Tree diversity promotes predator but not omnivore ants in a subtropical Chinese forest

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Tree diversity promotes predator but not omnivore ants in a subtropical Chinese forest. / Staab, Michael; Schuldt, Andreas; Aßmann, Thorsten et al.
In: Ecological Entomology, Vol. 39, No. 5, 10.2014, p. 637-647.

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@article{fd36b8b242af4255a1c0b89afdfecf52,
title = "Tree diversity promotes predator but not omnivore ants in a subtropical Chinese forest",
abstract = "1. Epigeic ants are functionally important arthropods in tropical and subtropical forests, particularly by acting as predators. High predation pressure has been hypothesised to be a mechanism facilitating high diversity across trophic levels.2. In this study, standardised pitfall traps were used in a highly diverse subtropical forest to test if and how ant species richness is related to tree species richness and a comprehensive set of other environmental variables such as successional age, soil properties or elevation.3. A total of 13 441 ant individuals belonging to 3839 species occurrences and 71 species were collected, of which 26 species were exclusive predators and 45 species were omnivores.4. Occurrence and species richness of total and omnivore ants were positively related to soil pH. Predator ant occurrence was unrelated to all environmental variables tested.5. The species richness of predator ants increased with tree species richness but decreased with leaf functional diversity and shrub cover. Elevation negatively influenced only total ant species richness.6. The evenness of predators increased with tree species richness, while the evenness of all ants decreased with shrub cover. Omnivore ant evenness decreased with tree evenness, but increased with successional age.7. The results highlight the value of diverse forests in maintaining species richness and community evenness of a functionally important predator group. Moreover, the results stress the importance of analysing trophic groups separately when investigating biodiversity effects",
keywords = "Environmental planning, BEF-China, Biodiversity effects, Formicidae, Gutianshan National Nature Reserve, Soil properties, Species diversity, Trophic guilds, vegetation structure",
author = "Michael Staab and Andreas Schuldt and Thorsten A{\ss}mann and Alexandra-Maria Klein",
year = "2014",
month = oct,
doi = "10.1111/een.12143",
language = "English",
volume = "39",
pages = "637--647",
journal = "Ecological Entomology",
issn = "0307-6946",
publisher = "Royal Entomological Society",
number = "5",

}

RIS

TY - JOUR

T1 - Tree diversity promotes predator but not omnivore ants in a subtropical Chinese forest

AU - Staab, Michael

AU - Schuldt, Andreas

AU - Aßmann, Thorsten

AU - Klein, Alexandra-Maria

PY - 2014/10

Y1 - 2014/10

N2 - 1. Epigeic ants are functionally important arthropods in tropical and subtropical forests, particularly by acting as predators. High predation pressure has been hypothesised to be a mechanism facilitating high diversity across trophic levels.2. In this study, standardised pitfall traps were used in a highly diverse subtropical forest to test if and how ant species richness is related to tree species richness and a comprehensive set of other environmental variables such as successional age, soil properties or elevation.3. A total of 13 441 ant individuals belonging to 3839 species occurrences and 71 species were collected, of which 26 species were exclusive predators and 45 species were omnivores.4. Occurrence and species richness of total and omnivore ants were positively related to soil pH. Predator ant occurrence was unrelated to all environmental variables tested.5. The species richness of predator ants increased with tree species richness but decreased with leaf functional diversity and shrub cover. Elevation negatively influenced only total ant species richness.6. The evenness of predators increased with tree species richness, while the evenness of all ants decreased with shrub cover. Omnivore ant evenness decreased with tree evenness, but increased with successional age.7. The results highlight the value of diverse forests in maintaining species richness and community evenness of a functionally important predator group. Moreover, the results stress the importance of analysing trophic groups separately when investigating biodiversity effects

AB - 1. Epigeic ants are functionally important arthropods in tropical and subtropical forests, particularly by acting as predators. High predation pressure has been hypothesised to be a mechanism facilitating high diversity across trophic levels.2. In this study, standardised pitfall traps were used in a highly diverse subtropical forest to test if and how ant species richness is related to tree species richness and a comprehensive set of other environmental variables such as successional age, soil properties or elevation.3. A total of 13 441 ant individuals belonging to 3839 species occurrences and 71 species were collected, of which 26 species were exclusive predators and 45 species were omnivores.4. Occurrence and species richness of total and omnivore ants were positively related to soil pH. Predator ant occurrence was unrelated to all environmental variables tested.5. The species richness of predator ants increased with tree species richness but decreased with leaf functional diversity and shrub cover. Elevation negatively influenced only total ant species richness.6. The evenness of predators increased with tree species richness, while the evenness of all ants decreased with shrub cover. Omnivore ant evenness decreased with tree evenness, but increased with successional age.7. The results highlight the value of diverse forests in maintaining species richness and community evenness of a functionally important predator group. Moreover, the results stress the importance of analysing trophic groups separately when investigating biodiversity effects

KW - Environmental planning

KW - BEF-China

KW - Biodiversity effects

KW - Formicidae

KW - Gutianshan National Nature Reserve

KW - Soil properties

KW - Species diversity

KW - Trophic guilds

KW - vegetation structure

U2 - 10.1111/een.12143

DO - 10.1111/een.12143

M3 - Journal articles

VL - 39

SP - 637

EP - 647

JO - Ecological Entomology

JF - Ecological Entomology

SN - 0307-6946

IS - 5

ER -

DOI