A simulation-based method to compare the pest suppression potential of predators: A case study with spiders

Benhadi‐Marín, Jacinto; Pereira, José Alberto; Barreales, David; Sousa, José Paulo; Santos, Sónia A.P.

doi:10.1016/j.biocontrol.2018.05.007

Cited by 10 publications

(11 citation statements)

References 41 publications

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“…overlapped with those obtained byBenhadi-Marín et al (2018).Regarding the multiple-prey experiments, our results clearly demonstrated that the presence of alternative prey can shift the predatory efficiency of a generalist predator on a target prey species. For the single-prey experiments, the most and the least efficient spider species against C. capitata were H. rufipes and S. globosum, respectively.…”

supporting

confidence: 74%

“…Finally, the maximum attack rate T/T h (i.e., the maximum number of prey that can be attacked by a predator during the time interval considered) was estimated for each spider species as 24/T h and its confidence intervals generated using the simaR library (Benhadi-Marín et al, 2018). In order to test the effect of additional prey species within the arenas, the multiple-prey functional response analysis was performed for each spider species as described for the single-prey functional responses considering C. capitata as target prey ignoring the other prey species, and then compared with the single-prey functional response assays through the confidence intervals.…”

Section: Functional Response Assaysmentioning

confidence: 99%

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Functional responses of three guilds of spiders: Comparing single‐ and multiprey approaches

Benhadi‐Marín

Pereira

Sousa

et al. 2019

Annals of Applied Biology

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Spiders are successful natural enemies of pests occurring throughout the different strata of an agroecosystem. The study of their functional responses can provide information related to the potential effectiveness of different species and guilds on reducing a pest population. However, multiple prey availability may change the functional response of a predator. In this study, the functional responses of three species of spiders in single-prey and multiple-prey experiments were modelled. The spider species Haplodrassus rufipes, Araniella cucurbitina and Synema globosum were chosen as being representatives of ground runners, orb-weavers and ambushers, respectively. Three prey species were selected: a target prey, the Mediterranean fruit fly Ceratitis capitata and two alternate prey species, the flour moth Ephestia kuehniella and the house cricket Acheta domesticus. When the selected target prey C. capitata was supplied in the single-prey experiments, the most and the least efficient spider species were H. rufipes and S. globosum, respectively. However, opposite results were obtained when alternative preys were supplied. Also, A. cucurbitina significantly changed its functional response with the presence of alternative prey species. Considering the prey preference during the multiple-prey experiments, A. domesticus, used as representative of a heavy, long-sized and highly motile prey, was avoided whereas C. capitata, the target pest used as representative of light, small-sized and moderately motile prey was preferred by the three species of spiders. Ephestia kuehniella, used as representative of light, medium-sized and low motile prey was occasionally consumed. Each guild could include efficient predators against pests according to its hunting strategies and the ecological exploited niches. Orb-weavers could be efficient predators against flying pests; ambushers such as S. globosum could contribute to the reduction of the populations of flower-visiting pests, whereas active ground hunters may also play an important role preying on pests that develop a part or all of its life cycle in the ground. However, further research on feeding behaviour such as prey switching is needed for a better understanding of the effectiveness of spiders as natural enemies.

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supporting

confidence: 74%

Section: Functional Response Assaysmentioning

confidence: 99%

Functional responses of three guilds of spiders: Comparing single‐ and multiprey approaches

Benhadi‐Marín

Pereira

Sousa

et al. 2019

Annals of Applied Biology

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“…The confidence limits (95%) were determined to consider the differences between the attack rate (a) and the handling time (h) between the three developmental stages using the frair_boot function from the same package. We calculated the maximum attack rate (T/h) and its 95% confidence limits using the function Max_attackRates from the simaR package [32].…”

