colony. We used about 25 grams of 3% ivermectin dust to treat the 
termites feeding in four monitor devices (which the farthest one to the nest 
was 18 m) on September 10, 2010. Only few termites were found in part of 

Fig. 1. Sketch map of termite monitor device distribution.    termite nest;    monitor device with 
termite infestation;    monitor device without termite infestation;     monitor device treated with 
3% ivermectin dust)



1369  Zhao, J. et al. —  vermectin dust for Coptotermes termite control

monitor devices when check on December 2, 2010 and no termite activity 
was found in all untreated and treated devices when check again on May 10, 
2011. Meanwhile, we did not also find any termites in these monitor devices 
during the period from June 2011 to May 2012.

Colony four
  Totally 30 monitor devices was installed in the place near to the Formosa 

subterranean nest located in the Xixi Community of Hangzhou City on June 
18, 2010 (Fig. 4). Among these monitor devices, 19 monitor devices was 
infested by termites when check on July 6 and dye labeled test showed that 
these termites were from the same colony. About 30 grams of 3% ivermectin 
dust were dusted onto the body of termites feeding in four monitor devices 
(which the farthest one to the nest was 80 m) on August 18. We did not find 
any termites in all untreated and treated devices when check on December 

Fig. 2. Sketch map of termite monitor device distribution.    termite nest;    monitor device with 
termite infestation;    monitor device without termite infestation;     monitor device treated with 3% 
ivermectin dust



1370  Sociobiolog y Vol. 59,  No. 4, 2012

20, 2011. In addition, we did not also find any termites to enter into these 
monitor devices during the period from late April 2011 to late May 2012.

(termite nest;    monitor device with termite infestation;    monitor device 
without termite infestation;     monitor device treated with 3% ivermectin 
dust)

Colony five.
  Totally 35 monitor devices was installed in the place near to the Formosa 

subterranean nest located in the Lianhua Community of Hangzhou City on 
June 21, 2010 (Fig. 5). Consequently, 22 monitor devices detected termite 
activity up to July 19 and we found the termites in these monitor devices 
came from the same colony through dye labeled test. About 30 grams of 3% 
ivermectin dust were applied onto the termites feeding in four monitor devices 
(which the farthest one to the nest was 41 m) on August 22. Up to Novem-
ber 5, 2010, we did not find any termite activity in all untreated and treated 
devices. During the check from late April 2011 to late May 2012, no.

Fig. 3. Sketch map of termite monitor device distribution termite nest;    monitor device with termite 
infestation;    monitor device without termite infestation;     monitor device treated with 3% ivermectin 
dust)



1371  Zhao, J. et al. —  vermectin dust for Coptotermes termite control

Fig. 4. Sketch map of termite monitor device .with termite distribution.distribution. device distribution 
termite nest;    monitor device with termite infestation;    monitor device without termite infestation;     
monitor device treated with 3% ivermectin dust)

ig. 4. Sketch map of termite monitor device .with termite distribution.distribution. device distribution 
termite nest;    monitor device with termite infestation;    monitor device without termite infestation;     
monitor device treated with 3% ivermectin dust)



1372  Sociobiolog y Vol. 59,  No. 4, 2012

DISCUSSION

In China, C. formosanus locates at the area of north latitude 33.5° and is an 
amphibious termite which severely damage wood components of housing con-
struction, stored cellulose materials, living trees, and communication facilities. 
It causes tremendous economic losses every year in China. Therefore, people 
hope to have better method to control the damage of C. formosanus.

At present, there are two potential approaches to the management of 
subterranean termite colony: exclusion and population suppression (Su 
1993). Since the monitoring-baiting station was developed to detect and 
eliminate foraging population of subterranean termites (Su 1995), this 
technolog y has been broadly used in subterranean termite management in 
China. However, the success of this technolog y relied greatly on the bait for 
termite control. Unfortunately, there is no perfect bait in Chinese market 
until now. In past decades, Chinese termite control operators have been 
using dusting technolog y to control termite damage. Under the condition 
without good baits, after the completely elimination of mirex in May 2009, 
they hope to have suitable alternatives to be used in the dusting technolog y. 
The 3% ivermectin dust was one of alternatives of 70% mirex dust. Our test 
results indicated that 20~30 grams of 3% ivermectin dust could eliminate 
completely the Formosan subterranean termite colonies within three and 
half to eight months when it was dusted onto the body of foraging workers 
feeding in four monitor devices at 18-80 meter far from the termite nests. 
Clearly, 3% ivermectin dust could replace completely the 70% mirex dust 
and be used for subterranean termite control. 

Lin et al. (2011) reported that when about 30 grams of 0.3% fipronil dust 
was applied onto termites feeding in a bait box, the whole colony of C. formo-
sanus could be extinguished within one month. This means 3% ivermectin dust 
applied into four monitor devices needs longer time to eliminate completely a 
C. formosanus colony compared with 0.3% fipronil dust applied in a bait box. 
The reason caused this phenomenon could be that there are more termites in 
a bait box than in four monitor devices. In the near future, the effect of 3% 
ivermectin dust and 0.3% fipronil dust to control Formosan subterranean 
termites feeding in monitor devices should be further evaluated.



1373  Zhao, J. et al. —  vermectin dust for Coptotermes termite control

ACKNOWLEDGMENTS

This work was supported financially by the Natural Science Foundation of 
China (Project No.: 31170611) and the Zhejiang Provincial Natural Science 
Foundation of China (Project No.: Z3100211). 

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