Artículos de V. Orientalis como factor de riesgo (o
relacionados) en el sur de la Península Ibérica:

Búsqueda preliminar Google Scholar
south OR southern OR sur OR españa OR spain OR Iberian OR Iberia OR andalusia OR
andalucía OR andalusian OR Murcia OR Málaga OR Huelva OR Sevilla OR Almería OR
Granada OR Jaén OR Cádiz OR Cadiz OR Jaen OR Malaga OR Almeria «Vespa Orientalis»
2025:
1.
Pradera, C., del Pico Pons, C., & Romero, I. F. Vespa orientalis Linnaeus, 1771
(Hymenoptera: Vespidae), primera cita para la Región de Murcia (España).

2. Durá Alemañ, C. J. (2025). El País Vasco modifica la Ley 2/2011, de 17 de marzo, de
   caza. Actualidad Jurídica Ambiental, (157).
   2024:
3. Amat, L. M., Alcón, S. L., & Velandia, D. G. (2024). Retos en la alergia a avispas y
   abejas: Una perspectiva práctica. coordinador, 47.
   2023:
4. Maciá, A., Micieli, M. V., & Lucía, M. (2023). Artrópodos vulnerantes. Libros de
   Cátedra.
   2022:
5. Castro, L., & del Pico, C. (2022). Novedades en la expansión ibérica de Vespa orientalis
   Linnaeus 1771 (Hymenoptera: Vespidae), con la primera cita del centro de Andalucía.
   Boletín de la Sociedad Entomológica Aragonesa (SEA), 71(31/12), 165-167.
6. Negro, G. N. A. (2022). Arroyo Negro (La Línea de la Concepción, Cádiz). Resultados
   de un año de muestreos. Lista de especies. El Corzo, 10, 73-85.
   2021:
7. Castro, L., & del Pico, C. (2021). Sobre el problema de Vespa orientalis Linnaeus 1771
   (Hymenoptera: Vespidae) en el sur de España. Revista gaditana de Entomología, 12(1),
   183-206.
8. Ceccolini, F. (2021). More records of Vespa orientalis Linnaeus, 1771 in the south of
   the Iberian Peninsula (Hymenoptera: Vespidae: Vespinae). Arquivos Entomolóxicos,
   (24), 335-338.
9. Feás, X. (2021). Human fatalities caused by hornet, wasp and bee stings in Spain:
   epidemiology at state and sub-state level from 1999 to 2018. Biology, 10(2), 73.
   2020:
10. del Carmen Fajardo, M., & Sánchez, Í. (2020). Ciencia ciudadana, globalización y
    especies invasoras. El caso del avispón oriental, Vespa orientalis Linneus 1771 en
    Algeciras. Almoraima. Revista de Estudios Campogibraltareños, (52), 233-238.

2019:

1. Castro, L. (2019). Una nueva introducción accidental en el género Vespa Linnaeus,
   1758: Vespa bicolor Fabricius, 1787 en la provincia de Málaga (España). Revista
   gaditana de Entomología, 10(1), 47-56.
2. Sánchez, I., Fajardo, M. D. C., & Castro, M. (2019). Primeras citas del avispón oriental
   vespa orientalis Linnaeus 1771 (Hymenoptera: vespidae) para andalucía (España).
   Revista de la Sociedad Gaditana de Historia Natural, 13, 11-14.
   2013:
3. Hernández, R., García-Gans, F. J., Selfa, J., & Rueda, J. (2013). Primera cita de la
   avispa oriental invasora Vespa orientalis Linnaeus 1771 (Hymenoptera: Vespidae) en la
   Península Ibérica. Bol. SEA, 52, 299-300.

