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122 results on '"Zaviezo, Tania"'

6. Landscape simplification, urbanization, biological invasions, and climate change: a review of the major threats to native coccinellids in Central Chile.

Author

Grez, Audrey and Zaviezo, Tania

Subjects
*NATIVE species, *HARMONIA axyridis, *AGRICULTURE, *URBANIZATION, *PLANT invasions, *BIOLOGICAL invasions, *CLIMATE change, APHID control
Abstract

Coccinellids (Coleoptera) are important natural enemies of pests in agroecosystems. However, worldwide, native species face several threats, including landscape simplification, biological invasions, and climate change. In Central Chile, one of the global biodiversity hotspots, coccinellid communities are very diverse and are composed mostly of native species, which are most common in less disturbed habitats. In alfalfa fields, native coccinellids play a crucial role in the biological control of aphids, even when they are less abundant than exotics. However, in the last 2 decades, native species in this crop have declined in abundance and diversity. Our long‐lasting field and laboratory studies have shown that this decline is associated with: (1) the invasion of Harmonia axyridis (Pallas), which has superior competitive abilities and escapes more from parasitism; (2) the simplification of agricultural landscapes, loss of natural habitats, and urbanization; and (3) increasing environmental temperatures and decreasing precipitation. The decline in native coccinellid populations has resulted in a loss of taxonomic and functional diversity of assemblages, which may jeopardize biological control. Alfalfa fields and natural and semi‐natural habitats may offer an opportunity for the conservation of native coccinellids in agricultural landscapes. Such conservation might be achieved with better management of alfalfa fields and surrounding areas. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Integrating adverse effect analysis into environmental risk assessment for exotic generalist arthropod biological control agents: a three-tiered framework

Author

Paula, Débora P., Andow, David A., Barratt, Barbara I. P., Pfannenstiel, Robert S., Gerard, Philippa J., Todd, Jacqui H., Zaviezo, Tania, Luna, Maria G., Cédola, Claudia V., Loomans, Antoon J. M., Howe, Andy G., Day, Michael D., Ehlers, Clark, Green, Chris, Arpaia, Salvatore, Yano, Eizi, Lövei, Gabor L., Hinomoto, Norihide, Fontes, Eliana M. G., Pires, Carmen S. S., Togni, Pedro H. B., Nechols, James R., Eubanks, Micky D., and van Lenteren, Joop C.

Published
2021
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8. Factors determining variation in colour morph frequencies in invasive Harmonia axyridis populations

Author

Honek, Alois, Brown, Peter M. J., Martinkova, Zdenka, Skuhrovec, Jiri, Brabec, Marek, Burgio, Giovanni, Evans, Edward W., Fournier, Marc, Grez, Audrey A., Kulfan, Jan, Lami, Francesco, Lucas, Eric, Lumbierres, Belén, Masetti, Antonio, Mogilevich, Timofej, Orlova-Bienkowskaja, Marina, Phillips, William M., Pons, Xavier, Strobach, Jan, Viglasova, Sandra, Zach, Peter, and Zaviezo, Tania

Published
2020
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12. Publisher Correction to: Integrating adverse effect analysis into environmental risk assessment for exotic generalist arthropod biological control agents: a three-tiered framework

Author

Paula, Débora P., Andow, David A., Barratt, Barbara I. P., Pfannenstiel, Robert S., Gerard, Philippa J., Todd, Jacqui H., Zaviezo, Tania, Luna, Maria G., Cédola, Claudia V., Loomans, Antoon J. M., Howe, Andy G., Day, Michael D., Ehlers, Clark, Green, Chris, Arpaia, Salvatore, Yano, Eizi, Lövei, Gabor L., Hinomoto, Norihide, Fontes, Eliana M. G., Pires, Carmen S. S., Togni, Pedro H. B., Nechols, James R., Eubanks, Micky D., and van Lenteren, Joop C.

Published
2021
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16. Mating behavior of Pseudococcus calceolariae and Pseudococcus longispinus (Hemiptera: Pseudococcidae): are asexual reproduction and hybridization possible?

Author

Ballesteros, Carolina, Chorbadjian, Rodrigo A, and Zaviezo, Tania

Subjects
ASEXUAL reproduction, ANIMAL sexual behavior, MEALYBUGS, FEMALES, HEMIPTERA, INSECT reproduction
Abstract

The study of insect reproduction is important from both basic and applied perspectives, particularly in mealybugs (Hemiptera: Pseudococcidae), because of the diversity of reproduction modes and also because they are important agricultural pests. Sex pheromone control strategies are currently being developed for many species. Pseudococcus calceolariae (Maskell) and Pseudococcus longispinus (Targioni Tozzetti) are closely related species that often coexist in the same host plant. In this study, mating behavior, the possible occurrence of asexual reproduction, and hybridization between them were investigated. We confirmed that both species did not show asexual reproduction and required the presence of a male to reproduce. When couples of the same species were put together, males had a highly stereotyped mating behavior, and females showed an active role in mating success by accepting or rejecting males with abdominal movements. In hybridization trials, no progeny was obtained for any of the interspecific combinations. Moreover, in interspecific pairs, males mainly moved randomly in the arena without direct contact with females and females showed no willingness to mate, escape, or not move in the presence of the male. Therefore, courtship and copulation success in both species were directly related to the specificity of the mating pair and, there was no evidence of hybridization. This information is useful for the understanding of reproduction in this family and supports the development of management techniques based on sex pheromones to disrupt reproduction or to monitor these mealybug species populations. [ABSTRACT FROM AUTHOR]

Published
2023
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17. The harlequin ladybird, Harmonia axyridis: global perspectives on invasion history and ecology

Author

Roy, Helen E., Brown, Peter M. J., Adriaens, Tim, Berkvens, Nick, Borges, Isabel, Clusella-Trullas, Susana, Comont, Richard F., De Clercq, Patrick, Eschen, Rene, Estoup, Arnaud, Evans, Edward W., Facon, Benoit, Gardiner, Mary M., Gil, Artur, Grez, Audrey A., Guillemaud, Thomas, Haelewaters, Danny, Herz, Annette, Honek, Alois, Howe, Andy G., Hui, Cang, Hutchison, William D., Kenis, Marc, Koch, Robert L., Kulfan, Jan, Lawson Handley, Lori, Lombaert, Eric, Loomans, Antoon, Losey, John, Lukashuk, Alexander O., Maes, Dirk, Magro, Alexandra, Murray, Katie M., Martin, Gilles San, Martinkova, Zdenka, Minnaar, Ingrid A., Nedved, Oldřich, Orlova-Bienkowskaja, Marina J., Osawa, Naoya, Rabitsch, Wolfgang, Ravn, Hans Peter, Rondoni, Gabriele, Rorke, Steph L., Ryndevich, Sergey K., Saethre, May-Guri, Sloggett, John J., Soares, Antonio Onofre, Stals, Riaan, Tinsley, Matthew C., Vandereycken, Axel, van Wielink, Paul, Viglášová, Sandra, Zach, Peter, Zakharov, Ilya A., Zaviezo, Tania, and Zhao, Zihua

Published
2016
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23. Invasive intraguild predators: Evidence of their effects, not assumptions.

