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Zeitschriftenartikel zum Thema „Geocorisae“

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Autor: Grafiati
Veröffentlicht am 25. Juli 2024

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1

Kóbor, Péter. „A redefinition of Umbrageocoris with new species and new combinations (Heteroptera, Lygaeoidea, Geocoridae)“. Deutsche Entomologische Zeitschrift 69, Nr. 2 (21.07.2022): 139–50. http://dx.doi.org/10.3897/dez.69.85584.

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The geocorine (Hemiptera: Heteroptera: Lygaeoidea: Geocoridae) true bug genus Umbrageocoris Kóbor, 2019 is redefined based on new morphological information from newly acquired specimens. Two new species are described: U. booneisp. nov. from continental Indomalaya and U. malipatilisp. nov. from Australia; two new combinations are proposed: U. elegantulus (Distant, 1904), comb. nov., and U. woodwardi (Malipatil, 1994), comb. nov. (both transferred from Geocoris Fallén, 1814). Keys, diagnoses, and distribution data to the discussed species are provided. Hypotheses on the origin of Umbrageocoris and its relationship to other geocorine genera in the region are formulated. New country records: U. elegantulus (Papua New Guinea), U. maai maai (Thailand, Laos) and U. woodwardi (Papua New Guinea).
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2

HASKELL, P. T. „STRIDULATION AND ITS ANALYSIS IN CERTAIN GEOCORISAE (HEMIPTERA HETEROPTERA)“. Proceedings of the Zoological Society of London 129, Nr. 3 (20.08.2009): 351–58. http://dx.doi.org/10.1111/j.1096-3642.1957.tb00300.x.

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3

AKYILDIZ, Merve, und Erol BAYHAN. „Determination of Geocoris Species (Hemiptera: Geocoridae) in Cotton Production Areas of Diyarbakir, Mardin ve Şanlıurfa Provinces“. Dicle Üniversitesi Fen Bilimleri Enstitüsü Dergisi 12, Nr. 2 (01.10.2023): 285–93. http://dx.doi.org/10.55007/dufed.1278112.

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Güneydoğu Anadolu Bölgesi Türkiye’nin en önemli pamuk üretim bölgesi durumunda olup, sulamaya açılan alanların artmasıyla birlikte özellikle son yıllarda bitki koruma sorunlarının çözümü için kimyasal ilaçların bilinçsiz kullanımı zararlı türler ile mücadelede önemli bir yere sahip olan faydalı böcek popülasyonlarını tehlike altına sokmaktadır. Geocoris spp. (Hemiptera: Geocoridae) kırmızıörümcek, thrips, yaprakbiti gibi zararlılar ile beslenebilen etkili bir doğal düşmandır. Diyarbakır, Şanlıurfa ve Mardin illeri pamuk ekim alanlarında 2021 ve 2022 yıllarında toplanan Geocoridae familyasına ait Geocoris türlerinin belirlenmesi amacıyla iki haftalık periyotlarla arazi çıkışları gerçekleştirilerek D-Vac ile örnekleme yapılmıştır. Toplanan örneklerden 2021 yılında 7 tür 2022 yılında ise 6 tür elde edilmiştir. Bu türler Geocoris (Geocoris) megacephalus (Rossi, 1790), Geocoris (Geocoris) punctipes (Say, 1831), Geocoris (Geocoris) pubescens (Jakovlev, 1871), Geocoris (Geocoris) pallidipennis (Costa, 1843), Geocoris (Piocoris) erythrocephalus (Lepeletier & Serville, 1825), Geocoris (Piocoris) putonianus (Bergroth, 1892) ve Geocoris (Geocoris) arenarius (Jakovlev, 1867) olarak tespit edilmiştir.
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4

KÓBOR, PÉTER. „Apennocoris pilosulus: rediscovery of a forgotten big-eyed bug taxon from New Caledonia (Heteroptera: Lygaeoidea: Geocoridae)“. Zootaxa 4822, Nr. 2 (05.08.2020): 285–92. http://dx.doi.org/10.11646/zootaxa.4822.2.10.

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Apennocoris pilosulus Montandon, 1907 (Hemiptera: Heteroptera: Lygaeoidea: Geocoridae), a peculiar representative of Geocorinae endemic to New Caledonia unreported since its original description is redescribed and illustrated based on its lectotype (designated in the present paper) and an additional non-type specimen. The placement of this monotypic genus within the subfamily Geocorinae is discussed.
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5

Kóbor, Péter. „Big-eyed bugs of the Malagasy Region (Hemiptera: Heteroptera: Lygaeoidea: Geocoridae)“. Acta Zoologica Academiae Scientiarum Hungaricae 69, Nr. 3 (25.08.2023): 247–64. http://dx.doi.org/10.17109/azh.69.3.247.2023.