Artículos de V. Orientalis como factor de riesgo Global:

Búsqueda preliminar Google Scholar
«Vespa Orientalis»

2025:

1. Bertola, M., & Mutinelli, F. (2025). Italy as a Hotspot for Honey Bee Threats.
2. Cutajar, S., Braglia, C., Alberoni, D., Mifsud, M., Baffoni, L., Spiteri, J., … & Mifsud,
   D. (2025). Rethinking spillover risks: first description of the Vespa orientalis gut
   microbiome and its impact on honeybee and human health.
3. Durá Alemañ, C. J. (2025). El País Vasco modifica la Ley 2/2011, de 17 de marzo, de
   caza. Actualidad Jurídica Ambiental, (157).
4. Jawad, S., Thirthar, A. A., & Nisar, K. S. (2025). The impact of climate change on
   flowering plants-bees-Vespa orientalis model. Results in Control and Optimization,
   100583.
5. Motmayen, M. I., Sharma, S. K., Thakur, H., & Sapna. (2025). Incidence of predatory
   wasps, their impact on Apis mellifera honey bees and management in apiaries.
   International Journal of Tropical Insect Science, 1-11.
6. Murtaza, G., Ullah, F., Trujillo-Pahua, V., & Ramirez-Romero, R. (2025). Insect
   responses to heatwaves and their influence on Integrated Pest Management.
   Entomologia Generalis, 45(1).
7. Nganso, B. T., Ayalew, W., Wubie, A. J., Assefa, F., Belayhun, L., Ndungu, N. N., … &
   Subramanian, S. (2025). Honey bee colony losses and causes during the active
   beekeeping season 2022/2023 in nine Sub-Saharan African countries. PloS one, 20(5),
   e0322489.
8. Pradera, C., del Pico Pons, C., & Romero, I. F. Vespa orientalis Linnaeus, 1771
   (Hymenoptera: Vespidae), primera cita para la Región de Murcia (España).
9. Rahimi, E., & Jung, C. (2025). Using ecological niche modeling to model invasion risk
   of hornets (Hymenoptera: Vespidae) in Iran. Journal of Ecology and Environment,
   49(1), 1-12.
10. Vdoviak, G., Sledevič, T., Serackis, A., Plonis, D., Matuzevičius, D., & Abromavičius,
    V. (2025). Evaluation of Deep Learning Models for Insects Detection at the Hive
    Entrance for a Bee Behavior Recognition System. Agriculture, 15(10), 1019.
11. Vrenozi, B., & Lugaj, A. (2025). Medically significant spiders (Arachnida: Araneae)
    and hymenopterans (Insecta: Hymenoptera) of Albania: A comprehensive review of
    ecology and venom toxicity. Polish Journal of Entomology, 94, 13-35.
12. Younis, M. S., & Taha, A. (2025). Reducing Attacks of the Oriental Hornet, Vespa
    orientalis L.(Hymenoptera: Vespidae) on Apiaries Using Targeted Attractant Baits.
    Egyptian Academic Journal of Biological Sciences. A, Entomology, 18(1), 1-8.

2024:

