Additive interaction between a root‐knot nematode Meloidogyne javanica and a root‐feeding flea beetle Longitarsus bethae on their host Lantana camara

Musedeli, Jufter N; Simelane, David O.; Hill, Martin; Marais, Mariette

doi:10.1002/ps.5493

Cited by 4 publications

(2 citation statements)

References 57 publications

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“…The ecological relevance of how herbivore impacts combine is obvious, both from a basic and an applied perspective. For instance, information on nonadditivity could help inform policies on pest suppression in agricultural crops (Barber et al 2012;Gagic et al 2016) and strategies for biological control of weeds by herbivorous insects (Wooley et al 2011;Musedeli et al 2019). More contentious, however, is the issue of whether nonadditivity of herbivore impact is relevant to the evolution of host plants.…”

Section: Introductionmentioning

confidence: 99%

Why fitness impacts of different herbivores may combine nonadditively, and why it matters to the ecology and evolution of plant-herbivore communities

Wise¹

2023

plecevo

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Background and aims – The manner by which the effects of multiple antagonists combine is a fundamental issue in ecology. This issue has been especially important in plant-herbivore evolutionary ecology—particularly predicting whether the combined fitness impacts of multiple herbivores on a shared host plant can be inferred by simply adding the individual impacts that each herbivore has when feeding alone. Despite accumulating empirical data, relatively little theoretical progress has been made in explaining why impacts of herbivore damage often combine nonadditively, as well as predicting the conditions that lead to a greater-than-additive (synergistic) or to a less-than-additive (subadditive) pattern. Material and methods – Based on considerations of limiting resources and source-sink relationships, I proposed and tested two hypotheses: 1) The fitness impacts of two species of herbivores that affect the same resource (i.e. feed on the same tissue in a similar fashion) will combine in a synergistic pattern (if that resource is not limiting reproduction when plants do not experience herbivory), and 2) The fitness impacts of two herbivores that affect different resources (i.e. feed on different tissues) will combine in a subadditive pattern. I performed a field experiment in which horsenettle (Solanum carolinense) was exposed to a factorial combination of four levels of leaf herbivory and five levels of simulated floral herbivory. Key results – The results were consistent with both hypotheses: 1) The combined fitness impact of flower damage that was simulated as being caused by two florivorous species feeding on the same plants was greater than the sum of the same total amount of damage when the two species were simulated as feeding individually; and 2) The combined fitness impact of the leaf and floral damage was less than the sum of the same total amount of damage when the two species fed individually. Conclusions – The main ecoevolutionary implication of these results is that subadditive impacts of leaf- and flower-feeding herbivores could weaken selection for resistance in horsenettle (or any plant species that hosts multiple herbivores), and thus subadditive impacts may contribute to the maintenance of diverse herbivore communities sharing a species of host plant.

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Section: Introductionmentioning

confidence: 99%

Why fitness impacts of different herbivores may combine nonadditively, and why it matters to the ecology and evolution of plant-herbivore communities

Wise¹

2023

plecevo

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“…For example, one study showed that a root-eating flea beetle Longitarsus bethae performed better on Lantana camara plants infected with M. javanica than on plants with healthy roots (Musedeli, 2020). On the other hand, other study showed that soybean cyst root nematode Heterodera glycine negatively affects the above-ground leaf-chewing Spodoptera litura by increasing the developmental time and decreasing adult body weight .…”

Section: Introductionmentioning

confidence: 99%

Interaction of tomato plants infected by the nematode Meloidogyne javanica on aboveground herbivore Tetranychus urticae and on behaviour of its predator Phytoseiulus macropilis

Morales Murillo

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Tritrophic interactions play an important role in the dynamics of arthropods with their hosts. By inducing defenses, plants respond to herbivore attacks, may affect your development. The general objective of this research was to investigate the effect of the nematode Meloidogyne javanica on the performance of the herbivore Tetranychus urticae in tomato plants and, subsequently, whether the nematode infestation affectedthe behavior of its predator Phytoseiulus macropilis. In the first experiment with the herbivore, tomato plants were infested with 2,000 eggs of the nematode M. javanica for a period of 40 days. The immature development, oviposition and preference for choosing plants with or without the nematode were evaluated. A second experiment was carried out with different levels of nematode eggs’ infestation (1,000 and 6,000) atdifferent exposure times (15, 30, and 45 days after infestation). In this experiment, onlyimmature development and survival were evaluated. The spider mite in the first experiment did not show significant differences on immature development and survival,oviposition and preference. For the second experiment, the development of the herbivore T. urticae was affected, with high mortality compared to the control at 30 and45 days after nematode infestation. For the predatory mite, preference experiments evaluated plants attacked simultaneously by the herbivore mite and the nematode or only by the herbivore mite. The predatory mite showed no preference for plants inoculated with the nematode, however, more eggs were found in these plants. The results of this study indicated that with high initial infestation and over time of exposureto the pathogen, the quality of the plant is affected and, consequently, the performanceof aboveground herbivores. The attraction of more predators to plants with nematode infestation increased after 24 hours, which may have varied the number of females that oviposited in this treatment. Thus, it is important to understand the effect on plants when they are attacked by spatially separated organisms above and below ground. In the same way, knowing the importance of direct and indirect interactions in ecological communities it is possible to develop new management techniques andstrategies for crop protection. Keywords: Tritrophic interactions. Root system. Aboveground herbivory. Induced response.

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Age-dependent resistance and tolerance of an invasive tree to above- and belowground herbivore interactions: Implications for invasiveness and biological control

Shen

Guo

2021

Biological Control

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Additive interaction between a root‐knot nematode Meloidogyne javanica and a root‐feeding flea beetle Longitarsus bethae on their host Lantana camara

Cited by 4 publications

References 57 publications

Why fitness impacts of different herbivores may combine nonadditively, and why it matters to the ecology and evolution of plant-herbivore communities

Why fitness impacts of different herbivores may combine nonadditively, and why it matters to the ecology and evolution of plant-herbivore communities

Interaction of tomato plants infected by the nematode Meloidogyne javanica on aboveground herbivore Tetranychus urticae and on behaviour of its predator Phytoseiulus macropilis

Age-dependent resistance and tolerance of an invasive tree to above- and belowground herbivore interactions: Implications for invasiveness and biological control

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