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A synopsis of the geocorine true bugs distributed in the Malagasy biogeographic region is presented, including the description Geocoris (Piocoris) petofii sp. n. and proposal of the new synonymy Geocoris (Geocoris) insularis China, 1955 = Geocoris (Geocoris) pallidipennis mauritii Stål, 1854. Keys, diagnoses, taxonomic notes, and distribution data for discussed species are provided.
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6

Malipatil, MB. „Revision of Australian Geocoris Fallén and Stylogeocoris Montandon (Heteroptera : Lygaeidae : Geocorinae)“. Invertebrate Systematics 8, Nr. 2 (1994): 299. http://dx.doi.org/10.1071/it9940299.

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The Australian geocorine genera (Geocoris Fallén, Stylogeocoris Montandon and Germalus St aring l) are redefined and keyed, and a species-level revision of the first two named genera is undertaken. All known species are redescribed and the following new species described: Geocoris woodwardi, G. victoriensis, G. asetosus, G. borealis and Stylogeocoris maculatus. Geocoris hakeae Eyles is synonymised with Stylogeocoris biroi Montandon, the type species of Stylogeocoris. Three species of Geocoris (G. capricornutus Kirkaldy, G. convivus Distant and G. elongatus Distant) are transferred to Stylogeocoris.
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7

KÓBOR, PÉTER. „An overview of the big-eyed bug fauna of French Polynesia (Heteroptera: Lygaeoidea: Geocoridae)“. Zootaxa 4743, Nr. 3 (26.02.2020): 359–70. http://dx.doi.org/10.11646/zootaxa.4743.3.3.

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The representatives of the subfamily Geocorinae (Heteroptera: Lygaeoidea) distributed in French Polynesia are reviewed. Germalus ashlocki sp. nov. is described. First occurrence of genus Geocoris Fallén and a Germalus Stål species from New Caledonia are recorded. Diagnoses, keys and discussion of taxa are provided.
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KÓBOR, P., I. TÓBIÁS, M. ROCA-CUSACHS und E. KONDOROSY. „The subspecies concept in Geocorinae: an integrated taxonomic case study on Geocoris (Piocoris) erythrocephalus (Lepeletier & Serville, 1825) (Hemiptera: Heteroptera: Geocoridae)“. Zootaxa 4482, Nr. 3 (19.09.2018): 541. http://dx.doi.org/10.11646/zootaxa.4482.3.6.

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The validity and necessity of subspecies as a taxonomic category and the implications of the subspecies concept in various taxa of animals is subject of debates since its very existence. In case of the species of the lygaeoid subfamily Geocorinae there are multiple examples of species consisting of up to nine subspecies which were mostly described as varieties or forms before the middle of 20th century, but upgraded to valid subspecies subsequently, usually without providing any arguments. As part of an integrated taxonomic study on the Palaearctic representatives of Geocorinae, the status of the subspecies of Geocoris (Piocoris) erythrocephalus (Lepeletier & Serville, 1825) was revisited. A critical review of the literature available and our studies, involving analysis of COI sequences, morphological examination and distribution data processing with the use of Geographic Information System, concluded that two of the three subspecies, G. e. erythrocephalus and G. e. marginellus Horváth, 1907, can be considered valid, while G. e. litoreus Horváth, 1895, is merely a phenotypically manifested infrasubspecific genetic variety of G. e. erythrocephalus, with no taxonomic value as it was suggested by earlier study of another author. Besides the interpretation of evidence, the applicability of the subspecies concept in Geocorinae is discussed as well.
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KÓBOR, PÉTER. „The New Caledonian endemic geocorine bug genus, Nannogermalus is not monotypic anymore (Heteroptera: Lygaeoidea: Geocoridae)“. Zootaxa 5382, Nr. 1 (07.12.2023): 43–54. http://dx.doi.org/10.11646/zootaxa.5382.1.7.

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Three new species of the big-eyed bug genus Nannogermalus Kondorosy & Kóbor, 2020 (Hemiptera: Heteroptera: Lygaeoidea: Geocoridae: Geocorinae) are now described: N. herczeki sp. nov., N. pallgergelyi sp. nov. and N. webbi sp. nov. Additions and corrections to the generic description of the genus were made based on the newly acquired morphological knowledge. Key, diagnoses and distribution data for new species of the genus are provided. Ecological notes are given based on collection site data and literature regarding other geocorid taxa.
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10

Nagy, Zoltán. „First record of Geocoris pallidipennis from Hungary (Hemiptera: Geocoridae)“. Folia Entomologica Hungarica 81 (2020): 17–20. http://dx.doi.org/10.17112/foliaenthung.2020.81.17.