Author

Brown, Peter M. J., Zaviezo, Tania, Grez, Audrey, Adriaens, Tim, San Martin, Gilles, Roy, Helen E., and Soares, António O.

Subjects
*LADYBUGS, *PREDATION, *PREDATORY animals, *HARMONIA axyridis, *GLOBAL environmental change
Abstract

Keywords: biological control; coccinellidae; Harmonia axyridis; IGP; invasive species; ladybirds EN biological control coccinellidae Harmonia axyridis IGP invasive species ladybirds 249 252 4 05/10/22 20220601 NES 220601 INTRODUCTION The spatial range of many species is shifting dramatically over time in response to environmental change (MacLean & Beissinger, 2017). Indeed, the paper by Brown et al. (2011) makes very limited reference to biological control, whilst Soares et al. (2008) do not once claim that I H. axyridis i , or other non-native ladybird species, lower the biological control potential of the ladybird guild. 5 Brown, P.M.J. & Roy, H.E. (2018) Native ladybird decline caused by the invasive harlequin ladybird Harmonia axyridis: evidence from a long-term field study. (2016) The influence of exotic lady beetle (Coleoptera: Coccinellidae) establishment on the species composition of the native lady beetle community in Missouri. [Extracted from the article]

Published
2022
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25. Native flower strips increase visitation by non-bee insects to avocado flowers and promote yield.

Author

Muñoz, Alejandra E., Plantegenest, Manuel, Amouroux, Paul, and Zaviezo, Tania

Subjects
POLLINATION, POLLINATORS, AVOCADO, AGRICULTURAL resources, AGRICULTURAL landscape management, INSECT pollinators, CROPS
Abstract

Pollination is an essential ecosystem service for pollinator-dependent crops and plant communities. Apis mellifera L. is by far the most commonly used species to obtain this service in agriculture. However, there is growing evidence of the importance for crop yields of the service provided by wild bees and non-bee insect pollinators. Establishing flower resources in agricultural landscapes is a management practice that can increase insect pollinator populations and improve crop yields. We established perennial native flower strips (NFS) in four avocado orchards in central Chile during autumn 2017. We monitored flower visitors and counted newly formed fruits in avocados near and far from NFS in spring 2019, to assess flower visitor groups, flower visitation rates and fruit numbers. Only A. mellifera visited avocado flowers within bees, whereas both the managed A. mellifera and wild bees were the main visitors to the NFS. NFS increased visitation rates to adjacent avocado of flies, and with a trend for the sum of all non-managed flower visitors (i.e. excluding A. mellifera). However, there were no differences in the rates of A. mellifera visitation to avocados near and far from NFS. Avocado fruit numbers were higher among avocados near NFS than among those farther away. This difference could be due to better pollination by the increased visits to avocado flowers by flies or other wild insects. Therefore, NFS could contribute to crop fruit number, as well as conservation of native flora, wild bees and non-bee pollinators on fruit farms in the "Central Chile" biodiversity hotspot. [ABSTRACT FROM AUTHOR]

Published
2021
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26. Native flowering shrubs promote beneficial insects in avocado orchards.

Author

Muñoz, Alejandra E., Amouroux, Paul, and Zaviezo, Tania

Subjects
AVOCADO, INSECTS, ORCHARDS, FLOWERS, FACTORY design & construction, PLANT species, DIPTERA
Abstract

Flower strips can promote and conserve beneficial insects in agroecosystems. Knowing which groups are favoured and which plant traits affect visitation rates by beneficial insects is important for the design of plant strips.We established 21 Native Flower Strips (NFS) in avocado orchards in Central Chile. NFS contained 7–11 plant species, with variable corolla length and flowering period, to promote beneficial insects. We assessed flight activity of ladybirds (Coccinellidae) and bees (Apiformes) in sites adjacent to and far from NFS within avocado orchards. Additionally, we evaluated flower visitation for the main flower visitor groups (Apiformes, Lepidoptera, Diptera, and Coleoptera) to the plant species in NFS according to season and corolla length.We found almost six times greater flight activity of coccinellids and bees in NFS than sites far from NFS within avocado orchards. Visitation rates of pollinator groups varied according to corolla length and season. Diptera, Coleoptera, and Lepidoptera consistently visited short corolla flowers. NFS were highly visited in summer and autumn, when avocados were not in bloom.NFS in orchards should be encouraged by policymakers because they support beneficial insects that could deliver ecosystem services and contribute to local biological conservation. [ABSTRACT FROM AUTHOR]

Published
2021
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27. The positive association between natural vegetation, native coccinellids and functional diversity of aphidophagous coccinellid communities in alfalfa.

Author

Grez, Audrey A., Zaviezo, Tania, Casanoves, Fernando, Oberti, Romina, and Pliscoff, Patricio

Subjects
*AGRICULTURAL landscape management, *PEST control, *SPECIES pools, *COMMUNITIES, *ALFALFA, *BODY size, *BIOLOGICAL pest control
Abstract

A greater taxonomic and functional diversity of natural enemies in agroecosystems is frequently positively associated with more effective pest control, due to the complementarity of species or traits. But this diversity has declined with landscape homogenisation and loss of natural covers, particularly losing native species, which play an important role in pest suppression within crops.We evaluated the effect of landscape on coccinellid communities and aphids, and the relative contribution of coccinellids and aphids in shaping taxonomic and functional diversity of coccinellid communities in alfalfa fields.We characterised the landscape at 1 km radius surrounding 17 alfalfa fields, and the taxonomic and functional diversity of coccinellid communities collected throughout the season in alfalfa. Functional diversity indices considered four traits: body size, habitat specialisation, ubiquity and temporal variability.We found a positive association among native coccinellids in alfalfa and the amount of natural cover in the landscape, while aphids positively associated with agricultural cover. Also, we found a positive association among functional and taxonomic diversity indices with native coccinellids, and a negative association with exotics, demonstrating the contribution of native coccinellids in adding taxonomic and functional diversity to the aphidophagous communities in alfalfa fields. Aphids also associated positively with some functional and taxonomic diversity indices.Our results highlight the need to promote appropriate management practices in agricultural landscapes in order to conserve native coccinellid species in alfalfa, maintain a diversified species pool and their potential for aphid pest suppression. [ABSTRACT FROM AUTHOR]

Published
2021
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28. Exotic ladybirds for biological control of herbivorous insects – a review.

