The role of herbivorous insects and pathogens in the regeneration dynamics of Guazuma ulmifoliain Panama
Allbwn ymchwil: Cyfraniad at gyfnodolyn › Erthygl › adolygiad gan gymheiriaid
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Yn: Journal for Nature Conservation, Cyfrol 32, Rhif 32, 06.03.2019, t. 81-101.
Allbwn ymchwil: Cyfraniad at gyfnodolyn › Erthygl › adolygiad gan gymheiriaid
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T1 - The role of herbivorous insects and pathogens in the regeneration dynamics of Guazuma ulmifoliain Panama
AU - Solé, Raphaële
AU - Gripenberg, Sofia
AU - Lewis, Owen T.
AU - Markesteijn, Lars
AU - Barrios, Héctor
AU - Ratz, Tom
AU - Ctvrtecka, Richard
AU - Butterill, Philip T.
AU - Segar, Simon T.
AU - Metz, Mark A.
AU - Dahl, Chris
AU - Rivera, Marleny
AU - Viquez, Karina
AU - Ferguson, Wessley
AU - Guevara, Maikol
AU - Basset, Yves
PY - 2019/3/6
Y1 - 2019/3/6
N2 - A significant proportion of mortality of rainforest trees occurs during the early life stages (seeds and seedlings), but mortality agents are often elusive. Our study investigated the role of herbivorous insects and pathogens in the early regeneration dynamics of Guazuma ulmifolia (Malvaceae), an important tree species in agroforestry in Central America.We reared pre-dispersal insect seed predators from G. ulmifoliaseeds in Panama. We also carried out an experiment, controlling insects and pathogens using insecticide and/or fungicide treatments, as well as seed density, and compared survivorship of G. ulmifoliaseeds and seedlings among treatments and relative to untreated control plots. We observed (1) high pre-dispersal attack (92%) of the fruits ofG. ulmifolia, mostly by anobiine and bruchine beetles; (2) negligible post-dispersal attack of isolated seeds by insects and pathogens; (3) slow growth and high mortality (> 95%) of seedlings after 14 weeks; (4) low insect damage on seedlings; and (5) a strong positive correlation between seedling mortality and rainfall. We conclude that for G. ulmifoliaat our study site the pre-dispersal seed stage is by far the most sensitive stage to insects and that their influence on seedling mortality appears to be slight as compared to that of inclement weather. Thus, the regeneration of this important tree species may depend on effective primary dispersal of seeds by vertebrates (before most of the seed crop is lost to insects), conditioned by suitable conditions in which the seedlings can grow.
AB - A significant proportion of mortality of rainforest trees occurs during the early life stages (seeds and seedlings), but mortality agents are often elusive. Our study investigated the role of herbivorous insects and pathogens in the early regeneration dynamics of Guazuma ulmifolia (Malvaceae), an important tree species in agroforestry in Central America.We reared pre-dispersal insect seed predators from G. ulmifoliaseeds in Panama. We also carried out an experiment, controlling insects and pathogens using insecticide and/or fungicide treatments, as well as seed density, and compared survivorship of G. ulmifoliaseeds and seedlings among treatments and relative to untreated control plots. We observed (1) high pre-dispersal attack (92%) of the fruits ofG. ulmifolia, mostly by anobiine and bruchine beetles; (2) negligible post-dispersal attack of isolated seeds by insects and pathogens; (3) slow growth and high mortality (> 95%) of seedlings after 14 weeks; (4) low insect damage on seedlings; and (5) a strong positive correlation between seedling mortality and rainfall. We conclude that for G. ulmifoliaat our study site the pre-dispersal seed stage is by far the most sensitive stage to insects and that their influence on seedling mortality appears to be slight as compared to that of inclement weather. Thus, the regeneration of this important tree species may depend on effective primary dispersal of seeds by vertebrates (before most of the seed crop is lost to insects), conditioned by suitable conditions in which the seedlings can grow.
KW - Anobiidae
KW - fungal pathogen
KW - negative density-dependence
KW - rainforest
KW - seed predation
U2 - 10.3897/natureconservation.32.30108
DO - 10.3897/natureconservation.32.30108
M3 - Article
VL - 32
SP - 81
EP - 101
JO - Journal for Nature Conservation
JF - Journal for Nature Conservation
SN - 1617-1381
IS - 32
ER -