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Adult individuals of Geocoris pallidipennis (Costa, 1843) were observed and collected at the end of October 2019 and 2020 in Szászvár (Baranya county), Hungary. They were found in a drainage ditch in the village. This is the first Hungarian record of the species. With 2 figures.
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11

Nhu, Le Thuy To, Nguyen Bao Quoc und Nguyen Ngoc Bao Chau. „Preliminary survey and molecular identification of Geocoris ochropterus (Fieber) (Hemiptera: Geocoridae)“. HO CHI MINH CITY OPEN UNIVERSITY JOURNAL OF SCIENCE - ENGINEERING AND TECHNOLOGY 13, Nr. 2 (31.10.2023): 12–23. http://dx.doi.org/10.46223/hcmcoujs.tech.en.13.2.2933.2023.

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Big-eyed bugs Geocoris spp. are a natural enemy species presented in many parts of the world that have been extensively researched because of the benefits that they bring to plants. In Vietnam, big-eyed bugs are found in many places, especially in farming complexes or large farms. In Ho Chi Minh City, Geocoris sp. was found in Pham Van Coi Commune, Cu Chi District, Ho Chi Minh City, with bug density fluctuations across seasons at an average of 5.33 ± 2.67 individuals per point. The density of the big-eyed bug in Cu Chi District was 03 times higher than the density recorded in Ham Tan District, Binh Thuan Province. Morphological and molecular-based COI genes identified the speciments from Cu Chi, Ho Chi Minh City, and Ham Tan, Binh Thuan are Geocoris ochropterus. From the research results, these two sampling sites will be selected to further evaluate the rate of natural increase of the big-eyed bug Geocoris ochropterus.
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12

Tsuchida, Yuta, Shinichi Masui und Yusuke Katai. „Effect of Agrichemicals on a Predatory Bug, Geocoris proteus Distant (Heteroptera: Geocoridae)“. Japanese Journal of Applied Entomology and Zoology 57, Nr. 1 (2013): 43–46. http://dx.doi.org/10.1303/jjaez.2013.43.

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13

Satoh, Yumika, Youichi Kobori, Hiroshi Oida, Masashi Nomura, Hidetsugu Tanaka und Toshiyuki Tezuka. „Effect of Agrichemicals on the Polyphagous Predatory Bug, Geocoris varius (Uhler) (Heteroptera: Geocoridae)“. Japanese Journal of Applied Entomology and Zoology 56, Nr. 2 (2012): 43–48. http://dx.doi.org/10.1303/jjaez.2012.43.

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14

Solhjouy-Fard, Samaneh, und Alimorad Sarafrazi. „Patterns of niche overlapping and richness among Geocoris species (Hemiptera: Geocoridae) in Iran“. Biocontrol Science and Technology 26, Nr. 9 (06.07.2016): 1197–211. http://dx.doi.org/10.1080/09583157.2016.1182619.

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15

Bao Chau, Nguyen Ngoc, und Nguyen Thi Phung Kieu. „Comparative prey predation ability of big-eyed bug Geocoris ochropterus (Fieber) (Hemiptera: Geocoridae)“. Journal of Current Science and Technology 13, Nr. 3 (30.08.2023): 708–13. http://dx.doi.org/10.59796/jcst.v13n3.2023.1307.

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We investigated the predation ability of big-eyed bugs Geocoris ochropterus on different single prey species of thrips, whiteflies, and aphids. Results indicated that G. ochropterus adults consumed the highest number of aphids per day (33.6 ± 3.35). First instar nymphs of G. ochropterus showed low ability to consume prey, while from second to fifth instar nymphs showed high ability to consume prey with significant differences. The number of eggs deposited per female fed on whiteflies was significantly different larger than other prey types. In addition, development time of Geocoris ochropterus nymphs first to fourth instar was longest when fed on aphids and significantly different among prey types. Results suggest that G. ochropterus consumed the highest numbers of aphids, with the order of preference aphids > whiteflies > thrips.
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Brannon, Sonja L., Kimberly B. Decker und Kenneth V. Yeargan. „Photoperiodic Induction of Reproductive Diapause in the Predator Geocoris uliginosus (Hemiptera: Geocoridae)“. Annals of the Entomological Society of America 99, Nr. 2 (01.03.2006): 300–304. http://dx.doi.org/10.1603/0013-8746(2006)099[0300:piordi]2.0.co;2.

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17

Joseph, Shimat V., und S. Kristine Braman. „Influence of Turf Taxa and Insecticide Type on Survival of Geocoris spp. (Hemiptera: Geocoridae)“. Journal of Entomological Science 47, Nr. 3 (Juli 2012): 227–37. http://dx.doi.org/10.18474/0749-8004-47.3.227.

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Igarashi, Kiyoaki, und Masashi Nomura. „Development and reproduction of Geocoris varius (Hemiptera: Geocoridae) on two types of artificial diet“. Applied Entomology and Zoology 48, Nr. 3 (07.05.2013): 403–7. http://dx.doi.org/10.1007/s13355-013-0185-3.