Author

Rondoni, Gabriele, Borges, Isabel, Collatz, Jana, Conti, Eric, Costamagna, Alejandro C., Dumont, François, Evans, Edward W., Grez, Audrey A., Howe, Andy G., Lucas, Eric, Maisonhaute, Julie‐Éléonore, Onofre Soares, António, Zaviezo, Tania, and Cock, Matthew J.W.

Subjects
BIOLOGICAL control of insects, LADYBUGS, SEVEN-spotted ladybug, HARMONIA axyridis, INTRODUCED species, STAPHYLINIDAE
Abstract

Since the late 19th century, exotic ladybirds (Coleoptera: Coccinellidae) have been used extensively for suppressing herbivorous insects of economic importance. In recent decades, the introduction of non‐native biological control (BC) agents has been greatly limited due to the awareness of the potential non‐target effects of introductions. Nonetheless, recent episodes of biological invasions of economically important pests have raised the need to carefully consider whether the expected benefits of pest control go beyond the possible environmental risks of introduction. To better understand the factors that contributed to successful BC programs, here we review the literature behind classical and augmentative BC using exotic ladybirds. Additionally, by means of case studies, we discuss the BC efficacy of selected exotic species, e.g., Coccinella septempunctata L., Harmonia axyridis (Pallas), and Hippodamia variegata (Goeze), and their position within the communities of predators in the introduced areas of USA, Canada, and Chile. In Europe, much of the research on exotic ladybirds has been conducted on the undesired impact of H. axyridis. Therefore, we summarize the risk assessment data for this species and review the field research investigating the ecological impact on European aphidophagous predators. According to the BIOCAT database of classical BC programs, 212 ladybird species belonging to 68 genera have been released in about 130 years of BC activity, with 14.6% of introductions having resulted in partial, substantial, or complete control of the target pest. However, because post‐release evaluation of establishment and BC success has not always been conducted, this rate could underestimate the successful cases. Among other factors, ladybird establishment and pest suppression mostly depend on (1) intrinsic factors, i.e., high voracity, synchronized predator‐prey life cycle, and high dispersal ability, and (2) extrinsic factors, i.e., adaptability to the new environment and landscape composition. This review contributes to improved understanding of ladybirds as exotic BC agents. [ABSTRACT FROM AUTHOR]

Published
2021
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29. Diversity and foraging activity of bats in cultivated and uncultivated areas in agroecosystems of a Mediterranean-climate hotspot.

Author

Muñoz, Alejandra E., Ossa, Gonzalo, Zaviezo, Tania, and Bonacic, Cristián

Subjects
BAT conservation, BATS, ARID regions, SPRING
Abstract

Bats are one of the least-studied vertebrate groups in Chile. We sampled six fruit farms in the Mediterranean-climate zone and three in a semiarid zone during 2015 and 2016, respectively. We assessed if activity (passes) and foraging (feeding buzzes) of bat species differed between cultivated and uncultivated intra-farm habitats. We found six bat species, all threatened and insectivorous. Tadarida brasiliensis was the most frequently recorded species. We found more activity and foraging in uncultivated than cultivated habitats in total, although the opposite trend was observed during springtime in semiarid region. More than a third of the bat passes were feeding buzzes in both habitats, suggesting the potential service to agriculture. Further investigation is needed to promote conservation of bats and their integration as biocontrols in agroecosystems in Chile. [ABSTRACT FROM AUTHOR]

Published
2019
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30. Interspecific exploitative competition between Harmonia axyridis and other coccinellids is stronger than intraspecific competition.

Author

Zaviezo, Tania, Soares, Antonio Onofre, and Grez, Audrey A.

Subjects
*TOXIN analysis, *FERMENTATION, *BACILLUS (Bacteria), *CELLS, APHID control
Abstract

Graphical abstract Highlights • Intraspecific interactions were positive for H. axyridis and H. variegata. • H. axyridis was a strong interspecific exploitative competitor on H. variegata. • E. chilensis was not affected by interspecific competition. Abstract The invasion of Harmonia axyridis has had negative consequences on coccinellid assemblages, with a decline in abundance and diversity, but the coexistence of invasive and resident species may depend on the strength of intra- and interspecific exploitative competitive interactions. These antagonistic interactions have been scarcely studied in coccinellids. Through a laboratory study we assessed aphid consumption, weight gain and reproduction when the invasive Harmonia axyridis , the alien Hippodamia variegata and the native Eriopis chilensis were alone, in conspecific and heterospecific groups, at low and high aphid densities. Under intraspecific competition, coccinellids were more voracious than when they were alone, particularly H. axyridis and H. variegata at high aphid density; H. axyridis and H. variegata gained more weight than E. chilensis , and H. axyridis barely reproduced at low aphid densities, even when alone, while in the other two species reproduction was not affected by the presence of conspecifics. Under interspecific competition, weight gain and reproduction results suggest that H. axyridis was responsible for most aphid consumption; H. variegata gained less weight and barely reproduced in heterospecific groups, but its reproduction was not affected. Eriopis chilensis weight gain and reproduction was low but not affected by the presence of the other species. The lack of negative effects of intraspecific competition on H. axyridis and its better performance in heterospecific groups suggests that this species is the stronger competitor, negatively affecting H. variegata , but not E. chilensis. Thus, exploitative interspecific competition is an important mechanism explaining the dominance of H. axyridis and the decline of some species following its invasion. Therefore, this interaction deserves more attention than what has been paid up to now. [ABSTRACT FROM AUTHOR]

Published
2019
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31. Natural enemies of armored scales (Hemiptera: Diaspididae) and soft scales (Hemiptera: Coccidae) in Chile: Molecular and morphological identification.

Author

Amouroux, Paul, Crochard, Didier, Correa, Margarita, Groussier, Géraldine, Kreiter, Philippe, Roman, Carola, Guerrieri, Emilio, Garonna, Antonio, Malausa, Thibaut, and Zaviezo, Tania

Subjects
BIOLOGICAL pest control, HEMIPTERA
Abstract

Scale insects (Hemiptera: Sternorrhyncha: Coccomorpha) are key pests of agricultural crops and ornamental plants worldwide. Their populations are difficult to control, even with insecticides, due to their cryptic habits. Moreover, there is growing concern over the use of synthetic pesticides for their control, due to deleterious environmental effects and the emergence of resistant populations of target pests. In this context, biological control may be an effective and sustainable approach. Hymenoptera Chalcidoidea includes natural enemies of scale insects that have been successfully used in many biological control programs. However, the correct identification of pest scale species and their natural enemies is particularly challenging because these insects are very small and highly specialized. Integrative taxonomy, coupling DNA barcoding and morphological analysis, has been successfully used to characterize pests and natural enemy species. In this study, we performed a survey of parasitoids and predators of armored and soft scales in Chile, based on 28S and COI barcodes. Fifty-three populations of Diaspididae and 79 populations of Coccidae were sampled over the entire length of the country, from Arica (18°S) to Frutillar (41°S), between January 2015 and February 2016. The phylogenetic relationships obtained by Bayesian inference from multilocus haplotypes revealed 41 putative species of Chalcidoidea, five Coccinellidae and three Neuroptera. Species delimitation was confirmed using ABGD, GMYC and PTP model. In Chalcidoidea, 23 species were identified morphologically, resulting in new COI barcodes for 12 species and new 28S barcodes for 14 species. Two predator species (Rhyzobius lophantae and Coccidophilus transandinus) were identified morphologically, and two parasitoid species, Chartocerus niger and Signiphora bifasciata, were recorded for the first time in Chile. [ABSTRACT FROM AUTHOR]

Published
2019
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32. Synthesis of citrophilus mealybug sex pheromone using chrysanthemol extracted from Pyrethrum (Tanacetum cinerariifolium).

