Rainforest conversion to plantations fundamentally alters energy fluxes and functions in canopy arthropod food webs

Pollierer, Melanie M.; Drescher, Jochen; Potapov, Anton; Kasmiatun,; Mawan, Amanda; Mutiari, Mega; Nazarreta, Rizky; Hidayat, Purnama; Buchori, Damayanti; Scheu, Stefan

doi:10.1111/ele.14276

Cited by 7 publications

(5 citation statements)

References 66 publications

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“…High ∆ 13 C values indicate that the food web is fueled by detrital resources (“detrital shift”; Potapov et al 2019 ), whereas low ∆ 13 C values indicate a rather herbivore-fueled food web (Krause et al 2021 ; Wildermuth et al 2023 ). This suggests that prey organisms in conifer canopies predominantly consume decaying material, microbes and fungi, while prey in beech stands mostly consume living leaves (Pollierer et al 2023 ). However, the observed ∆ 13 C patterns may also reflect different feeding strategies of tree species specific herbivore communities, such as the selective use of easy to digest plant compounds with high ∆ 13 C (Pollierer et al 2023 ).…”

Section: Discussionmentioning

confidence: 99%

“…This suggests that prey organisms in conifer canopies predominantly consume decaying material, microbes and fungi, while prey in beech stands mostly consume living leaves (Pollierer et al 2023 ). However, the observed ∆ 13 C patterns may also reflect different feeding strategies of tree species specific herbivore communities, such as the selective use of easy to digest plant compounds with high ∆ 13 C (Pollierer et al 2023 ). High ∆ 15 N values in beech stands hint toward an additional trophic level compared to coniferous stands (Scheu and Falca 2000 ), likely reflecting more pronounced intra-guild predation in beech (Wildermuth et al 2023 ).…”

Section: Discussionmentioning

confidence: 99%

“…5 d). Such a top-heavy food web as in beech may be explained by the phenology of deciduous trees, which do not provide resources for herbivores during winter (Pollierer et al 2023 ). This also indicates that pest control provided by spiders may be more pronounced in beech than in coniferous stands, even though spiders are more abundant in conifers.…”

Section: Discussionmentioning

confidence: 99%

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Tree species identity, canopy structure and prey availability differentially affect canopy spider diversity and trophic composition

Wildermuth,

Dönges,

Matevski

et al. 2023

Oecologia

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Forest canopies maintain a high proportion of arthropod diversity. The drivers that structure these communities, however, are poorly understood. Therefore, integrative research connecting tree species identity and environmental stand properties with taxonomic and functional community composition of canopy arthropods is required. In this study, we investigated how the taxonomic, functional and trophic composition of arboreal spider communities is affected by tree species composition and associated differences in canopy structure and prey availability in temperate forests. We sampled canopy spiders as well as their potential prey using insecticidal fogging in monospecific and mixed stands of native European beech, native Norway spruce and non-native Douglas fir. Trophic metrics were obtained from stable isotope analysis and structural canopy properties were assessed with mobile laser scanning. Monospecific native spruce stands promoted local canopy spider abundance and diversity, but native beech and beech–conifer mixtures had the highest diversity at landscape scale. Spider community composition differed between monospecific stands, with broadleaf–conifer mixtures mitigating these differences. Irrespective of tree species identity, spider abundance, taxonomic diversity, functional richness and isotopic richness increased in structurally heterogeneous canopies with high prey abundances, but functional evenness and trophic divergence decreased. Our study shows that canopy spiders are differentially affected by tree species identity, canopy structure and prey availability. Broadleaf–conifer mixtures mitigated negative effects of (non-native) conifers, but positive mixture effects were only evident at the landscape scale. Structurally heterogeneous canopies promoted the dominance of only specific trait clusters. This indicates that intermediate heterogeneity might result in high stability of ecological communities.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Tree species identity, canopy structure and prey availability differentially affect canopy spider diversity and trophic composition

Wildermuth,

Dönges,

Matevski

et al. 2023

Oecologia

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“…Using canopy fogging, 48 Utivarachna specimens were collected in Jambi Province, Sumatra, Indonesia, in the dry season of 2013. The specimens were found in a collection of more than half a million canopy arthropods (Pollierer et al, 2023), stemming from 96 individual canopy fogging events in 32 permanent research plots of the EFForTS project (Drescher et al, 2016). Research plots were evenly distributed among four land-use systems: lowland rainforest, "jungle rubber" (extensively managed rubber agroforest), and smallholder monocultures of (H. brasiliensis) and oil palm (E. guineensis).…”