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19

Wheeler, A. G., und Juang-Horng Chong. „Geocoris uliginosus(Say) (Hemiptera: Geocoridae): Association with Spanish Moss (Tillandsia usneoides) on Trees and Shrubs“. Proceedings of the Entomological Society of Washington 114, Nr. 3 (Juli 2012): 424–29. http://dx.doi.org/10.4289/0013-8797.1143.424.

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20

Ruberson, John R., Kenneth V. Yeargan und Blake L. Newton. „Variation in Diapause Responses Between Geographic Populations of the Predator Geocoris punctipes (Heteroptera: Geocoridae)“. Annals of the Entomological Society of America 94, Nr. 1 (01.01.2001): 116–22. http://dx.doi.org/10.1603/0013-8746(2001)094[0116:vidrbg]2.0.co;2.

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Oida, Hiroshi, und Fujio Kadono. „Development of Geocoris varius and G. proteus (Hemiptera: Geocoridae) provided with Ephestia kuehniella (Lepidoptera: Pyralidae) eggs“. Applied Entomology and Zoology 47, Nr. 4 (29.07.2012): 365–72. http://dx.doi.org/10.1007/s13355-012-0127-5.

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22

Oida, Hiroshi, und Fujio Kadono. „Prey Consumption by Geocoris varius and G. proteus (Heteroptera: Geocoridae) Provided with Horticultural Major Pests in Greenhouses.“ Japanese Journal of Applied Entomology and Zoology 55, Nr. 4 (2011): 217–25. http://dx.doi.org/10.1303/jjaez.2011.217.

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23

Varshney, Richa, Neeraj Budhlakoti und Chandish R. Ballal. „Functional response of Geocoris ochropterus Fieber (Hemiptera: Geocoridae) to different egg densities of Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae)“. Phytoparasitica 46, Nr. 4 (15.08.2018): 451–58. http://dx.doi.org/10.1007/s12600-018-0687-1.

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Chau, Nguyen Ngoc Bao, Le Thuy To Nhu und Nguyen Bao Quoc. „Comparative effect of various powder diets on growth of big‐eyed bug Geocoris ochropterus (Fieber) (Hemiptera: Geocoridae)“. Entomological Research 53, Nr. 6 (Juni 2023): 238–44. http://dx.doi.org/10.1111/1748-5967.12661.

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25

Kahl, Hanna M., Alan W. Leslie und Cerruti R. R. Hooks. „Effects of Red Clover Living Mulch on Arthropod Herbivores and Natural Enemies, and Cucumber Yield“. Annals of the Entomological Society of America 112, Nr. 4 (07.11.2018): 356–64. http://dx.doi.org/10.1093/aesa/say036.

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Abstract Increasing habitat complexity through cover cropping has been proposed as a tactic to reduce herbivore colonization and encourage natural enemies in cropping systems. To test the supposition that cover crops can be used to alter arthropod communities, we compared arthropod communities on cucumber (Cucumis sativus L.; Cucurbitaceae) interplanted with a red clover (Trifolium pratense L.; Fabaceae) living mulch and grown as a monoculture. In 2016 and 2017, visual surveys and yellow sticky card traps were used to estimate numbers of arthropod natural enemies and herbivores in each treatment. Among herbivores, striped cucumber beetles [Acalymma vittatum (Fabricius, 1775); Coleoptera: Chrysomelidae] and melon aphids (Aphis gossypii Glover, 1877; Hemiptera: Aphididae) had lower densities in the presence of red clover. However, populations of spotted cucumber beetle (Diabrotica undecimpunctata howardi Barber, 1947; Coleoptera: Chrysomelidae) had a variable response to red clover. Sticky card captures of natural enemies, including bigeyed bugs (Geocoris spp. Fallén; Hemiptera: Geocoridae), minute pirate bugs (Orius spp. Wolff; Hemiptera: Anthocoridae), and lady beetles (Coleoptera: Coccinellidae), were generally greater in cucumber interplanted with red clover than monoculture. Overall, cucumber yield did not differ between treatments. Findings from this study lend support to the hypothesis that greater habitat complexity can reduce herbivore densities.
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Olson, Dawn M., Adam R. Zeilinger, Kristina K. Prescott, Alisa W. Coffin, John R. Ruberson und David A. Andow. „Landscape Effects on Solenopsis invicta (Hymenoptera: Formicidae) and Geocoris spp. (Hemiptera: Geocoridae), Two Important Omnivorous Arthropod Taxa in Field Crops“. Environmental Entomology 47, Nr. 5 (10.07.2018): 1057–63. http://dx.doi.org/10.1093/ee/nvy104.