Author

Bergmann, Jan, Tapia, Jaime, Bravo, Manuel, Zaviezo, Tania, and Flores, M. Fernanda

Abstract

A commercial pyrethrum extract was used as a source of chrysanthemol for the synthesis of the citrophilus mealybug (Pseudococcus calceolariae) sex pheromone. The chrysanthemic acid esters (pyrethrins I) were isolated and subsequently reduced to obtain chrysanthemol, which was used for ester pheromone synthesis. Field tests showed that the pheromone synthesized using plant-derived chrysanthemol was as attractive to male P. calceolariae as the pheromone obtained using a commercial isomeric chrysanthemol mixture. [ABSTRACT FROM AUTHOR]

Published
2019
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33. Predators and parasitoids of the harlequin ladybird, <italic>Harmonia axyridis</italic>, in its native range and invaded areas.

Author

Ceryngier, Piotr, Nedvěd, Oldřich, Grez, Audrey A., Riddick, Eric W., Roy, Helen E., San Martin, Gilles, Steenberg, Tove, Veselý, Petr, Zaviezo, Tania, Zúñiga-Reinoso, Álvaro, and Haelewaters, Danny

Abstract

The harlequin ladybird Harmonia axyridis (Coleoptera: Coccinellidae) has rapidly spread in several continents over the past 30 years and is considered an invasive alien species. The success of H. axyridis as an invader is often attributed to weak control by natural enemies. In this paper, we provide an overview of current knowledge on predators and parasitoids of H. axyridis. The common feature of predators and parasitoids is that they directly kill exploited organisms. Currently available data show that H. axyridis, displaying a variety of chemical, mechanical, and microbiological anti-predator defenses, is usually avoided by predators. However, some birds and invertebrates can eat this ladybird without harmful consequences. The primary defenses of H. axyridis against parasitoids include immune response and physiological and nutritional unsuitability for parasitoid development. These defenses are probably relatively efficient against most ladybird parasitoids, but not against flies of the genus Phalacrotophora. The latter are idiobiont parasitoids and hence can evade the host’s immune response. Indeed, rates of parasitism of H. axyridis by Phalacrotophora in the Palaearctic region (both in the native range in Asia and in Europe) are relatively high. While strong evidence for enemy release on the invasive populations of H. axyridis is lacking, several cases of parasitoid acquisition have been recorded in Europe, North America, and South America. We conclude that enemy release cannot be excluded as a possible mechanism contributing to the spread and increase of H. axyridis in the early stages of invasion, but adaptation of parasitoids may lead to novel associations which might offset previous effects of enemy release. However, further work is required to elucidate the population-level effects of such interactions. [ABSTRACT FROM AUTHOR]

Published
2018
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34. Effects of inbreeding on a gregarious parasitoid wasp with complementary sex determination.

Author

Zaviezo, Tania, Retamal, Romina, Urvois, Teddy, Fauvergue, Xavier, Blin, Aurélie, and Malausa, Thibaut

Subjects
*BIOLOGICAL control of insects, *INSECT genetics, *INBREEDING, *INSECT sex ratio, *WASPS, *INSECTS, HOSTS of parasitoids
Abstract

Abstract: Inbreeding and inbreeding depression are processes in small populations of particular interest for a range of human activities such as animal breeding, species conservation, or pest management. In particular, biological control programs should benefit from a thorough understanding of the causes and consequences of inbreeding because natural enemies experience repetitive bottlenecks during importation, laboratory rearing, and introduction. Predicting the effect of inbreeding in hymenopteran parasitoid wasps, frequently used in biological control programs, is nonetheless a difficult endeavor. In haplodiploid parasitoids, the purge of deleterious alleles via haploid males should reduce genetic load, but if these species also have complementary sex determination (CSD), abnormal diploid males will be produced, which may jeopardize the success of biological control introductions. Mastrus ridens is such a parasitoid wasp with CSD, introduced to control the codling moth, Cydia pomonella (L.). We studied its life history traits in the laboratory under two conditions: inbred (full‐sib) and outbred (nonsib) crosses, across five generations, to examine the consequences of inbreeding in this species. We found that in inbred lines, nonreproducing females live less, the number of daughters produced was lower, and sex ratio (proportion of males) and proportion of diploid males were higher. Diploid males were able to produce fertile daughters, but fewer than haploid males. Lineage survival was similar for inbred and outbred lines across the five generations. The most significant decrease in fitness was thus a consequence of the production of diploid males, but this effect was not as extreme as in most other species with CSD, due to the fertility of diploid males. This study highlights the importance of determining the type of sex determination in parasitoid wasps used for biological control, and the importance of maintaining genetic diversity in species with CSD when importation or augmentation is the goal. [ABSTRACT FROM AUTHOR]

Published
2018
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35. In the shadow of the condor: invasive Harmonia axyridis found at very high altitude in the Chilean Andes.

Author

Grez, Audrey A., Zaviezo, Tania, Roy, Helen E., Brown, Peter M. J., Segura, Bernardo, and Leather, Simon

Subjects
*CONDORS, *HARMONIA axyridis, *BIODIVERSITY, *AGRICULTURAL ecology, *SPECIES distribution
Abstract

Harmonia axyridis has invaded many regions of the world, with negative effects on local biodiversity, and thus it is of global concern for biological conservation. Recently it has invaded central Chile, one of the world's biodiversity hotspots, where the abundance and richness of ladybird species, particularly native species in agroecosystems, have declined following its arrival., Harmonia axyridis is particularly abundant in spring in the valleys of central Chile, but there is a dramatic decline in its abundance during the hot summer months., This study reports the occurrence of this invasive alien species in the summer at high altitudes (3578 m a.s.l.) in the Andes, which is the highest record worldwide. Individuals were observed on native cushion plants, in a unique environment rich in endemic species. Harmonia axyridis were active, reproducing and co-occurring with three other species of coccinellids., The dispersal of H. axyridis and other coccinellids from the valleys to high altitudes could represent a mechanism to escape the adverse high temperatures during the summer, returning to the valleys in autumn. Our study highlights the need to study the impacts of invasive alien species across a range of habitats, including not only agricultural landscapes, but also extreme ecosystems. [ABSTRACT FROM AUTHOR]

Published
2017
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36. Landscape crop composition effects on cotton yield, Lygus hesperus densities and pesticide use.

