Open access journal: http://periodicos.uefs.br/ojs/index.php/sociobiology
ISSN: 0361-6525

DOI: 10.13102/sociobiology.v62i3.595Sociobiology 62(3): 459-460 (September, 2015)

New Distribution Record of Reticulitermes speratus Kolbe (Isoptera: Rhinotermitidae) in 
the Coldest Highland in Central Japan

The Japanese subterranean  termite Reticulitermes 
speratus Kolbe (Isoptera: Rhinotermitidae) is a very important 
ecological component in the cycling of organic matter via 
decomposition of litter and dead wood (Donovan et al., 2001). 
In addition, it is a very important destructive pest, causing 
extensive damage to wooden structures (Su, 2002). The 
termite is distributed in the Korean peninsula, Kyushu island, 
Shikoku island, Honshu island, and southwestern Hokkaido 
island (Austin et al., 2002; Park et al., 2006; Kim et al., 2012). 
Although the northern limit of R. speratus distribution has 
been investigated (Aoyama & Murakami, 2003), little is 
known about an altitudinal limit. Reticulitermes speratus has 
expanded its geographic range from southwestern into central 
Hokkaido island (Aoyama & Murakami, 2003); however the 
termites found in central Hokkaido nested and overwintered 
near places artificially kept warm in winter. In addition, the 
new distribution records of the termites in Hokkaido were 
discontinuous, suggesting an anthropogenic origin of termite 
populations in central Hokkaido were artificially introduced.

Sugadaira highland, Ueda City, Nagano Prefecture, 
central Japan lies at an altitude of approximately 1300 m and 
is one of the coldest areas in central Japan. Reticulitermes 

Abstract
The distribution of Reticulitermes speratus Kolbe was investigated 
in the Sugadaira highland, the coldest area in central Japan. We 
found R. speratus in an empty lot in June 2013. The following 
spring, we found the overwintered termites in the log, which had 
been naturally covered in snow. Conversely, the population size 
in the empty lot had decreased from April through June 2014. 
Moreover, R. speratus were not found in the forest. These suggest 
that the individuals found in the empty lot had been artificially 
introduced and the establishment might be difficult in the coldest 
areas in Japan.

Sociobiology
An international journal on social insects

E Takagi, T Ogai

Article History

Edited by
Og de Souza, UFV, Brazil
Received                       24 September  2014
Initial acceptance        14 January  2015
Final acceptance          12 February 2015

Keywords
Cold tolerance, establishment, invasion, 
Japanese termite.

Corresponding author
Etsuro Takagi
Sugadaira Montane Research Center 
University of Tsukuba, Sugadaira Kogen, 
Ueda 386-2204, Nagano, Japan
E-Mail: takagi@sugadaira.tsukuba.ac.jp

speratus has not been found in the Sugadaira highland or in 
the northernmost part of Hokkaido. Monthly temperatures in 
the Sugadaira highland are lower than those in northernmost 
Hokkaido and are slightly higher than those in central Hokkaido 
(Japan Meteorological Agency, 2014). We accordingly 
hypothesized that R. speratus could invade artificially, but 
the termites could not overwinter or be established in the 
coldest areas in central Japan. We investigated the presence 
of R. speratus in the Sugadaira highland. Our objectives of 
this study were as follows: 1) to determine the presence of R. 
speratus in summer, and 2) to determine whether R. speratus 
overwinters and is established in the Sugadaira highland.

Two study areas were selected in the Sugadaira highland 
(36°31′N, 138°20′E). The first was an empty lot where four 
logs of Japanese red pine, Pinus densiflora Siebold & Zucc., 
three logs of Nikko fir, Abies homolepis Siebold & Zucc., and > 
10 logs of Japanese alder, Alnus japonica (Thunb.) Steud. were 
piled and left away (> 20 m) from houses. To assess the presence 
of R. speratus in spring, we identified log species using bark 
characteristics. Subsequently, on June 19, 2013, we dissected one, 
one, and three logs of Japanese red pine, Nikko fir, and Japanese 
alder, respectively, and recorded the presence of R. speratus.

SHORT NOTE

Sugadaira Montane Research Center, University of Tsukuba, Nagano, Japan



E Takagi, T Ogai - Reticulitermes speratus overwinters in the coldest highland460

When the termites were found in the logs, the logs 
in the empty lot were experimentally left and the termites in 
the logs were allowed to overwinter and be covered in snow. 
To determine whether R. speratus had overwintered in the 
Sugadaira highland, all Japanese red pine and Nikko fir logs, 
and 10 Japanese alder logs were dissected, and the presence 
of R. speratus was recorded on April 22, 2014, immediately 
after the logs emerged from under snow. Moreover, the logs 
were dissected, and the presence of R. speratus was recorded 
on June 18, 2014.

The second study area was in the Sugadaira Montane 
Research Center, University of Tsukuba, 1.2 km away from 
the empty lot. To assess the presence of R. speratus in early 
summer in the forest, we conducted a census in the site’s 
center. On July 24, 2014, all Japanese red pine logs found 
along the observation route in the Japanese red pine forest 
and in the Japanese red pine and broad-leaved mixed forest 
were dissected, and the presence of R. speratus was recorded.

To record under-snow temperatures, two temperature 
loggers (iButton®, Maxim Integrated Products, Inc., California, 
USA) were placed in the center of the logs from December 22, 
2013, through April 1, 2014.

We found R. speratus nesting in a Japanese red pine 
log in spring 2013. To the best of our knowledge, this is a new 
distribution record of R. speratus in the coldest area of central 
Japan. No termites were found in Nikko fir or Japanese alder logs.

Reticulitermes speratus is not found in the northernmost 
part of Hokkaido because of low winter temperatures (Aoyama 
& Murakami, 2003), but temperatures in the Sugadaira highland 
are lower than those in the northernmost part of Hokkaido 
(The Japan Meteorological Agency, 2014). Thus, our results 
suggest that R. speratus can damage wooden structures in 
early summer not only in the coldest areas in central Japan, 
but also in northernmost Hokkaido.

We found R. speratus nesting in a Japanese red pine 
log in spring 2014; however, only a few individuals were 
found in the logs in the following early summer. Again, no 
termites were found in Nikko fir or Japanese alder logs. The 
results indicate that the overwintering of R. speratus might be 
difficult, although under-snow temperatures in the Sugadaira 
highland ranged from −0.5°C to 0.5°C.

In addition, termites or their tunnels were not found in 
45 Japanese red pine logs along the observation route in the 
forest, at the site’s center. This suggests that the individuals 
found in the empty lot had been artificially introduced. Although 
R. speratus was not established in the study area, artificial 
introductions may temporarily affect the cycling of organic 
matter via decomposition of litter and dead wood in the Sugadaira 
highland, as well as in northernmost and central Hokkaido.

Acknowledgments

We are grateful to Dr. Yuta Mashimo and Ms. Michiyo 
Matsushima (Sugadaira Montane Research Center, University 

of Tsukuba) for providing information about the distribution 
of R. speratus in Japan. We also thank Mr. Teruyoshi Kimura 
(Sugadaira Kogen, Ueda, Nagano) for his assistance with field 
surveying. This study was supported by Research and Education 
Funding for Japanese Alps Inter-Universities Cooperative Project, 
MEXT, Japan.

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