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Như, Lê Thuỵ Tố, und Nguyễn Ngọc Bảo Châu. „Hiệu quả kiểm soát sinh học rầy mềm Aphis gossypii (Hemiptera: Aphididae) của bọ mắt to Geocoris ochropterus (Hemiptera: Geocoridae)“. TẠP CHÍ KHOA HỌC ĐẠI HỌC MỞ THÀNH PHỐ HỒ CHÍ MINH - KỸ THUẬT VÀ CÔNG NGHỆ 18, Nr. 1 (03.01.2023): 67–74. http://dx.doi.org/10.46223/hcmcoujs.tech.vi.18.1.2266.2023.

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Bọ mắt to Geocoris ochropterus là loài ăn mồi đa thực, đã và đang được quan tâm nghiên cứu và áp dụng trong phòng trừ sinh học côn trùng gây hại ở nhiều nước trên thế giới. Trong nghiên cứu này, các thí nghiệm phản ứng chức năng được thực hiện để đánh giá khả năng phòng trừ sinh học rầy mềm của bọ mắt to Geocoris ochropterus thu thập ở Củ Chi. Trong thời gian 24h, có sự khác biệt rất có ý nghĩa về mặt thống kê về tổng số rầy mềm bị bọ xít mắt to tiêu diệt giữa các nghiệm thức. Bọ mắt to tiêu diệt trung bình 12.7 ± 2.51; 21.33 ± 1.52; 31.33 ± 2.08; 40 ± 2; 40 ± 1.15 rầy mềm tương ứng lần lượt với các mật độ 20, 30, 40, 50, 60 con rầy mềm, kết quả nghiên cứu chỉ ra rằng bọ mắt to thể hiện phản ứng chức năng phù hợp với kiểu II (Holling, 1959). Thí nghiệm phản ứng số lượng biểu thị đường cong số rầy mềm bị tiêu diệt gia tăng khi mật độ bọ thành trùng tăng từ 05 con. Kết quả nghiên cứu cho thấy Bọ mắt to Geocoris ochropterus là loài có khả năng áp dụng trong phòng trừ sinh học côn trùng gây hại.
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Krey, K. L., W. R. Cooper und J. M. Renkema. „Revealing the Diet of Generalist Insect Predators in Strawberry Fields: Not Only Pests, But Other Predators Beware“. Environmental Entomology 49, Nr. 6 (02.11.2020): 1300–1306. http://dx.doi.org/10.1093/ee/nvaa125.

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Abstract Generalist invertebrate predators contribute to pest management in agriculture, providing an important ecosystem service, particularly in organically managed fields. DNA-based methods to study food webs and feeding interactions in unrestricted field conditions have transformed dietary analysis of generalist predators. In this study, we used MiSeq next-generation sequencing (NGS) technology and universal arthropod primers to investigate the diet of several generalist insect predators collected in commercial organic Florida strawberry fields from November 2017 to March 2018. Of 12 predator insect taxa, Geocoris spp. (Say) (Hemiptera: Geocoridae) was the most abundant early in the growing season (November) and was collected consistently until the end of the season (early March). DNA sequences from 105 predator samples were matched to 44 arthropod families, and of these, 17 were categorized as pest families, 10 as nonpest or nonpredator families, and 17 as predator families. Drosophilidae was the most detected pest family, and Dolichopodidae was the most detected predator family. Prey diversity differed among the predators. Chrysoperla spp. (Neuroptera: Chrysopidae) consumed more prey earlier in the season than did other predators, whereas the other predators consumed a greater diversity of other predators regardless of month. Our results showed a high amount of intraguild predation, but also that predators are contributing to pest suppression in organic strawberries and providing an important biological control service in Florida organic strawberries.
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Igarashi, Kiyoaki, Masashi Nomura und Satoko Narita. „Application of a powdered artificial diet to promote the establishment of the predatory bug Geocoris varius (Hemiptera: Geocoridae) on strawberry plants“. Applied Entomology and Zoology 48, Nr. 2 (01.02.2013): 165–69. http://dx.doi.org/10.1007/s13355-013-0167-5.

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MALIPATIL, M. B. „Australocorinae, a new subfamily of Geocoridae (Hemiptera: Heteroptera: Lygaeoidea) from Australia, with descriptions of a new genus and two new species“. Zootaxa 3554, Nr. 1 (19.11.2012): 75. http://dx.doi.org/10.11646/zootaxa.3554.1.6.

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Australocorinae subfam. nov., a new subfamily of family Geocoridae, is erected for Australocoris gen. nov. containing three species, A. kurandae Kirkaldy, 1908, A. fuscomaculatus sp. nov., and A. monticolus sp. nov., all from Queensland, Australia. Australocoris monticolus has been collected only from northern Queensland, near Julatten north of Cairns to Bellenden Ker Range area, and mostly at higher altitudes 800 to 1560 m; A. kurandae from usually lower altitudes of northern Queensland; and A. fuscomaculatus is known from southern Queensland. The affinities of the subfamily are discussed in relation to other subfamilies of Geocoridae as well as other related families of Lygaeoidea. Geocoridae is redefined to contain this new subfamily. A key to species is provided.
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31

MALIPATIL, M. B. „Indopamphantus makutaensis, a new genus and species, and Indopamphantini, a new tribe of Pamphantinae (Hemiptera: Heteroptera: Geocoridae), as the first representative of the subfamily from the Oriental Region“. Zootaxa 4242, Nr. 2 (10.03.2017): 281. http://dx.doi.org/10.11646/zootaxa.4242.2.4.