Author

Meisner, Matthew H, Zaviezo, Tania, and Rosenheim, Jay A

Subjects
COTTON yields, LYGUS hesperus, APPLICATION of pesticides, PEST control, COTTON diseases & pests
Abstract

BACKGROUND Landscape crop composition surrounding agricultural fields is known to affect the density of crop pests, but quantifying these effects, as well as measuring how they translate to changes in yield, is difficult. Using a large dataset consisting of 1498 records of commercial cotton production in California between 1997 and 2008, we explored the relationship between landscape composition and cotton yield, the density of Lygus hesperus (a key cotton pest) at field-level and within-field spatial scales and pesticide use. RESULTS We found that the crop composition immediately adjacent to a cotton field was associated with substantial differences in cotton yield, L. hesperus density and pesticide use. Furthermore, crops that tended to be associated with increased L. hesperus density also tended to be associated with increased pesticide use and decreased cotton yield. CONCLUSION Our results suggest a possible mechanism by which landscape composition can affect cotton yield: by increasing the density of pests which in turn damage cotton plants. Our quantification of how surrounding crops affect pest densities, and in turn yield, in cotton fields has significant impacts for cotton farmers, who can use this information to help optimize crop selection and ranch layout. © 2016 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published
2017
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37. Apparent niche differences between native and exotic lady beetles.

Author

Croy, Jordan R., Zaviezo, Tania, Crossley, Michael S., Smith, Olivia M., Snyder, William E., and Grez, Audrey A.

Subjects
*LADYBUGS, *HARMONIA axyridis, *ALFALFA, *AGRICULTURAL pests, *GROWING season, *AGRICULTURE
Abstract

[Display omitted] • We found little evidence of competition between native and exotic lady beetles. • Native and exotic lady beetles differed when they were most abundant. • Landscape context influenced differences in lady beetle timing and aphid abundance. • Spatiotemporal niche differences might mediate biological control by lady beetles. Generalist predators can enhance biological control by filling unique niches and complementing other natural enemies, or disrupt it by preying upon other predators and parasitoids, complicating their net value for biological control. We searched for evidence of complementarity and/or interference between native (primarily Eriopis chilensis and E. eschscholtzi) and exotic (primarily Hippodamia variegata and Harmonia axyridis) lady beetles attacking aphids in alfalfa (Medicago sativa) fields near Santiago, Chile. Across 60 fields and three growing seasons, exotic lady beetle adults and larvae reached peak abundance relatively earlier in the growing season than the natives. Furthermore, exotic lady beetle peaks aligned more closely with aphid peak abundance than did native lady beetle peaks. Abundances of native lady beetle adults and larvae were weakly positively correlated with those of exotics, and peak aphid densities were generally lowest in fields where native and non-native lady beetle adults were similarly abundant. Therefore, we did not see evidence of strong interference between exotics and natives. Natural-agricultural habitat edges reduced native, but not exotic, larval lady beetle lag behind aphid peaks and was associated with greater lady beetle and lower aphid densities. Moreover, farms embedded in landscapes with greater natural habitat cover supported more exotic, but not native, lady beetles, and increased the lag between larval lady beetles and aphids for natives but not exotics. These findings support the idea that farms embedded within mosaics of natural and agricultural habitats may provide greater interaction potential between native lady beetles and aphid pests on farms as they move across the landscape, leading to greater top-down control. In contrast, exotic lady beetle lags were unaffected by landscape composition or configuration, but their greater densities in farms surrounded by more natural habitats might reflect a 'concentration effect' whereby exotic lady beetle abundance becomes concentrated in the agricultural habitats that they prefer. Our findings suggest that some lady beetles introduced for biocontrol may be better adapted to intensively managed habitats than natives, possibly leading to spatiotemporal complementarity between native and exotic lady beetles. [ABSTRACT FROM AUTHOR]

Published
2023
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38. Genetic analyses and occurrence of diploid males in field and laboratory populations of Mastrus ridens (Hymenoptera: Ichneumonidae), a parasitoid of the codling moth.

Author

Retamal, Romina, Zaviezo, Tania, Malausa, Thibaut, Fauvergue, Xavier, Le Goff, Isabelle, and Toleubayev, Kazbek

Subjects
*CODLING moth, *HYMENOPTERA, *ICHNEUMONIDAE, *BIOLOGICAL models, *NUCLEOTIDE sequencing
Abstract

The parasitoid wasp Mastrus ridens (Hymenoptera: Ichneumonidae) is a particularly well-suited biological model to document the history and evolution of populations used in classical biological control, repeatedly moved from laboratory to laboratory worldwide and introduced in various environments. This specialist ectoparasitoid of the codling moth was first imported from Kazakhstan to the USA in the 1990’s, and then sent to Argentina, Chile and New Zealand. More recently, it was sent to Australia and France from other laboratory colonies, and imported again from field collections in Kazakhstan to Chile. Here, we used DNA sequencing to confirm the taxonomic identity of several populations used for biological control worldwide, and developed microsatellite markers for population genetics studies. A multiplex PCR amplifying 11 polymorphic markers was designed. These markers were used to compare the genetic diversity of laboratory and field populations and evaluate genetic differentiation between them. Results showed that laboratory populations with the longest rearing history had lower genetic diversity. Moreover, the genotyping of males with the markers revealed the occurrence of diploid males, which was further confirmed by flow cytometry, suggesting complementary sex determination (CSD) in this species. The percentage of diploid males in the populations ranged from 4% to 25% and were negatively correlated with diversity indices, which is consistent with a single-locus CSD and genetic bottlenecks in laboratory rearings. Molecular tools proved to be suitable and reliable for genetic diversity analyses in M. ridens , and should be implemented more frequently in classical biological control programs. [ABSTRACT FROM AUTHOR]

Published
2016
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39. Monitoring Pseudococcus calceolariae (Hemiptera: Pseudococcidae) in Fruit Crops Using Pheromone-Baited Traps.

