Trophic ecology of citrus pests based on stable isotope analysis

Santi-Júnior, Adelino de; Botteon, Victor Wilson; Mastrangelo, Thiago; Moreira, Marcelo Zacharias

doi:10.1590/1678-992x-2016-0496

Cited by 2 publications

(2 citation statements)

References 36 publications

(38 reference statements)

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“…This technique has the potential to track energy or mass flow through ecological communities and help to discern complex trophic interactions, such as omnivory (Post, 2002). Studying the natural abundance of SI allowed us to evaluate trophic relationships (Morente & Ruano, 2022), infer animal diet types (Santi‐Júnior et al, 2018) and assess species interactions (Caut et al, 2009). However, to do so, it is important to know the isotopic enrichment rate, which may change in different species (Quinby et al, 2020; Spence & Rosenheim, 2005), as well as the time needed for isotopes to be incorporated in the tissues of our species of interest (Franssen et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Elucidating the trophic role of Tapinoma ibericum (Hymenoptera: Formicidae) as a potential predator of olive pests

Álvarez

García‐García

Sandoval

et al. 2023

J Applied Entomology

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Ants play a key role in improving the structure and function of local communities. They interact with plants, herbivores, predators and parasitoids and are able to change their trophic role in space and time. These features, however, make it difficult to establish the net trophic role of ants in agroecosystems. Here we aim to determine the isotopic enrichment and tissue incorporation rates in ants of the Tapinoma nigerrimum complex, which are found abundantly in olive orchards (i.e. T. ibericum), to determine their trophic role through stable isotopes analysis. We compared the isotopic signature of ants feeding on (1) natural diets, (2) experimental diets and (3) contrasting diets of ants inhabiting natural habitats and olive orchards with different management systems. Then, we contrasted our isotopic results on natural diets with the prey of ant foragers in olive orchards. Our results showed that (1) ants from olive orchards had an isotopic signature different from that of a hyper‐predator; (2) the isotopic signature did not vary significantly amongst different management practices and (3) the diet of ants in nature varies greatly on preys according to resource availability, which may be reflected in isotopic signatures. Therefore, T. ibericum is a species that can potentially contribute to control olive pests without posing a risk to other natural enemies because commonly it is not a hyper‐predator. The information presented here could be used by farmers and technicians to enhance local biological control planning and/or strategies in olive orchards.

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Section: Introductionmentioning

confidence: 99%

Elucidating the trophic role of Tapinoma ibericum (Hymenoptera: Formicidae) as a potential predator of olive pests

Álvarez

García‐García

Sandoval

et al. 2023

J Applied Entomology

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“…Most SIA studies are considered natural abundance studies because they exploit the natural variations in stable isotope signatures within ecosystems. Variation in the natural abundance of isotope ratios create spatial and temporal patterns that allow estimations of habitat use (Post, 2002), track nutrient flow (Collier et al ., 2002), evaluate nutritional status (Gannes et al ., 1998), determine nutrient assimilation into tissue (Tieszen & Fagre, 1993), evaluate trophic relationships (Santi‐Júnior et al ., 2018), estimate animal diets (Divine et al ., 2017;), assess species interactions (Caut et al ., 2006), and determine animal movements (Vander Zanden et al ., 2015). In contrast, SIA studies using artificially enriched isotopic compounds as tracers are referred to as enrichment studies (see McDermott et al ., 2019).…”

Section: Introductionmentioning

confidence: 99%

Stable isotope ecology in insects: a review

Quinby

Creighton

Flaherty

2020

Ecological Entomology

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1. The use of stable isotope analysis (SIA) in ecological research has dramatically increased in recent years largely because it allows researchers to investigate ecological questions that have been previously difficult to address. 2. Ecological applications of SIA include estimating fundamental niche space and overlap, evaluating trophic or species level interactions, and investigating food web structure. Increasingly, researchers have been incorporating SIA in studies of animal migration, disease transmission, diet composition, nutrient assimilation, and body condition among others. 3. Studies using SIA to evaluate the ecology of terrestrial insects have lagged behind other taxonomic groups. This poor representation of stable isotope studies in publications likely stems from a lack of familiarity of entomologists with this technique. 4. An improved understanding of SIA, as well as the advantages and disadvantages specifically related to insect research, will benefit the field of entomology. In addition, insect-model systems provide unique opportunities for entomologists to incorporate SIA in their research to advance our knowledge of insect biology and the stable isotope ecology of insects. 5. We provide background information on stable isotopes, explain sources of isotopic variation, describe the processes of how isotopes are differentially routed and incorporated into an individual's tissues, explain the principles that influence isotopic fractionation and discrimination, highlight different methods and advancements in SIA, review innovative stable isotope studies, and provide an overview of common mistakes, considerations, and future directions entomologists can explore.

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Trophic ecology of citrus pests based on stable isotope analysis

Cited by 2 publications

References 36 publications

Elucidating the trophic role of Tapinoma ibericum (Hymenoptera: Formicidae) as a potential predator of olive pests

Elucidating the trophic role of Tapinoma ibericum (Hymenoptera: Formicidae) as a potential predator of olive pests

Stable isotope ecology in insects: a review

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