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Indopamphantini trib. nov., a new tribe of subfamily Pamphantinae of family Geocoridae, is erected for Indopamphantus gen. nov., containing one species, I. makutaensis sp. nov., as the first member of this subfamily from the Oriental Region. The strikingly myrmecomorphic I. makutaensis, collected only from Makuta range area within Coorg [Kodagu] district at altitudes of up to 909 metres in the canopy of Vateria indica L. (Dipterocarpaceae), a tree indigenous to the Western Ghats in south India, is described and illustrated. The affinities of the new tribe with other tribes within the Pamphantinae as well with other related subfamilies of Geocoridae and families of Lygaeoidea are discussed. The Geocoridae and Pamphantinae are redefined to accommodate this new tribe.
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32

Tillman, P. G., und B. G. Mullinix. „Effect of Prey Species on Plant Feeding Behavior by the Big-Eyed Bug, Geocoris punctipes (Say) (Heteroptera: Geocoridae), on Cotton“. Environmental Entomology 32, Nr. 6 (01.12.2003): 1399–403. http://dx.doi.org/10.1603/0046-225x-32.6.1399.

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33

MALIPATIL, M. B., und M. J. BLACKET. „Review and revision of Australian Germalus Stål, with new genera and further new species of Australian Geocorinae (Hemiptera: Heteroptera: Geocoridae)“. Zootaxa 3746, Nr. 2 (11.12.2013): 257. http://dx.doi.org/10.11646/zootaxa.3746.2.3.

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34

Tsuchida, Yuta, Makoto Doi, Akio Tatara und Shinichi Masui. „Effects of Alternative Foods Provided by Living-Mulch on the Life History Traits of the Predatory Bug, Geocoris proteus (Heteroptera: Geocoridae)“. Japanese journal of applied entomology and zoology 59, Nr. 1 (2015): 23–29. http://dx.doi.org/10.1303/jjaez.2015.23.

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35

Brailovsky, Harry, und Ernesto Barrera. „Five new species of 𝐺𝑒𝑜𝑐𝑜𝑟𝑖𝑠 Fallén, 1814 from Peru: synonym, new records, and key to species (Hemiptera: Heteroptera: Lygaeoidea: Geocoridae)“. Dugesiana 31, Nr. 2 (01.07.2024): 199–209. http://dx.doi.org/10.32870/dugesiana.v31i2.7323.

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The genus Geocoris Fallén, 1814 is recorded for the first time from Peru. Five new species are described: G. castanoae, G. flatus, G. genuinus, G. infrequens, and G. navus. Geocoris sobrinus (Blanchard, 1852) is recorded for the first time from Peru. Geocoris barrosi Porter, 1917 is considered a synonym of the nominal species Geocoris sobrinus (Blanchard, 1852). A key to the six species known from Peru is included, with photographs of the dorsal habitus, and parameres of some species
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36

James, David G. „Effect of Buprofezin on Survival of Immature Stages of Harmonia axyridis, Stethorus punctum picipes (Coleoptera: Coccinellidae), Orius tristicolor (Hemiptera: Anthocoridae), and Geocoris spp. (Hemiptera: Geocoridae)“. Journal of Economic Entomology 97, Nr. 3 (01.06.2004): 900–904. http://dx.doi.org/10.1093/jee/97.3.900.

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37

CALIXTO, Ana M., Vanda H. P. BUENO, Flavio C. MONTES und Joop C. VAN LENTEREN. „Development and thermal requirements of the Nearctic predator Geocoris punctipes (Hemiptera: Geocoridae) reared at constant and alternating temperatures and fed on Anagasta kuehniella (Lepidoptera: Pyralidae) eggs“. European Journal of Entomology 111, Nr. 4 (01.10.2014): 521. http://dx.doi.org/10.14411/eje.2014.074.

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38

Chau, Nguyen Ngoc Bao, und Le Thuy To Nhu. „Big-eged bugs Geocoris: Diets research and potential of use in prevention of a number of insect pests in Vietnam“. ENGINEERING AND TECHNOLOGY 9, Nr. 1 (04.06.2020): 70–77. http://dx.doi.org/10.46223/hcmcoujs.tech.en.9.1.353.2019.