Author

FLORES, M. FERNANDA, ROMERO, ALDA, OYARZUN, M. SOLEDAD, BERGMANN, JAN, and ZAVIEZO, TANIA

Subjects
PSEUDOCOCCUS, HEMIPTERA, OVARIES (Botany), CULTIVATED plants, PSEUDOCOCCUS calceolariae
Abstract

The citrophilus mealybug, Pseudococcus calceolariae (Maskell), is an important pest of fruit crops in many regions of the world. Recently, its sex pheromone has been identified and synthesized.We carried out field experiments with the goal of developing monitoring protocols for P. calceolariae using pheromone-baited traps. Traps checked hourly for 24 hours showed a distinct diel pattern of male flight, between 18:00 and 21:00 h. The presence of unnatural stereoisomers did not affect trap captures, with isomeric mixtures capturing similar amounts of males as the biological active isomer. Dose of isomeric mixture pheromone (0–100 µg) had a nonlinear effect on male captures, with 10, 30, and 50 µg capturing similar amounts. The effective range of pheromone traps was determined by placing traps at different distances (15, 40, and 80 m) from an infested blueberry field, loaded with 0, 1 and 25 mg of the pheromone. For all distances, 25 µg dose captured more males, and was highly attractive up to 40 m. There was a significant effect of lure age on male captures (0–150 d), with similar amount of males captured up to 90-day-old lure, and lower captures in the 150-day-old lure compared with fresh ones. We found significant positive correlations between P. calceolariae males caught in pheromone traps with female abundance and fruit infestation at harvest. Our results show the usefulness of P. calceolariae pheromones for monitoring at field level and provide information for the design of monitoring protocols. [ABSTRACT FROM AUTHOR]

Published
2015
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40. The heterogeneity and composition of agricultural landscapes influence native and exotic coccinellids in alfalfa fields.

Author

Grez, Audrey A., Zaviezo, Tania, Hernández, Jaime, Rodríguez‐San Pedro, Annia, and Acuña, Paz

Subjects
*AGRICULTURAL landscape management, *LADYBUGS, *ALFALFA, *INTRODUCED insects, *LEAST squares, *PHYSIOLOGICAL control systems, *CONSERVATION biology
Abstract

The current trend toward simplification of agricultural landscapes, as well as the associated loss of perennial cover types, can decrease landscape heterogeneity and also natural enemy abundance and diversity, favouring exotic species., We evaluated the effects of agricultural landscape composition and heterogeneity at two different spatial scales (radii of 250 and 1000 m), on the diversity and abundance of native and exotic coccinellids, associated with alfalfa fields located in two regions of Central Chile. Data were analyzed using partial least square regressions, considering the whole coccinellid assemblage and the three most abundant species., In both regions, coccinellid diversity and the abundance and proportion of native coccinellids in alfalfa responded differentially from total abundance and the abundance of exotic coccinellids. The diversity and abundance of coccinellids in alfalfa increased with the compositional and configurational heterogeneity of the landscape. The abundance of both native and exotic coccinellids in alfalfa fields decreased as the area covered by cultivated lands, such as annual crops and orchards, increased. Nevertheless, the responses of native and exotic coccinellids were not consistent among regions, which may be explained by responses of the dominant species in each region., The results of the present study suggest that variables related to a higher intensification of agricultural landscapes (lower compositional and configurational heterogeneity, as well as more annual crops) reduce coccinellid diversity and abundance in alfalfa fields. To maintain a higher abundance and diversity of these natural enemies in alfalfa, more heterogeneous landscapes with less annual crops should be promoted. [ABSTRACT FROM AUTHOR]

Published
2014
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41. Local predator composition and landscape affects biological control of aphids in alfalfa fields.

Author

Grez, Audrey A., Zaviezo, Tania, and Gardiner, Mary M.

Subjects
*BIOLOGICAL control of aphids, *PREDATORY animals, *LANDSCAPES, *PHYSIOLOGICAL control systems, *ALFALFA, *FARMS, *EFFECT of insecticides on plants
Abstract

The biological control service supplied to croplands is a result of the predator community present within a focal crop, which is likely influenced by surrounding landscape composition and configuration. In this study, using cage experiments in two regions near Santiago, we determined if predator communities supplied a significant biological control service in alfalfa fields, examined how the abundance of exotic and native coccinellids, as well as other key predator groups, influenced biological control of aphids and measured how landscape composition and heterogeneity at three spatial scales influenced this service. We found that predators significantly suppressed aphid populations in both regions, but the relative importance of predators versus landscape variables on biological control differed between regions. In the region where predators were abundant, biological control was higher and related to the abundance of native coccinellids and syrphids, highlighting the importance of native species as providers of crucial ecological services. In the region where predators were not abundant, biological control was lower, and it was related to landscape composition, being positively associated with the abundance of woodlots and urban habitats, and negatively associated with fruit crops in the landscape. Therefore, landscape effects on biological control service may be weaker than local factors, and only become important when local predator abundance is low. [ABSTRACT FROM AUTHOR]

Published
2014
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42. Seasonal, spatial and diel partitioning of Acyrthosiphon pisum (Hemiptera: Aphididae) predators and predation in alfalfa fields.

Author

Ximenez-Embun, Miguel G., Zaviezo, Tania, and Grez, Audrey

Subjects
*CIRCADIAN rhythms, *PEA aphid, *PREDATORY animals, *ALFALFA, *FORAGE plants, *LEGUMES
Abstract

Highlights: [•] Acyrthosiphon pisum was used as sentinel prey in alfalfa to study predators segregation. [•] A seasonal, day–night and foliage–ground segregation of predators was observed. [•] Coccinellids were the main predators, with daytime activity mainly in spring and summer. [•] Syphids were the main nighttime predators in spring and summer. [•] More predatory activity was observed on the foliage than on the ground. [ABSTRACT FROM AUTHOR]

Published
2014
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43. Development of a Multiplex PCR for Identification of Vineyard Mealybugs.

Author

Daane, Kent M., Middleton, Mathew C., Sforza, RenÉ, Cooper, Monica L., Walton, Vaughn M., Walsh, Douglas B., Zaviezo, Tania, and Almeida, Rodrigo P. P.

Subjects
MEALYBUGS, PSEUDOCOCCUS, PSEUDOCOCCUS maritimus, CITRUS mealybug, CYTOCHROMES, VINEYARDS
Abstract

A simple molecular tool was developed and tested to identify seven mealybug species found in North American vineyards: Pseudococcus maritimus Ehrhorn, Pseudococcus viburni (Signoret), Pseudococcus longispinus (Targioni-Tozzeti), Pseudococcus calceolariae (Maskell), Planococcus ficus (Signoret), Planococcus citri (Risso), and Ferrisia gilli Gullan. The developed multiplex PCR is based on the mitochondrial cytochrome c oxidase subunit one gene. In tests, this single-step multiplex PCR correctly identified 95 of 95 mealybug samples, representing all seven species and collected from diverse geographic regions. To test the sensitivity, single specimen samples with different Pl. ficus developmental stages (egg to adult female and adult male) were processed PCR and the resulting output provided consistent positive identification. To test the utility of this protocol for adult males caught in sex baited pheromone traps, Pl. ficus adult males were placed in pheromone traps, aged at a constant temperature of 26 ± 2°C, and processed with the multiplex each day thereafter for 8 d. Results showed consistent positive identification for up to 6 d (range, 6-8 d). Results are discussed with respect to the usefulness of this molecular tool for the identification of mealybugs in pest management programs and biosecurity of invasive mealybugs. [ABSTRACT FROM AUTHOR]

Published
2011
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44. Effect of prey density on intraguild interactions among foliar- and ground-foraging predators of aphids associated with alfalfa crops in Chile: a laboratory assessment.

