TY - JOUR
T1 - Increased seed predation in the second fruiting event during an exceptionally long period of community-level masting in Borneo
AU - Iku, Asano
AU - Itioka, Takao
AU - Kishimoto-Yamada, Keiko
AU - Shimizu-Kaya, Usun
AU - Mohammad, Fatimah Bte
AU - Hossman, Mohamad Yazid
AU - Bunyok, Azimah
AU - Rahman, Mohd Yusuf Abd
AU - Sakai, Shoko
AU - Meleng, Paulus
N1 - Funding information:
Japanese Ministry of Education, Science and Culture
Publisher copyright:
© 2017 The Ecological Society of Japan
PY - 2017/7
Y1 - 2017/7
N2 - In Southeast Asian tropical rainforests, community-level masting (CM) occurs at irregular intervals of 2–10 years. During CM periods, many plant species from various families synchronously flower and subsequently undergo community-level fruiting. Seed predation is a key factor in understanding the ecological and evolutionary factors affecting CM. Masting is proposed to decrease seed mortality due to predation in two ways: by depressing predator abundance through extended and unpredictable absences of seeds; and by satiating predators via mass seed production (predator satiation hypothesis). If the hypothesis is valid in these rainforests, the incidence of seed predation will be higher in a fruiting event that occurs soon after a previous fruiting event, because the intervening period of seed absence would be inadequate to starve the predators. In this study, we examined seed predation by insects, focusing on five dipterocarp species that exceptionally reproduced twice during an extended CM period. All of the five species suffered more intense seed predation in the second fruiting event, consistent with the prediction expected from the predator satiation hypothesis. Weevils, bark beetles and mammals were the main cause of increased seed predation in three, one and one plant species, respectively. However, seed predation intensity did not increase during the second fruiting event in a few combinations of predator and plant species. We discuss the possibility that competition for seeds among predators and/or the interspecific differences in life history traits among predators might affect the varying intensities of seed predation among dipterocarp species by different seed predators.
AB - In Southeast Asian tropical rainforests, community-level masting (CM) occurs at irregular intervals of 2–10 years. During CM periods, many plant species from various families synchronously flower and subsequently undergo community-level fruiting. Seed predation is a key factor in understanding the ecological and evolutionary factors affecting CM. Masting is proposed to decrease seed mortality due to predation in two ways: by depressing predator abundance through extended and unpredictable absences of seeds; and by satiating predators via mass seed production (predator satiation hypothesis). If the hypothesis is valid in these rainforests, the incidence of seed predation will be higher in a fruiting event that occurs soon after a previous fruiting event, because the intervening period of seed absence would be inadequate to starve the predators. In this study, we examined seed predation by insects, focusing on five dipterocarp species that exceptionally reproduced twice during an extended CM period. All of the five species suffered more intense seed predation in the second fruiting event, consistent with the prediction expected from the predator satiation hypothesis. Weevils, bark beetles and mammals were the main cause of increased seed predation in three, one and one plant species, respectively. However, seed predation intensity did not increase during the second fruiting event in a few combinations of predator and plant species. We discuss the possibility that competition for seeds among predators and/or the interspecific differences in life history traits among predators might affect the varying intensities of seed predation among dipterocarp species by different seed predators.
KW - Bornean lowland tropical rainforest
KW - Dipterocarpaceae
KW - General flowering
KW - Insect seed predators
KW - Predator satiation hypothesis
UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85019087251&doi=10.1007%2fs11284-017-1465-0&partnerID=40&md5=8ee5bd8fcadfcb579be62451b54c8499
U2 - 10.1007/s11284-017-1465-0
DO - 10.1007/s11284-017-1465-0
M3 - Journal article
SN - 0912-3814
VL - 32
SP - 537
EP - 545
JO - Ecological Research
JF - Ecological Research
IS - 4
ER -