Vertical heterogeneity of a forest floor invertebrate food web as indicated by stable‐isotope analysis

Okuzaki, Yutaka; Tayasu, Ichiro; Okuda, Noboru; Sota, Teiji

doi:10.1007/s11284-009-0619-0

Cited by 35 publications

(36 citation statements)

References 57 publications

(70 reference statements)

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“…Hengeveld, 1980;Ribera et al, 1999;Toft & Bilde, 2002). δ 15 N ratios of some soil invertebrates are elevated, probably as a result of the enriched δ 15 N values of basal, detrital resources (see Okuzaki et al, 2009). To resolve finer-scale dietary specialisation among food items with similar stable isotopic profiles, additional field observations or gut content analyses are required.…”

Section: Discussionmentioning

confidence: 99%

“…Analysis of consumer stable isotope composition is useful for quantitative estimations of diet compositions in wildcaught carabid beetles, although estimations of individual food items have rarely been possible using this method (McNabb et al, 2001;Ikeda et al, 2007;Okuzaki et al, 2009;Sasakawa et al, in press). Carbon and nitrogen stable isotope ratios have been used recently to analyse food chains in diverse ecosystems (Post, 2002;Pringle & Fox-Dobbs, 2008;Kato et al, in press).…”

Section: Introductionmentioning

confidence: 99%

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Diverse diet compositions among harpaline ground beetle species revealed by mixing model analyses of stable isotope ratios

Ikeda

Kubota

Kagawa

et al. 2010

Ecological Entomology

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1. Species diversities of some insect lineages have been attributed to differentiation of feeding habits among species. Our objective was to determine variation in diet composition among harpaline ground beetle species occurring in a riverside grassland.2. We examined the diet compositions of 14 species from six genera in the spring and 10 species from two genera in the autumn. We performed measurements of nitrogen and carbon stable isotope ratios in consumers and in their potential food items, and estimated relative contributions of different food items with two mixing models, IsoSource and MixSIR.3. IsoSource and MixSIR software gave similar results, but IsoSource tended to calculate higher contributions of principal food items and smaller percentile ranges than MixSIR. Among harparine beetle species, there were diverse food utilisation patterns among four food categories (detritivorous invertebrates, herbivorous invertebrates, C3 plants, and C4 plants). Detritivores comprised the main diets of abundant harpaline species in the spring, whereas abundant harpaline species in the autumn were primarily herbivores feeding on C4 plants, or omnivores feeding on herbivorous invertebrates and C3 plants. Seasonal changes in food use were related to seasonal changes in the abundance of each food resource. 4. Mixing model analysis of stable isotope ratios is a convenient and effective method for roughly estimating diets of many species with diverse food habits (such as ground beetles). This method can contribute to determining the trophic relationships of related insects in one ecosystem.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Diverse diet compositions among harpaline ground beetle species revealed by mixing model analyses of stable isotope ratios

Ikeda

Kubota

Kagawa

et al. 2010

Ecological Entomology

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“…Several studies have examined soil food webs using both C and N isotopes (Ponsard and Arditi 2000;Scheu and Falca 2000;Schmidt et al 2004;Halaj et al 2005;Okuzaki et al 2009). The d 15 N of detritivores is highly variable ($6&; Ponsard and Arditi 2000), which is attributable to the complexity of the soil food web structure and the dominance of facultative omnivory across all belowground taxonomic groups (Eggers and Jones 2000).…”

Section: Belowground Systemsmentioning

confidence: 99%

Linking aboveground and belowground food webs through carbon and nitrogen stable isotope analyses

