TY - JOUR
T1 - An analysis of mutualistic interactions between exotic ants and honeydew producers in the Yanbaru district of Okinawa Island, Japan
AU - Tanaka, Hirotaka
AU - Ohnishi, Hitoshi
AU - Tatsuta, Haruki
AU - Tsuji, Kazuki
N1 - Funding Information:
Acknowledgments We thank Masami Hayashi for identification of Sogata hakonensis and Masakazu Sano for identifications of Aphis nasturtii, Metanipponaphis cuspidatae, and Melanaphis formosana. We also thank Alexander S. Mikheyev for his comments on our earlier manuscript. This study was supported in part by KAENHI (no. 21247006), a Young Investigator Research Grant from the University of the Ryukyus, and Mitsui and Co., Ltd. Environment Fund (no. 08R-B047). The Subtropical Field Science Center (Yona Field) of the University of the Ryukyus and the Yanbaru Wildlife Conservation Field Center of the Ministry of the Environment, Japan, also supported our work.
PY - 2011/9
Y1 - 2011/9
N2 - Invasive exotic ants often have a mutualistic relationship with other insects excreting honeydew, and this is considered to play a key role in their invasion success. We investigated the multispecies association patterns between ants and hemipteran insects in the Yanbaru forests, Okinawa, Japan, an Asian biodiversity hotspot. We especially focused on roadside environments, which are the frontlines of invasion for exotic ants. We found that only a small number of herbaceous and pioneer plants were predominant on the roadsides. Four honeydew producers, Melanaphis formosana, Dysmicoccus sp. A, Heteropsylla cubana, and Sogata hakonensis, living on these roadside plants accounted for 94.9% of the total honeydew-producer aggregations observed. Only a few exotic ants, such as Technomyrmex brunneus and Anoplolepis gracilipes, were observed with these honeydew-producer aggregations, and densities of these ants and honeydew producers were often positively correlated. An ant exclusion experiment showed that exotic ant occurrence improved the survival of some of the hemipteran colonies. Interestingly, the abundance of native ants was not correlated with the abundance of honeydew producers, and the local density of Pheidole noda was negatively correlated with that of M. formosana. These findings, i. e., only a few ants, all exotic, tended to hemipteran honeydew producers despite the existence of many native ants, and the abundances of those exotic ants and those hemipteran insects had positive correlations, provide some insights into the mechanism of biological invasion and provide information for the management of exotic ants.
AB - Invasive exotic ants often have a mutualistic relationship with other insects excreting honeydew, and this is considered to play a key role in their invasion success. We investigated the multispecies association patterns between ants and hemipteran insects in the Yanbaru forests, Okinawa, Japan, an Asian biodiversity hotspot. We especially focused on roadside environments, which are the frontlines of invasion for exotic ants. We found that only a small number of herbaceous and pioneer plants were predominant on the roadsides. Four honeydew producers, Melanaphis formosana, Dysmicoccus sp. A, Heteropsylla cubana, and Sogata hakonensis, living on these roadside plants accounted for 94.9% of the total honeydew-producer aggregations observed. Only a few exotic ants, such as Technomyrmex brunneus and Anoplolepis gracilipes, were observed with these honeydew-producer aggregations, and densities of these ants and honeydew producers were often positively correlated. An ant exclusion experiment showed that exotic ant occurrence improved the survival of some of the hemipteran colonies. Interestingly, the abundance of native ants was not correlated with the abundance of honeydew producers, and the local density of Pheidole noda was negatively correlated with that of M. formosana. These findings, i. e., only a few ants, all exotic, tended to hemipteran honeydew producers despite the existence of many native ants, and the abundances of those exotic ants and those hemipteran insects had positive correlations, provide some insights into the mechanism of biological invasion and provide information for the management of exotic ants.
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U2 - 10.1007/s11284-011-0851-2
DO - 10.1007/s11284-011-0851-2
M3 - Article
AN - SCOPUS:80052667782
SN - 0912-3814
VL - 26
SP - 931
EP - 941
JO - Ecological Research
JF - Ecological Research
IS - 5
ER -