Your search keyword '"Segoli, Michal"' showing total 7 results

1. Plant-mediated resource partitioning by coexisting parasitoids

Author

Xi, Xinqiang, Yang, Yangheshan, Yang, Yonghua, Segoli, Michal, and Sun, Shucun

Published

2017

2. Invasive brown widow spiders avoid parasitism despite high densities.

Author

Mowery, Monica A., Arabesky, Valeria, Rozenberg, Tamir, Lubin, Yael, and Segoli, Michal

Subjects

PARASITOIDS, BROOD parasitism, EGG cases (Zoology), PREDATION, INVASIVE plants, PARASITISM, WIDOWS, BLACK widow spider, HABITAT selection

Abstract

Invasive species are sometimes less susceptible to natural enemies compared to native species, but the mechanism is often unclear. Here we tested two potential mechanisms for lower parasitism of invasive species: density-dependent parasitism and preference for human-dominated habitats. We investigated how variation in host density and habitat type affect egg sac parasitism in two widow spider species (family Theridiidae). We compared parasitism on the egg sac of the brown widow, Latrodectus geometricus, an urban invasive species, and the white widow, Latrodectus pallidus, a species native to Israel. To investigate variation in host and parasitoid density, we measured nearest-neighbor distance between spider webs and parasitism rates in 16 sites, and in a single site monthly throughout a year. In L. pallidus, denser sites were more heavily parasitized (up to 55%) and parasitism rate increased with population density throughout the season. Extremely dense L. geometricus populations, however, had very low rates of parasitism (0–5%). We then conducted an egg sac transplant experiment in human-dominated and natural habitats. We found no parasitism of either species in the human-dominated habitat, compared to 30% parasitism of both species in the natural habitat. In addition, we found evidence for higher predation of L. pallidus than of L. geometricus egg sacs, particularly in the natural habitat. These combined results suggest that the human-dominated habitats inhabited by L. geometricus have a lower abundance of predators and parasites. We conclude that lower parasitism and predation in human-dominated habitats could contribute to the invasion success of L. geometricus. [ABSTRACT FROM AUTHOR]

Published

2023

3. Differential parasitism of native and invasive widow spider egg sacs.

Author

Mowery, Monica A, Arabesky, Valeria, Lubin, Yael, and Segoli, Michal

Subjects

EGG cases (Zoology), WIDOWS, SPIDER webs, BLACK widow spider, SPIDER venom, BROOD parasitism, PARASITISM

Abstract

During colonization, invasive species establish and spread to new locations, where they may have an advantage over native species. One such advantage may be avoidance of predators or parasites by means of better defenses or due to lower suitability as a host. We conducted field surveys and lab behavioral experiments to investigate the differential susceptibility of two widow spider species—one native to Israel, the white widow spider Latrodectus pallidus , and one invasive species, the brown widow spider, Latrodectus geometricus —to an egg sac parasitoid wasp, Philolema latrodecti. In collections of egg sacs from six paired sites of L. geometricus and L. pallidus populations in the Negev Desert, Israel, we found higher parasitism rates on the egg sacs of the native L. pallidus. In no-choice trials, we found that wasps were more likely to parasitize and oviposited longer on L. pallidus egg sacs than on L. geometricus egg sacs. In two-choice tests with spider webs and egg sacs, parasitoids made first contact with L. pallidus webs more often and faster. After developing inside of L. pallidus egg sacs, more parasitoids emerged and were larger than those emerging from L. geometricus egg sacs. Potentially better defense of the L. geometricus egg sacs as well as the parasitoid's fitness advantages gained from parasitizing L. pallidus egg sacs may explain the higher parasitism rate in the native species. Our results suggest that the invasion and establishment success of L. geometricus is due, in part, to its ability to escape parasitism. [ABSTRACT FROM AUTHOR]

Published

2022

4. The unique interaction between the summer annual desert plant Salsola inermis Forssk and weevils residing on its roots: mutualism or parasitism?

Author

Meng, Fengqun, Rundel, Philip W., Sharifi, M. Rasoul, Bar‐Shmuel, Nitsan, and Segoli, Michal

Subjects

DESERT plants, ANNUALS (Plants), CURCULIONIDAE, PLANT biomass, PARASITISM, PLANT size, PLANT defenses

Abstract

1. Herbivores and parasites are likely to impose less damage on their host when their growth rate is slow and their dependency on the host is high. Accordingly, it was hypothesised that evolution would favour neutral or even beneficial interactions between a below‐ground herbivore and a plant during the harsh season in a desert ecosystem. 2. This study characterised the relationship between the summer annual plant Salsola inermis Forssk (Chenopodiaceae) and weevils developing in a mud chamber attached to its roots in the Negev Desert of Israel. Plant seedlings were exposed to adult weevils (Conorhynchus palumbus Olivier or Menecleonus virgatus Schoenherr; Coleoptera: Curculionidae) in a controlled outside setting, to induce oviposition and larval establishment. The following were quantified: plant growth, above‐ground biomass, fruit biomass, and fruit size, as well as relative C and N contents, and isotopic signatures (δ13C and δ15N) in plant tissues. 3. Exposure to weevils did not reduce plant survival but significantly and negatively affected plant growth and seed production. However, these effects were mainly due to above‐ground herbivory by adults rather than root herbivory by larvae, and might have been overestimated. Interestingly, %N and δ15N were significantly higher, and the C:N ratio was significantly lower, in plants with larval establishment, suggesting that weevils affect the plant nitrogen budget. 4. The overall results do not support the notion of mutualistic interactions; yet, slow consumption, a low infestation level, and, possibly, N supplementation to the plant may enable the plant to tolerate herbivory under natural conditions. [ABSTRACT FROM AUTHOR]