1. Alfy, H., Youssef, A., & Aziz, W. Z. (2024). The Frequency of Insect Fauna, Other
   Pests, and Associated Natural Enemies in Quinoa (Chenopodium quinoa Willd.).
   Egyptian Academic Journal of Biological Sciences, B. Zoology, 16(2), 245-268.
2. Al-Gerrawy, A. J., & AL-Shammary, A. J. (2024). Field Evaluation of Specialized Food
   Traps Which Reinforcement with Insecticides to Control the Eastern Red Wasp Vespa
   Orientals in some apiaries of Baghdad and Wasit Governorate. Dijlah Journal of
   Agricultural Sciences, 2(2), 102-111.
3. Amat, L. M., Alcón, S. L., & Velandia, D. G. (2024). Retos en la alergia a avispas y
   abejas: Una perspectiva práctica. coordinador, 47.
4. Bendifallah, L. (2024). Biotic Stressors in the Agricultural Ecosystem: Case of Invasive
   Species. In Molecular Dynamics of Plant Stress and its Management (pp. 259-279).
   Singapore: Springer Nature Singapore.
5. Cilia, G., & Nanetti, A. (2024). Symptomatic chronic bee paralysis virus (CBPV)
   infection in an Apis mellifera ligustica queen. Bulletin of Insectology, 77(2), 167-170.
6. Conforto, A. Apicoltura moderna: impatto dei cambiamenti climatici su salute e
   produttività degli alveari.
7. Hafi, H., & Benaliouche, H. (2024, December). Transfer Learning and Object Detection
   for Improved Date Fruit Pest Recognition. In 2024 1st International Conference on
   Electrical, Computer, Telecommunication and Energy Technologies (ECTE-Tech) (pp.
   1-8). IEEE.
8. Hassanein, Z. A., Konper, H. M. A., & Gomaa, M. B. (2024). Population dynamics of
   Vespa orientalis wasp, including both the queen and workers, by using bait traps in Kafr
   El-Sheikh Governorate. Egyptian Journal of Plant Protection Research Institute, 7(1),
   43-47.
9. Ismail Elrefaay, M. M., Sharaf El-Din, H. A., & A Abd El-Aal, A. A. (2024).
   Comparative Studies In Using Certain Traditional And Non-Traditional Methods In The
   Control of Some Honey Bee Pests. Menoufia Journal of Plant Protection, 9(7), 231-
   240.
10. Karam Kiani, N., Rasekh, A., & Tahmasbi, G. Annual population dynamics and daily
    activity rhythm of adult Oriental hornets (Vespa orientalis), an important pest of Iranian
    honeybee (Apis mellifera meda) in Ahvaz, Iran. Journal of Agricultural Science and
    Technology, 0-0.
11. Nganso, B. T., Ayalew, W., Wubie, A. J., Assefa, F., Belayhun, L., Ndungu, N. N., … &
    Subramanian, S. (2024). Managed honey bee colony losses and causes during the active
    beekeeping season 2022/2023 in nine Sub-Saharan African countries. bioRxiv, 2024-04.
12. Power, K., Cilia, G., Ragusa, E., Rizzo, R., Bortolotti, L., & Maiolino, P. (2024).
    Occurrence of Nosema ceranae, Ascosphaera apis and trypanosomatids in Vespa
    orientalis linneus 1771. Journal of Invertebrate Pathology, 206, 108168.
13. Ruëff, F. (2024). Insektengiftallergien–Was wird sich ändern in Zeiten des globalen
    Wandels?. Die Dermatologie, 75(2), 126-133.
14. Ruiz-Utrilla, Z. P., del-Val, E., Equihua, J., & Cuervo-Robayo, Á. P. (2024). Risk of
    Asian hornet invasion in Mexico: a proposal for invasive species risk assessment from a
    spatial perspective. Biodiversity and Conservation, 33(5), 1751-1773.
15. Singh, A., Kumar, V., Majumdar, M., Guha, L., & Neog, K. (2024). A comprehensive
    review of insect pest management in muga silkworm (Antheraea assamensis Helfer):
    Current scenario and future prospects. Journal of Experimental Agriculture
    International, 46(5), 47-55.
16. Smith-Pardo, A. H., Altamiranda-Saavedra, M., & Polly, P. D. (2024). The Oriental
    hornet, Vespa orientalis Linnaeus, 1771 (Hymenoptera, Vespidae): diagnosis, potential
    distribution, and geometric morphometrics across its natural distribution range.
    Frontiers in Insect Science, 4, 1384598.
17. Turillazzi, S., Turillazzi, F., & Severino, M. (2024). Global economic trade and climate
    change influence stinging social wasp distribution and appropriate venom
    immunotherapy. Bollettino della Societa Paleontologica Italiana, 156(3), 111-121.
18. Zhang, X., Nie, P., Hu, X., & Feng, J. (2024). Future range expansions of invasive
    wasps suggest their increasing impacts on global apiculture. Insects, 15(7), 546.
19. Zucca, P., Granato, A., Mutinelli, F., Schiavon, E., Bordin, F., Dimech, M., … &
    Spanjol, K. (2024). The oriental hornet (Vespa orientalis) as a potential vector of honey
    bee’s pathogens and a threat for public health in North‐East Italy. Veterinary Medicine
    and Science, 10(1), e1310.

