References
- Barlow ND, Caldwell NP, Kean JM, Barron MC. 2000. Modelling the use of NPV for the biological control of Asian gypsy moth Lymantria dispar invading New Zealand. Agr For Entomol. 2:173–184.
- Bigsby KM, Ambrose MJ, Tobin PC, Sills EO. 2014. The cost of gypsy moth sex in the city. Urban For Urban Gree. 13:459–468.
- Diss AL, Kunkel JG, Montgomery ME, Leonard DE. 1994. Effects of maternal nutrition and egg provisioning on parameters of larval hatch, survival and dispersal in the gypsy moth, Lymantria dispar L. Oecologia 106:470–477.
- Doane CC, McManus ML. 1980. The gypsy moth: research toward integrated pest management. Technical Bulletin 1584. Washington, DC: USDA
- Elkinton JS, Liebhold AM. 1990. Population dynamics of gypsy moth in North America. Annu Rev Entomol. 35:571–596.
- Freeman EA, Ford ED. 2002. The effects of data quality on analysis of ecological pattern using the K(d) statistical function. Ecology 83:35–46.
- Hajek AE, Tobin PC. 2009. North American eradications of Asian and European gypsy moth. In: Hajek AE, Glare TR, O'Callaghan M, editors. Use of microbes for control and eradication of invasive arthropods. Netherlands: Springer; p. 71–89.
- Higashiura Y. 1989. Survival of eggs in the gypsy moth Lymantria dispar. II. Oviposition site selection in changing environments. J Anim Ecol. 58:413–126.
- Ishii H, Asano S. 2010. The role of crown architecture, leaf phenology and photosynthetic activity in promoting complementary use of light among coexisting species in temperate forests. Ecol Res. 25:715–722.
- Ishii H, Ohsugi Y. 2011. Light acclimation potential and carry-over effects vary among three evergreen tree species with contrasting patterns of leaf emergence and maturation. Tree Physiol. 31:819–830.
- Iwaizumi R, Arakawa K, Koshio C. 2010. Nocturnal flight activities of the female Asian gypsy moth, Lymantria dispar (Linnaeus) (Lepidoptera: Lymantriidae). Appl Entomol Zool. 45:121–128.
- Iwasaki A, Ishii H. 2005. Vegetation structure of fragmented shrine/temple forests in southeastern Hyogo Prefecture – Estimation of edge-effect distance and minimum conservation area. Humans and Nature 15:29–42.
- Japan Meteorological Agency. 2016. Electronic database for climate [cited 2016 Feb 15]. Available from: http://www.data.jma.go.jp/obd/stats/etrn/index.php (in Japanese).
- Jikumaru S. 2008. Outbreaks of Lymantria dispar in Hiroshima Prefecture for the first time in ca. 40 years and their mortality factors. Forestry Chemicals. 183:8–13. (in Japanese)
- Jikumaru S. 2013. Oviposition preferences of the Japanese Gypsy moth, Lymantria dispar japonica (Motschulsky, 1860) (Insecta: Lepidoptera: Erebidae: Lymantriinae), on evergreen broad-leafed tree leaves in Hiroshima Prefecture, Japan. Life Excit Biol. 1:225–240.
- Johnson DM, Liebhold AM, Tobin PC, Bjørnstad ON. 2006. Allee effects and pulsed invasion by the gypsy moth. Nature 444:361–363.
- Keena MA, Cote MJ, Grinberg PS, Wallne WE. 2008. World distribution of female flight and genetic variation in Lymantria dispar (Lepidoptera: Lymantriidae). Environ Entomol. 37:636–649.
- Kira T. 1991. Forest ecosystems of East and Southeast Asia in a global perspective. Ecol. Res. 6:185–200.
- Koshio C. 1996. Pre-ovipositional behaviour of the female Gypsy Moth, Lymantria dispar L. (Lepidoptera, Lymantriidae). Appl Entomol Zool. 31:1–10.
- Liebhold AM, Sharov AA, Tobin PC. 2007. “Slow the spread”: a national program to manage the gypsy moth. Chapter 2, Population biology of gypsy moth spread; p. 15–109. USDA Forest Service Northern Research Station General Technical Report NRS-6. Newtown Square, PA: USDA Forest Service. Available from: http://www.nrs.fs.fed.us/pubs/gtr/gtr_nrs6.pdf
- Loosemore BN, Ford ED. 2006. Statistical inference using the G or K point pattern spatial statistics. Ecology 87:1925–1931.
- Matsuki M, Kay M, Serin J, Floyd R, Scott JK. 2001. Potential risk of accidental introduction of Asian gypsy moth (Lymantria dispar) to Australasia: effects of climatic conditions and suitability of native plants. Agr Fore Entomol. 3:305–320.
- Morimoto J, Yoshida H. 2005. Dynamic changes of native Rhododendron colonies in the urban fringe of Kyoto city in Japan: detecting the long-term dynamism for conservation of secondary nature. Landscape Urban Plan. 70:195–204.
- Nakane T. 2007. Colored illustrations of the insects of Japan, 47th ed. Tokyo: Hoikusha.
- Osono T. 2008. Endophytic and epiphytic phyllosphere fungi of Camellia japonica: seasonal and leaf age-dependent variations. Mycologia 100:387–391.
- Peterson AT, Williams R, Chen G. 2007. Modeled global invasive potential of Asian gypsy moths, Lymantria dispar. Entomol Exp Appl. 125:39–44.
- R Core Team. 2013. R: a language and environment for statistical computing. Vienna, Austria: R Foundation for Statistical Computing. Available from: https://www.R-project.org/
- Refsnider JM, Janzen FJ. 2010. Putting eggs in one basket: ecological and evolutionary hypotheses for variation in oviposition-site choice. Annu Rev Ecol Evol Syst. 41:39–57.
- Ripley BD. 1979. Tests of ‘randomness’ for spatial point patterns. J Roy Stat Soc B. 41: 368–374.
- Schaefer PW. 1978. Betula platyphylla: the preferred oviposition host of Lymantria dispar japonica in Hokkaido, Japan. Environ Entomol. 7:168–170.
- Sharov AA, Leonard D, Liebhold AM, Roberts EA, Dickerson W. 2002. ‘Slow the spread’: a national program to contain the gypsy moth. J For. 100:30–35.
- Tanouchi H, Yamamoto S. 1995. Structure and regeneration of canopy species in an old-growth evergreen broad-leaved forest in Aya district, southwestern Japan. Vegetatio 117:51–60.
- Ueno S, Tomaru N, Yoshimaru H, Manabe T, Yamamoto S. 2000. Genetic structure of Camellia japonica L. in an old-growth evergreen forest, Tsushima, Japan. Mol Ecol. 9:647–656.
- Webb RE, Ridgway RL, Thorpe KW, Tatman KM, Wieber AM, Venables L. 1991. Development of a specialized gypsy moth (Lepidoptera: Lymantriidae) management program for suburban parks. J Econ Entomol. 84:1320–1328.