Hyodo

Kohzu

Tayasu

2010

Ecological Research

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Carbon and nitrogen stable isotope ratios (d 13 C and d 15 N) have been used for more than two decades in analyses of food web structure. The utility of isotope ratio measurements is based on the observation that consumer d 13 C values are similar (<1& difference) to those of their diet, while consumer d 15 N values are about 3& higher than those of their diet. The technique has been applied most often to aquatic and aboveground terrestrial food webs. However, few isotope studies have examined terrestrial food web structure that includes both above-and belowground (detrital) components. Here, we review factors that may influence isotopic signatures of terrestrial consumers in above-and belowground systems. In particular, we emphasize variations in d 13 C and d 15 N in belowground systems, e.g., enrichment of 13 C and 15 N in soil organic matter (likely related to soil microbial metabolism). These enrichments should be associated with the high 13 C ($3&) enrichment in belowground consumers relative to litter and soil organic matter and with the large variation in d 15 N ($6&) of the consumers. Because such enrichment and variation are much greater than the trophic enrichment generally used to estimate consumer trophic positions, and because many general predators are considered dependent on energy and material flows from belowground, the isotopic variation in belowground systems should be taken into account in d 13 C and d 15 N analyses of terrestrial food webs. Meanwhile, by measuring the d 13 C of key predators, the linkage between above-and belowground systems could be estimated based on observed differences in d 13 C of primary producers, detritivores and predators. Furthermore, radiocarbon ( 14 C) measurements will allow the direct estimation of the dependence of predators on the belowground systems.

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“…Therefore, these ratios can be used to study the foodweb. Recent publications have described soil foodwebs using these ratios (Ponsard and Arditi 2000;Scheu and Falca 2000;Halaj et al 2005;Tiunov 2007;Okuzaki et al 2009). However, isotopic studies on soil foodwebs are still under development.…”

Section: Introductionmentioning

confidence: 99%

Effects of Vegetation Switch and Subsequent Change in Soil Invertebrate Composition on Soil Carbon Accumulation Patterns, Revealed by Radiocarbon Concentrations

et al. 2010

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Vegetation types strongly affect soil organic carbon (SOC) accumulation in the terrestrial ecosystem through multiple factors such as litter quality and soil biodiversity. However, the roles of soil fauna in SOC accumulation remain unclear. The objectives of this study were to (1) examine how changes in litter types and soil animal communities affect SOC accumulation in continuously forested or vegetation-switched forest areas; and (2) discuss the role of soil animals in SOC accumulation in forest ecosystems. We focused on soils that have accumulated on top of a volcanic ash layer in the 268 yr since a volcanic eruption in 1739. The radiocarbon “bomb spike”' in the late 1950s and early 1960s provides a unique isotopic signature of soil carbon age. We investigated the combined effects of litter quality and soil invertebrate function on soil 14C accumulation patterns. To determine the effects of vegetation types on SOC accumulation, we selected 4 types of cool temperate forests, 2 of which had undergone a vegetation switch in about 1960 (conifer to broadleaved forest, CB; broadleaved forest to conifer, BC), and 2 that had continuous forests (conifer forest, CC; broadleaved forest, BB). The Δ14C values at depth intervals in CC were consistent with the expected bomb-14C profile. In contrast, Δ14C patterns in BB, BC, and CB differed from that of CC. Compared to CC, Δ14C values of the other sites showed relatively high 14C concentrations even in deeper soil layers, which suggests the bomb-induced 14C has been transported to a greater depth by soil animals. Current broadleaved forests (BB and CB) had higher biomass of litter-feeding invertebrates than in current coniferous forests (CC and BC). These results suggest that carbon from leaf litter was vertically translocated to deeper soil layers by the abundant soil invertebrates in broad-leaved forests. Disagreement with the expected soil profile in BC suggests that past vegetation (broadleaved forest) has affected the present SOC accumulation pattern.

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Vertical heterogeneity of a forest floor invertebrate food web as indicated by stable‐isotope analysis

Cited by 35 publications

References 57 publications

Diverse diet compositions among harpaline ground beetle species revealed by mixing model analyses of stable isotope ratios

Diverse diet compositions among harpaline ground beetle species revealed by mixing model analyses of stable isotope ratios

Linking aboveground and belowground food webs through carbon and nitrogen stable isotope analyses

Effects of Vegetation Switch and Subsequent Change in Soil Invertebrate Composition on Soil Carbon Accumulation Patterns, Revealed by Radiocarbon Concentrations

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