2023:

1. Ahmad, Z. (2023). Assessment of natural enemies of honeybee (Apis mellifera
   jemenitica) in the Asir region, Southwestern, Saudi Arabia. Journal of King Saud
   University-Science, 35(6), 102781.
2. Al-Baghdadi, S. A., Sadiq, F. H., & Augul, R. S. (2023, November). New Record with
   Revision of Nomiinae Bees (Hymenoptera: Halictidae) in Iraq. In IOP Conference
   Series: Earth and Environmental Science (Vol. 1259, No. 1, p. 012105). IOP
   Publishing.
3. Alizadeh, I., Madjdzadeh, S. M., Aghaei Afshar, A., Dehghan, H., Shirani-Bidabadi, L.,
   Gorouhi, M. A., … & Shah-Heydari, R. (2023). Cutaneous reaction due to oriental
   hornet (Vespa orientalis) sting in Kerman city: A case report. Journal of Jiroft
   University of Medical Sciences, 9(4), 1160-1164.
4. Aljassani, A. A., Al-Esawy, M. T., & Augul, R. S. (2023). The effect of some food
   sources and hive products on the oriental hornet Vespa orientalis Linnaeus 1771
   (Hymenoptera: Vespidae). Kufa Journal for Agricultural Science, 15(2).
5. ALTUN, A. A., YILDIRIM, E., GÜLDÜR, E., AYDOĞDU, M. H., KAPLAN, E.,
   ABRAK, Z. Y. M. D. S., … & ALTUN, Y. Z. Y. M. M. TARIMDA YENİ
   GELİŞMELER.
6. Augul, R. S., Al-Saffar, H. H., & Abed, I. J. (2023, July). Evaluation the Effect of some
   Plant Extracts in Controlling the Oriental Hornet vespa orientalis Linnaeus, 1771 Near
   the Apiaries. In IOP Conference Series: Earth and Environmental Science (Vol. 1213,
   No. 1, p. 012016). IOP Publishing.
7. Belluco, S., Bertola, M., Montarsi, F., Di Martino, G., Granato, A., Stella, R., … &
   Mutinelli, F. (2023). Insects and public health: an overview. Insects, 14(3), 240.
8. Belluco, S., Bertola, M., Montarsi, F., Di Martino, G., Granato, A., Stella, R., … &
   Mutinelli, F. (2023). Insects and Public Health: An Overview. Insects 2023, 14, 240.
9. Gkitsaki, I., Papachristoforou, A., Michailidou, S., Karamvalis, N., Iliadis, I., Graikini,
   D., … & Giaouris, E. (2023). The transmittable through stinging microbiota differs
   between honeybees and wasps: A potentially greater microbial risk of the wasp sting for
   humans. International Microbiology, 26(3), 663-674.
10. Hicks, B. The potential threat of invasive hornets to Newfoundland and Labrador.
11. Kakhramanov, B., Isamukhamedov, S., & Donaev, K. (2023). Effective methods of bee