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Big-eyed bugs Geocoris spp. (Lygaeidae, Hemiptera) are small insects that is found in many parts of the world. They are beneficial because they eat a multitude of insect pests in agriculture. Big-eyed bugs Geocoris spp. are insects that receive research attention in Florida and elsewhere because of the benefits that this species give to plants (Mead, 2001). Big-eyed bugs reproduce many generations in a year on weeds, perennial crops, bushes. In spring the female big-eyed bugs start laying eggs on the bud, the leaves of the host plant. Understanding the biology and the role of predator Geocoris spp. in ecosystem will provide an alternative method in sustainable agriculture development. In this short review, we discuss some convenient diets for the application of mass rearing Geocoris spp.
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39

KÓBOR, P., und E. KONDOROSY. „Revision of Continental African Germalus (Heteroptera: Lygaeoidea: Geocoridae)“. Zootaxa 4277, Nr. 3 (19.06.2017): 427. http://dx.doi.org/10.11646/zootaxa.4277.3.7.

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Germalus species of Continental Africa are now revised including redescription of Germalus ghesquierei Schouteden 1957 and Germalus conradsi Schouteden 1957. Two new species, Germalus oroszi sp. nov. and Germalus telekii sp. nov. are described.
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40

Fair, C. G., und S. K. Braman. „Predation ofAnasa tristis(Hemiptera: Coreidae) byGeocoris punctipes(Hemiptera: Geocoridae)“. Journal of Entomological Science 54, Nr. 1 (Januar 2019): 87–92. http://dx.doi.org/10.18474/jes18-66.

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41

KÓBOR, P., und E. KONDOROSY. „Germalus species of the Malagasy region (Heteroptera: Lygaeoidea: Geocoridae)“. Zootaxa 4200, Nr. 3 (29.11.2016): 444. http://dx.doi.org/10.11646/zootaxa.4200.3.10.

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Malagasy species of the genus Germalus Stål, 1862 were reviewed based on material of different European museums. Comments on the description of Germalus kinbergi (Stål, 1859) are given with new distribution data on Réunion. Two new species, Germalus banari sp. nov. and Germalus benyovszkyi sp. nov. are described.
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42

Dellapé, Pablo M., Gimena Dellapé und Fernando Martínez. „The rediscovery of Stenogeocoris horvathi Montandon (Heteroptera, Geocoridae) in Argentina“. Iheringia. Série Zoologia 105, Nr. 2 (Juni 2015): 245–51. http://dx.doi.org/10.1590/1678-476620151052245251.

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ABSTRACT Stenogeocoris Montandon, 1913 was described to include S. horvathi based in one specimen from Córdoba Province, Argentina. The type specimen is lost and there are no records or additional material since the Montandon's description; thus, the identity of this taxon has remained uncertain until now. In this contribution, we redescribe the genus Stenogeocoris and the species S. horvathi, based on male and female specimens, including characters from the male genitalia, and compare Stenogeocoris with the other Neotropical genera
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43

James, David G. „Effect of Buprofezin on Survival of Immature Stages of Harmonia axyridis, Stethorus punctum picipes (Coleoptera: Coccinellidae), Orius tristicolor (Hemiptera: Anthocoridae), and Geocoris spp. (Hemiptera: Geocoridae)“. Journal of Economic Entomology 97, Nr. 3 (01.06.2004): 900–904. http://dx.doi.org/10.1603/0022-0493(2004)097[0900:eoboso]2.0.co;2.

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44

Cherry, Ron. „Interrelationship of Big-Eyed Bugs (Hemiptera: Lygaeidae) and Southern Chinch Bugs (Hemiptera: Lygaeidae) in Florida Lawns2“. Journal of Entomological Science 40, Nr. 4 (01.10.2005): 385–89. http://dx.doi.org/10.18474/0749-8004-40.4.385.

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The southern chinch bug, Blissus insularis Barber, is the most important insect pest of St. Augustinegrass, Stenotaphrum secundatum (Walt.) Kuntze. Fifteen chinch bug infestations in St. Augustinegrass lawns in Florida were sampled by vacuuming. Additional vacuum samples were taken in 15 randomly selected St. Augustinegrass lawns. The big-eyed bug, Geocoris uliginosus Say, was the most frequent and abundant big-eyed bug found at the infestations. Data showed that big-eyed bugs (Geocoris spp.) were highly aggregated at chinch bug infestations. Furthermore, there was a significant positive correlation between numbers of chinch bugs and big-eyed bugs at chinch bug infestations showing that big-eyed bugs had a numerical predator response to increasing chinch bug populations.
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45

KÓBOR, PÉTER. „Contributions to the knowledge of Umbrageocoris (Heteroptera: Lygaeoidea: Geocoridae)“. Zootaxa 4652, Nr. 2 (08.08.2019): 384–90. http://dx.doi.org/10.11646/zootaxa.4652.2.11.