Section: Discussionmentioning

confidence: 99%

Functional Response of Chrysoperla carnea (Neuroptera: Chrysopidae) Larvae on Saissetia oleae (Olivier) (Hemiptera: Coccidae): Implications for Biological Control

et al. 2020

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Chrysoperla carnea (Stephens) (Neuroptera: Chrysopidae) is a voracious predator of soft-bodied insects such as juveniles of scale insects and the black scale Saissetia oleae (Olivier) (Hemiptera: Coccidae) is an important pest of several crops, such as the olive tree. However, the predatory efficiency of C. carnea on S. oleae has been unstudied yet. The present work aimed to study the functional response of larvae of C. carnea fed on S. oleae nymphs. In a controlled laboratory environment, increasing densities of S. oleae second and third nymph stages were offered to newly emerged specimens of the three larvae instars of C. carnea. After 24 h, the number of killed S. oleae was recorded and the functional response of C. carnea was assessed. The three larval stages of C. carnea displayed a type-II functional response, i.e., killed prey increased with higher S. oleae densities up to a maximum limited by the handling time. The attack rate did not significantly differ among the three instars while the maximum attack rate was significantly higher for the third instar. The handling time of the first larval instar of C. carnea was higher than that of the third instar. Our results demonstrated that S. oleae could act as a food resource for all larval stages of C. carnea. Furthermore, the third larval stage of the predator was the most efficient in reducing S. oleae densities. These results suggest that C. carnea larvae could contribute to S. oleae control in sustainable agriculture.

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“…The ratio of 1/T h represents the maximum predation rate considering a predator that spends all its time handling (i.e., 24 h here). The CIs for maximum predation rate were obtained from a set of 20 simulated samples, and 50 datasets (i.e., 50 simulated replicates) were generated for this study by using "simaR" R software package (Benhadi-Marín et al, 2018). Again, significant differences in maximum predation rates among the temperatures were calculated by non-overlapping CIs.…”

Section: Functional Response Assaysmentioning

confidence: 99%

Functional Response of Harmonia axyridis to the Larvae of Spodoptera litura: The Combined Effect of Temperatures and Prey Instars

Islam

Shah²,

Güncan³

et al. 2022

Front. Plant Sci.

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Functional responses are central to predator–prey dynamics and describe how predation varies with prey abundance. Functional responses often are measured without regard to prey size (i.e., body mass) or the temperature dependence of feeding rates. However, variation in prey size within populations is ubiquitous, and predation rates are often both size and temperature-dependent. Here, we assessed functional responses of larvae and adult Harmonia axyridis on the 1st, 2nd, and 3rd instars of the prey Spodoptera litura across a range of temperatures (i.e., 15, 20, 25, 30, and 35°C). The type and parameters of the functional responses were determined using logistic regression and fitted to the Roger's random predator equation. The magnitude of predation varied with the predator and prey stage, but prey predation increased with warming and predator age. Predation by the female and 4th instar of H. axyridis on the 1st instar of prey was greater, followed by the 2nd and 3rd instar of prey S. litura. No predation occurred on the larger prey for the 1st, 2nd, and 3rd instars of H. axyridis. The larvae and adult H. axyridis produced a type II (hyperbolic) functional response curve across all temperatures and the three prey types they consumed. Space clearance rates, handling time, and maximum predation rates of H. axyridis changed with temperature and prey size, increasing with temperature and decreasing with prey size, suggesting more predation will occur on younger prey. This study indicates an interactive role of temperature and prey/predator size in shaping functional responses, which might complicate the planning of effective biocontrol strategies against this serious pest.

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A simulation-based method to compare the pest suppression potential of predators: A case study with spiders

Cited by 10 publications

References 41 publications

Functional responses of three guilds of spiders: Comparing single‐ and multiprey approaches

Functional responses of three guilds of spiders: Comparing single‐ and multiprey approaches

Functional Response of Chrysoperla carnea (Neuroptera: Chrysopidae) Larvae on Saissetia oleae (Olivier) (Hemiptera: Coccidae): Implications for Biological Control

Functional Response of Harmonia axyridis to the Larvae of Spodoptera litura: The Combined Effect of Temperatures and Prey Instars

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