    pest control. In E3S Web of Conferences (Vol. 381, p. 01012). EDP Sciences.
12. Maciá, A., Micieli, M. V., & Lucía, M. (2023). Artrópodos vulnerantes. Libros de
    Cátedra.
13. Otis, G. W., Taylor, B. A., & Mattila, H. R. (2023). Invasion potential of hornets
    (Hymenoptera: Vespidae: Vespa spp.). Frontiers in Insect Science, 3, 1145158.
14. Power, K., Martano, M., Matrone, A., Ragusa, E., Rizzo, R., & Maiolino, P. (2023).
    Detection of honey bee viruses in adults and larvae of Vespa orientalis. In CNIE 2023.
    XXVII Congresso Nazionale Italiano di Entomologia. Book of Abstracts (pp. 225-225).
    https://www. cnie2023palermo. com/wp-content/uploads/2023/09/LibroAbstract-
    ENG_CNIE2023-V3. pdf.
15. Power, K., Martano, M., Ragusa, E., Altamura, G., & Maiolino, P. (2023). Detection of
    honey bee viruses in larvae of Vespa orientalis. Frontiers in cellular and infection
    microbiology, 13, 1207319.
16. Rai, M. M., Rathod, M., Wazalwar, S., & Raina, S. K. (2023). Tropical Tasar Insect. In
    Commercial Insects (pp. 49-81). CRC Press.
17. Ruschioni, S., Lorenzini, M., & Fontana, P. (2023). Vespa orientalis (Hymenoptera;
    Vespidae), the first record in Marche region. NATURALISTA SICILIANO, 47(2), 361-
    367.
18. Sharif, M. Z., Di, N., & Yu, B. (2023). Honeybee (Apis spp.)(Hymenoptera: Apidae)
    colony monitoring using acoustic signals from the beehive: An assessment by global
    experts and our feedback. Agriculture, 13(4), 769.
19. Sharma, S., & Upadhyay, R. K. (2023). Effect of Purified Paper Wasp Ropalidia
    marginata Venom Toxin Enzyme Activity in Blood Serum, Liver, and Gastrocnemius
    Muscle of Albino Mice. Advances in Enzyme Research, 11(3), 113-145.
20. Sturm, G. J., Boni, E., Antolín‐Amérigo, D., Bilò, M. B., Breynaert, C., Fassio, F., …
    & Hemmer, W. (2023). Allergy to stings and bites from rare or locally important
    arthropods: Worldwide distribution, available diagnostics and treatment. Allergy, 78(8),
    2089-2108.
21. Willcox, B. K., Potts, S. G., Brown, M. J., Alix, A., Al Naggar, Y., Chauzat, M. P., … &
    Senapathi, D. (2023). Emerging threats and opportunities to managed bee species in
    European agricultural systems: a horizon scan. Scientific reports, 13(1), 18099.