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Additions and corrections to original description of Umbrageocoris Kóbor, 2019 are provided along with the description of a new species and its two subspecies: Umbrageocoris maai maai ssp.n. from Borneo and the Malay Peninsula and Umbrageocoris maai timorensis ssp.n. from Timor. Key to known species and distribution maps included.
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46

RENGIFO-CORREA, LAURA, HARRY BRAILOVSKY, THOMAS J. HENRY und JUAN J. MORRONE. „Phylogenetics and evolutionary morphology of the Neotropical true bug genusEpipolops(Hemiptera: Heteroptera: Geocoridae)“. Systematic Entomology 39, Nr. 1 (08.10.2013): 127–40. http://dx.doi.org/10.1111/syen.12039.

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47

SOARES, JOSÉ JANDUI, und ANTÔNIO CARLOS BUSOLI. „Efeito de inseticidas em insetos predadores em culturas de algodão“. Pesquisa Agropecuária Brasileira 35, Nr. 9 (September 2000): 1889–94. http://dx.doi.org/10.1590/s0100-204x2000000900023.

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Com o objetivo de verificar o efeito de inseticidas em insetos predadores em cultura de algodão (Gossypium hirsutum L.), instalaram-se, em 1993-1994, dois experimentos, um no campo, e outro, em laboratório. No experimento realizado no campo, os tratamentos foram: Fipronil 200 SC (75 g/ha de i.a.); Fipronil 800 WDG (64, 80 e 100 g/ha de i.a.); Endosulfan 350 CE (700 g/ha de i.a.); e testemunha. Em laboratório, além das formulações à base de Fipronil foi utilizado o Paration metílico 600 CE (480 g/ha de i.a.). Fipronil foi seletivo para os artrópodes predadores (Scymnus sp., Geocoris ventralis, Cycloneda sanguinea e Doru lineare) no campo, e a Cycloneda sanguinea (L.), em laboratório, e pode ser recomendado em programas de manejo integrado de pragas na cultura do algodoeiro para o controle de Alabama argillacea (Rueb.), e Anthonomus grandis Boh. Endosulfan foi seletivo em relação a Scymnus sp., Geocoris ventralis Thomazini e Doru lineare (Eschs) no campo, com uma redução dos insetos inferior a 30%, e o Paration metílico não foi seletivo para C. sanguinea em laboratório.
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48

KÓBOR, PÉTER, und ELŐD KONDOROSY. „The big-eyed bug genus Germalus Stål, 1862 in New Guinea (Heteroptera: Lygaeoidea: Geocoridae)“. Zootaxa 5182, Nr. 3 (06.09.2022): 265–78. http://dx.doi.org/10.11646/zootaxa.5182.3.4.

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An overview of the representatives of the geocorine true bug genus, Germalus Stål, 1862, distributed in New Guinea is presented. The results include the description of Germalus cucullatus sp. nov., Germalus kontschani sp. nov., Germalus pappi sp. nov., Germalus pulchellus sp. nov. and Germalus sellatus sp. n. and the discussion of their relationship to other Germalus species in the adjacent regions. Key to New Guinean species and distribution maps are provided.
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49

Jackson, Ryan E., und Henry N. Pitre. „Influence of Roundup Ready Soybean Production Systems and Glyphosate Application on Pest and Beneficial Insects in Narrow-Row Soybean“. Journal of Entomological Science 39, Nr. 1 (01.01.2004): 62–70. http://dx.doi.org/10.18474/0749-8004-39.1.62.

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Roundup Ready® soybeans, Glycine max (L.) Merrill, in narrow-row planting systems were investigated in 1998 in Mississippi to evaluate the effects of the transgenic crop and glyphosate herbicide on pest and beneficial insects. Insects found in sufficient numbers for meaningful analysis included adult bean leaf beetle, Cerotoma trifurcata (Forster); adult three-cornered alfalfa hopper, Spissistilus festinus (Say); adult big-eyed bug, Geocoris punctipes (Say), and; larvae of green cloverworm, Plathypena scabra (F.), and velvetbean caterpillar, Anticarsia gemmatalis (Hübner). Populations of C. trifurcata, S. festinus, P. scabra and A. gemmatalis were not reduced in genetically altered Roundup Ready soybean, or by recommended (by label) or delayed applications of glyphosate. Numbers of G. punctipes also were not reduced in Roundup Ready soybean, but were reduced by recommended applications of glyphosate during weeks three and four following the second recommended herbicide application. Geocoris punctipes densities also were reduced at 1 and 2 wks after the first glyphosate application in plots in which the second application of glyphosate was delayed. Numbers of G. punctipes may have been indirectly reduced by glyphosate within sample weeks two and three because of variations in weed densities after treatment with the herbicide.
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50

Naranjo, Steven E. „Observations on Geocoris punctipes (Hemiptera: Lygaeidae) Oviposition Site Preferences“. Florida Entomologist 70, Nr. 1 (März 1987): 173. http://dx.doi.org/10.2307/3495105.

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