Section: Sample Collectionmentioning

confidence: 99%

“…Overall, more than 10,000 spider individuals from more than 30 families and at least 400 species were found among the more than half million canopy arthropods (Ramos et al 2022). More details on the plot design and the EFForTS research framework is given in Drescher et al (2016), on the canopy fogging method in Pollierer et al (2023), and on biodiversity patterns of the collected canopy spider community in Ramos et al (2022).…”

Section: Sample Collectionmentioning

confidence: 99%

Four new species of Utivarachna Kishida, 1940 (Araneae: Trachelidae) from Sumatra

DHIYA’ULHAQ,

DUPÉRRÉ,

BUCHORI

et al. 2024

Zootaxa

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Four new species of trachelid spiders belonging to the genus Utivarachna Kishida, 1940 are described: U. angsoduo sp. nov., U. balonku sp. nov., U. rimba sp. nov., and U. trisula sp. nov. Part of the EFForTS project, the spider specimens were uncovered in a canopy fogging collection of tree crown arthropods along a land-use gradient from rainforest via jungle rubber (rubber agroforestry) to monocultures of rubber and oil palm in Jambi Province, Sumatra, Indonesia. Three of the proposed new species were found exclusively in rainforest or jungle rubber agroforest (U. angsoduo sp. nov., U. rimba sp. nov., U. trisula sp. nov.), and one of them exclusively in monocultures of rubber trees (U. balonku sp. nov.). We provide photographs and distribution maps for the proposed new species, and discuss their potential ecology based on their sampling locations. We also encountered a fifth species of the genus in all four land-use systems, U. phyllicola Deeleman-Reinhold, 2001, one of two species of the genus previously recorded from Sumatra, and also provide photographs and distribution maps for this species in the research area of the EFForTS project.

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Trophic Change and Community Decline in Acrobat Ants After Rainforest Conversion to Cash Crops

Ehlers,

Hartke,

Janotta

et al. 2024

Ecology and Evolution

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The conversion of tropical rainforests to agriculture causes population declines and biodiversity loss across taxa. This impacts ants (Formicidae), a crucial tropical group for ecosystem functioning. While biodiversity loss among ants is well documented, the responses of individual ant taxa and their adjustments in trophic strategies to land‐use change are little studied. Here, we investigated a collection of > 12,000 acrobat ants (Crematogaster) from 14 species collected by canopy fogging in four land‐use systems in Jambi Province, Sumatra, including (1) lowland rainforest, (2) jungle rubber (low impact rubber agroforestry), and monocultures of (3) rubber and (4) oil palm. Abundance‐weighted trophic positions as indicated by stable isotopes of carbon and nitrogen were significantly different between land uses: Lower average, maximum, minimum and range of δ13C values in monocultures than in rainforest and jungle rubber indicate a shift of Crematogaster towards more plant‐based resources, but may be driven substantially by the “canopy effect” of differential carbon assimilation of leaves between lower and higher canopy. Similar Δ15N average, maximum and minimum among the land uses, but a significantly reduced range of Δ15N in monocultures, suggest lowered trophic diversity and increased stochasticity of trophic niches in monocultures. In contrast, community decline in Crematogaster was very pronounced, with density, richness and rarity in monocultures of rubber and oil palm at a fraction of that in rainforest and jungle rubber. Crematogaster communities in oil palm formed a subset of those in rubber, which were a subset of those in jungle rubber, which were a subset of those in rainforest. A notable exception was Crematogaster ferarii, which was exclusively found in oil palm. In conclusion, tropical land‐use change induces slight shifts in the trophic structure of Crematogaster communities, but massive declines in its density and diversity. This likely affects Crematogaster‐driven ecosystem functions in agricultural systems in Southeast Asia.

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Rainforest conversion to plantations fundamentally alters energy fluxes and functions in canopy arthropod food webs

Cited by 7 publications

References 66 publications

Tree species identity, canopy structure and prey availability differentially affect canopy spider diversity and trophic composition

Tree species identity, canopy structure and prey availability differentially affect canopy spider diversity and trophic composition

Four new species of Utivarachna Kishida, 1940 (Araneae: Trachelidae) from Sumatra

Trophic Change and Community Decline in Acrobat Ants After Rainforest Conversion to Cash Crops

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