Author

Grez, Audrey A., Zaviezo, Tania, and Mancilla, Angélica

Subjects
*PREDATORY animals, *BIRDS of prey, *MEDICAGO, *APHIDS, *PISUM
Abstract

Among the aphidophaga guild present in alfalfa [ Medicago sativa L. (Fabaceae)], coccinellids forage on aphids most of the time on the foliage and carabids on the ground. The result of their combined effect can be synergistic, additive, or antagonistic, but this may depend on the prey density and interacting predatory species. In this study, we first determined, under laboratory conditions, the relative tendencies of Therioaphis trifolii (Monell), Acyrthosiphon pisum (Harris), and Aphis craccivora Koch (all Hemiptera: Aphididae) to drop in the presence and absence of two predators: Eriopis connexa (Germ) and Hippodamia variegata (Goeze) (both Coleoptera: Coccinellidae). These experiments showed that T. trifolii and A. pisum dropped more frequently than A. craccivora, and dropping was more frequent in the presence of H. variegata. We also determined the functional responses to aphid densities of five beetle species (Coleoptera: Carabidae) commonly found in alfalfa fields in Chile. All carabid species consumed aphids, with Trirammatus aerea (Dejean) being one of the most voracious. Then, we tested the hypothesis that the interactions between both coccinellid species and T. aerea would be antagonistic at low prey densities, because of competition or intraguild predation, and synergistic as prey density increases. For this, we recorded aphid consumption when predators were alone, or in combinations of a foliar and a ground predator, for five prey densities. For all predators and combinations, aphid consumption increased continuously with aphid density, and more prey were eaten when a foliar- and a ground-foraging predator were combined than when either predator was present. But, contrary to our expectations, we found that the interaction of these foliar- and ground-foraging predators was additive for all prey densities. Our results suggest that coexistence of these species would not interfere with aphid biological control in alfalfa. [ABSTRACT FROM AUTHOR]

Published
2011
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45. Ecoinformatics for Integrated Pest Management: Expanding the Applied Insect Ecologist's Tool-Kit.

Author

Rosenheim, Jay A., Parsa, Soroush, Forbes, Andrew A., Krimmel, William A., Yao Hua Law, Segoli, Michal, Segoli, Moran, Sivakoff, Frances S., Zaviezo, Tania, and Gross, Kevin

Subjects
INTEGRATED pest control, COMPUTER science, ECOLOGISTS, DECISION making, ALGORITHMS
Abstract

Experimentation has been the cornerstone of much of integrated pest management (IPM) research. Here, we aim to open a discussion on the possible merits of expanding the use of observational studies, and in particular the use of data from farmers or private pest management consultants in "ecoinformatics" studies, as tools that might complement traditional, experimental research. The manifold advantages of experimentation are widely appreciated: experiments provide definitive inferences regarding causal relationships between key variables, can produce uniform and high-quality data sets, and are highly flexible in the treatments that can be evaluated. Perhaps less widely considered, however, are the possible disadvantages of experimental research. Using the yield-impact study to focus the discussion, we address some reasons why observational or ecoinformatics approaches might be attractive as complements to experimentation. A survey of the literature suggests that many contemporary yield-impact studies lack sufficient statistical power to resolve the small, but economically important, effects on crop yield that shape pest management decision-making by farmers. Ecoinformatics-based data sets can be substantially larger than experimental data sets and therefore hold Out the promise of enhanced power. Ecoinformatics approaches also address problems at the spatial and temporal scales at which farming is conducted, can achieve higher levels of "external validity," and can allow researchers to efficiently screen many variables during the initial, exploratory phases of research projects. Experimental, observational, and ecoinformatics-based approaches may, if used together, provide more efficient solutions to problems in pest management than can any single approach, used in isolation. [ABSTRACT FROM AUTHOR]

Published
2011
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46. Effects of habitat loss and fragmentation on the abundance and species richness of aphidophagous beetles and aphids in experimental alfalfa landscapes.

Author

GREZ, AUDREY A., ZAVIEZO, TANIA, DÍAZ, SANDRA, CAMOUSSEIGT, BERNARDINO, and CORTÉS, GALAXIA

Subjects
*HABITATS, *APHIDOPHAGOUS insects, *LADYBUGS, *GROUND beetles, *APHIDS, *ALFALFA
Abstract

In agro-ecosystems, habitat loss and fragmentation may alter the assemblage of aphidophagous insects, such as foliar-foraging (coccinellids) and ground-foraging predators (carabids), potentially affecting intraguild interactions. We evaluated how habitat loss (0, 55 and 84%), fragmentation (1, 4 and 16 fragments) and their combination affected the abundance and species richness of coccinellids and carabids, and aphid abundance, both in the short-term (summer: December to February) and over a longer time span (autumn: March to May), when different demographic mechanisms may participate. We created four types of 30 x 30 m patches (landscapes) in which alfalfa was grown: Control (1F -- 0%, 30 x 30 m patch of alfalfa with no fragmentation or habitat loss), 4F -- 55% (4 alfalfa fragments, with 55% total habitat loss), 4F -- 84% (4 alfalfa fragments, with 84% total habitat loss), and 16F -- 84% (16 alfalfa fragments, with 84% total habitat loss). Each landscape type was replicated five times. Insects were sampled by sweep-netting and pitfall traps, from December (summer) to May (autumn). Total abundance and species richness of carabids, in the short-term, was highest in the 16F -- 84% landscapes. Total abundance of adult coccinellids was similar among landscapes, but at the species level Hyperaspis sphaeridioides, in the short-term, and Adalia bipunctata, in the long-term, had their highest densities in fragments within landscapes with high habitat loss (84%), independently of habitat fragmentation. Species richness in the long-term was higher in the landscapes with 84% habitat loss. Among aphids, in the long term Aphis craccivora was less abundant in landscapes with high habitat loss and fragmentation (16-84%), while Therioaphis trifolii showed the opposite trend. These results suggest that habitat loss and fragmentation may increase the density and diversity of aphidophagous insects, while their effects on aphids are more variable. [ABSTRACT FROM AUTHOR]

Published
2008
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47. Foliar and ground-foraging predators of aphids associated with alfalfa crops in Chile: Are they good or bad partners?