Published

2020

5. Why do predators attack parasitized prey? Insights from a probabilistic model and a literature survey.

Author

Segoli, Michal, Papegay, Yves, Rozenberg, Tamir, and Wajnberg, Eric

Subjects

*PREDATORY insects, *PREDATION, *BIOLOGICAL fitness, *WASPS, *PARASITISM

Abstract

Predators and parasitoids often encounter parasitized prey or hosts during foraging. While the outcomes of such encounters have been extensively studied for insect parasitoids, the consequences of a predator encountering parasitized prey have received less attention. One extreme example involves the potter wasp Delta dimidiatipenne that frequently provision their nest with parasitized caterpillars, despite the low suitability of this prey for consumption by their offspring. This raises two main questions: (1) why do female potter wasps continue collecting parasitized caterpillars? and (2) is this an exceptional example, or do predatory insects often suffer from fitness costs due to encounters with parasitized prey? We addressed the first question using a probabilistic mathematical model predicting the value of discrimination between parasitized and unparasitized prey for the potter wasp, and the second question by surveying the literature for examples in which the parasitism status of prey affected prey susceptibility, suitability, or prey choice by a predator. The model demonstrates that only under certain conditions is discrimination against parasitized prey beneficial in terms of the potter wasp's lifetime reproductive success. The literature survey suggests that the occurrence of encounters and consumption of parasitized prey is common, but the overall consequences of such interactions have rarely been quantified. We conclude that the profitability and ability of a predator to discriminate against parasitized prey under natural conditions may be limited and call for additional studies quantifying the outcome of such interactions. • Predators and parasitoids often encounter parasitized prey/host during foraging. • Delta dimidiatipenne often provision their nests with parasitized caterpillars. • Model showed that not always is discrimination against parasitized prey beneficial. • Review showed that parasitized prey is often more susceptible, but of lower quality. • This may have important implications for predator-parasitoid-prey interactions. [ABSTRACT FROM AUTHOR]

Published

2024

6. Effects of habitat type and spatial scale on density dependent parasitism in Anagrus parasitoids of leafhopper eggs.

Author

Segoli, Michal

Subjects

*HABITATS, *PARASITISM, *PARASITOIDS, *LEAFHOPPERS, *INSECT eggs, *DENSITY dependence (Ecology), *DEMOGRAPHIC change

Abstract

The ability of parasitoids to maintain a high rate of parasitism under varying conditions is considered crucial to their ability to control the populations of their hosts. Here, I tested parasitism rate by Anagrus parasitoids and its dependency on the density of Erythroneura leafhopper eggs at two spatial scales (leaf and field) and two habitat types (natural vs. agricultural). The rate of parasitism differed among field sites, increased across the season, and was similar in natural and agricultural sites. At the leaf scale, the rate of parasitism was density-independent or inversely density-dependent, consistent with a weak aggregation of parasitoids on leaves with high host densities and with limited oviposition-rate or egg supply. At the field scale, in contrast, parasitism rate was positively dependent on host density, which may be explained by demographic processes, such as higher recruitment and higher fecundities of females in host-rich field sites. Overall, the results demonstrate that parasitism patterns are highly dynamic in time and space and depend on the scale of observation. [ABSTRACT FROM AUTHOR]

Published

2016

7. Repeated probing of hosts: an important component of superparasitism.

Author

Keinan, Yael, Kishinevsky, Miriam, Segoli, Michal, and Keasar, Tamar

Subjects

HOSTS of parasitoids, PARASITISM, HOSTS (Biology), PUPAE, COPIDOSOMA

Abstract

Parasitoids that encounter a previously parasitized host inspect it externally and internally, sometimes eventually laying additional eggs (superparasitism). The fitness effects of increased clutch sizes generated through superparasitism are widely studied, whereas the consequences of multiple host probings during the inspection received less attention. To address this issue, we offered a host to 1–5 females of the encyrtid wasp Copidosoma koehleri consecutively, or presented it 1–5 times to a single female. We noted whether the hosts died before pupation of either host or wasp, produced parasitoid pupae, or developed into moth pupae. Additional hosts were dissected after varying numbers of probings to determine their parasitoid egg loads. Host rejection rates prior to ovipositor insertion did not differ between treatments. Host rejections after ovipositor insertion, characterized by brief (<10 s) probing durations, were more common in the single- than in the multiple-female treatment. This could reflect avoidance of self-superparasitism, or increased selectivity by host-experienced females. Egg number per host increased with the number of prolonged probings in both treatments. Some hosts that received 1–2 probings (brief or prolonged) yielded moth pupae, while no hosts with five probings survived to pupation. Hosts probed three times (corresponding to <1 and 2.2 eggs in the single- and multiple-female treatments, respectively) produced the largest proportion of parasitoid pupae. The parasitoids’ success is thus strongly affected by the number of host probings. Overcoming host defenses through repeated probings is a previously overlooked potential benefit of superparasitism. [Behav Ecol] [ABSTRACT FROM PUBLISHER]

Published

2012