Author

Grez, Audrey A., Rivera, Pamela, and Zaviezo, Tania

Subjects
PREDATORY insects, GROUND beetles, LADYBUGS, APHIDS, ALFALFA, FORAGE plants, FIELD crops, PREDATORY animals
Abstract

Carabids and coccinellids are the most abundant aphid predators in alfalfa. Depending on the amount of prey consumed, the impact of their combined effect can be additive, antagonistic, or synergistic. Laboratory trials demonstrated that a higher proportion of Aphis craccivora Koch dropped from the alfalfa plants in the presence of coccinellids, and that the interaction between these predators was additive or synergistic, but never antagonistic, suggesting that they might be good partners in controlling aphids. [ABSTRACT FROM AUTHOR]

Published
2007
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48. Effects of habitat loss, habitat fragmentation, and isolation on the density, species richness, and distribution of ladybeetles in manipulated alfalfa landscapes.

Author

ZAVIEZO, TANIA, GREZ, AUDREY A., ESTADES, CRISTIÁN F., and PÉREZ, ASTRID

Subjects
*HABITATS, *FRAGMENTED landscapes, *ORGANISMS, *ALFALFA, *LADYBUGS, *BEETLES
Abstract

1. Habitat loss and fragmentation are the main causes of changes in the distribution and abundance of organisms, and are usually considered to negatively affect the abundance and species richness of organisms in a landscape. Nevertheless, habitat loss and fragmentation have often been confused, and the reported negative effects may only be the result of habitat loss alone, with habitat fragmentation having nil or even positive effects on abundance and species richness. 2. Manipulated alfalfa micro-landscapes and coccinellids (Coleoptera: Coccinellidae) are used to test the effects habitat loss (0% or 84%), fragmentation (4 or 16 fragments), and isolation (2 or 6 m between fragments) on the density, species richness, and distribution of native and exotic species of coccinellids. 3. Generally, when considering only the individuals in the remaining fragments, habitat loss had variable effects while habitat fragmentation had a positive effect on the density of two species of coccinellids and on species richness, but did not affect two other species. Isolation usually had no effect. When individuals in the whole landscape were considered, negative effects of habitat loss became apparent for most species, but the positive effects of fragmentation remained only for one species. 4. Native and exotic species of coccinellids did not segregate in the different landscapes, and strong positive associations were found most often in landscapes with higher fragmentation and isolation. 5. The opposing effects of habitat loss and fragmentation may result in a nil global effect; therefore it is important to separate their effects when studying populations in fragmented landscapes. [ABSTRACT FROM AUTHOR]

Published
2006
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49. The response of Hyssopus pallidus to hosts previously parasitised byAscogaster quadridentata: heterospecific discrimination and host quality.

Author

Zaviezo, Tania and Mills, Nick

Subjects
*COMPETITION (Biology), *PARASITOIDS, *CODLING moth
Abstract

Summary: 1. Two basic tenets of competition among parasitoids, that taxonomically distinct parasitoids are unable to discriminate against hosts that have previously been attacked by a competitor and that previous parasitism reduces the quality of a host, were tested by monitoring the oviposition response of Hyssopus pallidus, a gregarious ectoparasitoid, to healthy codling moth larvae and codling moth larvae that had previously been parasitised by a solitary endoparasitoid, Ascogaster quadridentata. 2. Hyssopus pallidus accepted both categories of host larva for oviposition when its competitor was constrained as a first-instar larva by the diapause development of its host, but discriminated against previously parasitised host larvae when its competitor was present as a larger larva in a non-diapausing host. 3. Hyssopus pallidus distinguished between the two categories of host larva by allocating twice as many eggs to host larvae previously parasitised by A. quadridentata, a response that was not influenced by previous oviposition experience. 4. The larger clutch sizes allocated to previously parasitised host larvae produced twice as many female progeny, each of a typical size, such that the total biomass was twice that produced from the smaller clutches laid on healthy host larvae. Possible confounding influences of host age and diapause are discounted. 5. These results demonstrate that interspecific discrimination does occur in H. pallidus and that host quality can be improved through previous parasitism by an endoparasitoid. Although interspecific discrimination appears rare among insect parasitoids, it may have been overlooked among ectoparasitoids and requires examination of the fitness consequences of interspecific interactions to clarify its adaptive significance. [ABSTRACT FROM AUTHOR]

Published
2001
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50. Mating Disruption of Pseudococcus calceolariae (Maskell) (Hemiptera, Pseudococcidae) in Fruit Crops.

Author

Ballesteros, Carolina, Romero, Alda, Castro, María Colomba, Miranda, Sofía, Bergmann, Jan, and Zaviezo, Tania

Subjects
MEALYBUGS, HEMIPTERA, PHEROMONE traps, APPLE orchards, OLFACTORY receptors, FRUIT harvesting
Abstract

Simple Summary: The citrophilous mealybug is an economically important pest that is mainly controlled using insecticides, not always successfully, and with unintended negative environmental side effects. In our research, we tested a specific and sustainable control tool using the mealybug sex pheromone. Mating disruption is a technique that aims to reduce mating between males and females by inundating the area with the synthetic sex pheromone of the species, thereby reducing reproduction and consequently populations over time and damage. For this purpose, the mealybug pheromone, incorporated into a polymeric substance for its release, was applied in a tangerine and an apple orchard, in two seasons (2017/2018 and 2019/2020). In all seasons, a reduction in the males catches in traps after deploying pheromone was observed, which would indicate a decrease in the probability of successful mating compared to control plots. The duration of this effect was around one year. Mealybug abundance on trees was extremely low throughout the trials, so it was not possible to observe a reduction of populations or damage. This research shows that the use of this pheromone-based technique has good potential for controlling the citrophilous mealybug, with the advantage of being environmentally friendly and non-toxic. Pseudococcus calceolariae, the citrophilous mealybug, is a species of economic importance. Mating disruption (MD) is a potential control tool. During 2017–2020, trials were conducted to evaluate the potential of P. calceolariae MD in an apple and a tangerine orchard. Two pheromone doses, 6.32 g/ha (2017–2018) and 9.45 g/ha (2019–2020), were tested. The intermediate season (2018–2019) was evaluated without pheromone renewal to study the persistence of the pheromone effect. Male captures in pheromone traps, mealybug population/plant, percentage of infested fruit at harvest and mating disruption index (MDI) were recorded regularly. In both orchards, in the first season, male captures were significantly lower in MD plots compared to control plots, with an MDI > 94% in the first month after pheromone deployment. During the second season, significantly lower male captures in MD plots were still observed, with an average MDI of 80%. At the third season, male captures were again significant lower in MD than control plots shortly after pheromone applications. In both orchards, population by visual inspection and infested fruits were very low, without differences between MD and control plots. These results show the potential use of mating disruption for the control of P. calceolariae. [ABSTRACT FROM AUTHOR]

Published
2021
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