2022:

1. Brunet, J. L., Girodet, B., & Pham-Thi, N. (2022). Le frelon oriental (Vespa orientalis)
   arrive en France. Revue Française d’Allergologie, 62(1), 91-92.
2. Brunet, J. L., Girodet, B., & Pham-Thi, N. (2022). Vespa orientalis comes to France.
3. Cilia, G., & Forzan, M. (2022). Insights into bee diseases and bee health. Frontiers in
   Cellular and Infection Microbiology, 12, 993440.
4. Farrugia, D., Martin-Hernandez, R., & Zammit Mangion, M. (2022). Beekeeping in
   Malta: A Review of Current Practices, Trends and Challenges. Bee World, 99(4), 131-
   138.
5. Feás, X., Vidal, C., & Remesar, S. (2022). What we know about sting-related deaths?
   Human fatalities caused by hornet, wasp and bee stings in Europe (1994–2016).
   Biology, 11(2), 282.
6. Feás, X., Vidal, C., & Remesar, S. (2022). What We Know about Sting-Related Deaths?
   Human Fatalities Caused by Hornet, Wasp and Bee Stings in Europe (1994–2016).
   Biology 2022, 11, 282.
7. Kumar, M., & Abrol, D. P. (2022). Impact of supplementary diets on resistance of Apis
   mellifera colonies to diseases and pests.
8. Magnier, B., & Zacharewicz, G. (2022). L’apiculture dirigée par les données et les
   modèles. The Conversation France.
9. Mahfouz, H., & Al-Fattah, A. (2022). Climatic changes expose honeybee colonies to
   eradication due to increasing ferocity of attacking predator, oriental hornet Vespa
   orientalis L, in North Sinai region. Menoufia Journal of Plant Protection, 7(3), 71-87.
10. Mavrofridis, G. (2022). A new approach to the study of ancient Greek beekeeping. Στο
    New Approaches to the Archaeology of Beekeeping, επιμ. D. Wallace-Hare, 1-18.
11. Nayak, P. (2022). Chapter-3 Enemies of Honey Bee and Their Management. Chief
    Editor Dr. RK Naresh, 36.
12. Paschapur, A. U., Subbanna, A. R., Parihar, M., Bhat, S., Mishra, K. K., & Kant, L.
    (2022). Hornet pests of honey bees in the Indian Himalayas and a low cost trapping
    device for their eco-friendly management. Emergent Life Sciences Research, 8, 183-
    194.
13. Power, K., Toscano, T., Altamura, G., Catalano, P., Martano, M., & Maiolino, P. (2022).
    VESPA ORIENTALIS: A POSSIBLE VECTOR FOR HONEYBEE PATHOGENS. In
    Proceedings of the First international meeting APIS SILVATICA The western honey bee
    in nature. Pantelleria May 16-20, 2022, in Naturalista sicil., S. IV, XLV (2), 2022.
14. Pradera, C., Mani, R. V., & Pujols, M. P. (2022). Primer registre de la vespa exòtica
    Vespa orientalis L.(Hymenoptera: Vespidae) a Catalunya. Butlletí de la Institució
    Catalana d’Història Natural, 117-119.
15. Rodríguez‐Vázquez, V., Armisén, M., Gómez‐Rial, J., Lamas‐Vázquez, B., & Vidal,
    C. (2022). Immunotherapy with Vespula venom for Vespa velutina nigrithorax
    anaphylaxis: Preliminary clinical and immunological results. Clinical & Experimental
    Allergy, 52(2).
16. ROLLIN, O. ces nouveaux frelons introduits en Europe.
17. Rosa, M. P. (2022). Ejemplar del avispón invasor Vespa orientalis Linnaeus, 1771
    (Hymenoptera: Vespidae: Vespinae) detectado en la ciudad de Madrid (centro de la
    península ibérica). Boletín de la Sociedad Entomológica Aragonesa (SEA), 70(30/06),
    385-387.
18. Ruiz-Leon, B., Serrano, P., Vidal, C., & Moreno-Aguilar, C. (2022). Management of
    double sensitization to vespids in Europe. Toxins, 14(2), 126.
19. Werenkraut, V., Arbetman, M. P., & Fergnani, P. N. (2022). The oriental hornet (Vespa
    orientalis L.): a threat to the Americas?. Neotropical Entomology, 51(2), 330-338.

2021:

1. Abdullah, Y. M., Mustafa, A. O., & Hamad, M. I. (2021). The Role of Color Traps and
   Attractive Baits in Reducing Damage of Red Wasp Vespa orientalis L. on Honeybee
   Colonies in Khabat/Erbil-Iraq. QALAAI ZANIST SCIENTIFIC JOURNAL, 6(1), 381-
   396.
2. Albanozzo, M. (2021). The status of Vespa Orientalis in Malta: a preliminary study
   (Master’s thesis, University of Malta).
3. Buteler, M., Yossen, M. B., Alma, A. M., & Lozada, M. (2021). Interaction between
   Vespula germanica and Apis mellifera in Patagonia Argentina apiaries. Apidologie,
   52(4), 848-859.
4. Cappa, F., Cini, A., Bortolotti, L., Poidatz, J., & Cervo, R. (2021). Hornets and honey
   bees: a coevolutionary arms race between ancient adaptations and new invasive threats.
   Insects, 12(11), 1037.
5. Castro, L., & del Pico, C. (2021). Sobre el problema de Vespa orientalis Linnaeus 1771
   (Hymenoptera: Vespidae) en el sur de España. Revista gaditana de Entomología, 12(1),
   183-206.
6. Ceccolini, F. (2021). More records of Vespa orientalis Linnaeus, 1771 in the south of
   the Iberian Peninsula (Hymenoptera: Vespidae: Vespinae). Arquivos Entomolóxicos,
   (24), 335-338.
7. Feás, X. (2021). Human fatalities caused by hornet, wasp and bee stings in Spain:
   epidemiology at state and sub-state level from 1999 to 2018. Biology, 10(2), 73.
8. Fouad, M. S., Darwish, M., & EL Roby, A. S. M. H. (2021). Behavioral study of the
   dangerous insect predator (Vespa orientalis) on the Honeybee Colonies in Minia
   Region, Egypt. Journal of Plant Protection and Pathology, 12(10), 713-715.
9. Gereys, B., Coache, A., & Filippi, G. (2021). Présence en France métropolitaine d’un
   frelon allochtone: Vespa orientalis Linnaeus, 1771 (Le frelon oriental)(Hymenoptera,
   Vespidae, Vespinae). Faunitaxys, 9(32), 1-5.
10. Gereys, B., Coache, A., & Filippi, G. (2021). Présence en France métropolitaine d’un
    frelon allochtone: Vespa orientalis (Le Frelon oriental)(Hymenoptera, Vespidae,
    Vespinae).
11. Graziani, F., & Cianferoni, F. (2021). The northernmost record of Vespa orientalis
    Linnaeus, 1771 (Hymenoptera: Vespidae) in peninsular Italy. Revista gaditana de
    Entomología, 12(1), 173-178.
12. Italia, I. LAVESPA ORIENTALIS, UN NUOVO PROBLEMA PER L’APICOLTURA
    IN SICILIA. ENTOMATA, 52.
13. Sihag, R. C. Research Article Phenology of Migration and Decline in Colony Numbers
    and Crop Hosts of Giant Honeybee (Apis dorsata F.) in Semiarid Environment of
    Northwest India.
14. Singh, A. K. (2021). Impact of artificial diets on resistance of Apis mellifera colonies to
    diseases and enemies during dearth periods. J Entomol Zool Stud, 9, 284.
15. Thippesha, D., & Pramodh, B. R. (2021). Deep Learning-Based Pest Surveillance
    System for Sericulture.
16. Valdoleiros, S. R., Gonçalves, I. C., Silva, C., Guerra, D., Silva, L. A., Martínez-Freiría,
    F., … & Xará, S. (2021). Animais venenosos em território português: abordagem clínica
    de picadas e mordeduras. Acta medica portuguesa, 34(11), 784-795.
17. Zachi, M., & Ruicănescu, A. (2021). Vespa orientalis, a new alien species in Romania.
    Travaux du Muséum National d’Histoire Naturelle “Grigore Antipa”, 64(1), 67-72.

2020:

1. Barrera, R. (2020). Primer reporte del género Vespa Linnaeus (Hymenoptera: Vespidae:
   Vespinae) en Chile. Revista Chilena de Entomología (2020) 46 (2): 239-244.
2. BAS, S. M. A., & KARSO, B. A. (2020). Evaluation of some baits and traps against
   oriental wasp Vespa orientalis L.(Hymenoptera: Vespidae). Journal of Duhok
   University, 23(2), 7-12.
3. Bista, S., Thapa, R. B., KC, G. B., Pradhan, S. B., Ghimire, Y. N., & Aryal, S. (2020).
   Incidence and predation rate of hornet (Vespa spp.) on European honeybee (Apis
   mellifera L.) apiary at mid-hill areas of Lalitpur district, Nepal. Journal of Agriculture
   and Natural Resources, 3(1), 117-132.
4. del Carmen Fajardo, M., & Sánchez, Í. (2020). Ciencia ciudadana, globalización y
   especies invasoras. El caso del avispón oriental, Vespa orientalis Linneus 1771 en
   Algeciras. Almoraima. Revista de Estudios Campogibraltareños, (52), 233-238.
5. Ghimire, Y. (2020). Assessment of hornet (Vespa spp.) predation on European honeybee
   (Apis mellifera L.) apiary at sub-tropical plain areas of Parasi district, Nepal. Journal
   of entomology and zoology studies.
6. Herrera, C., Leza, M., & Martínez-López, E. (2020). Diversity of compounds in Vespa
   spp. venom and the epidemiology of its sting: A global appraisal. Archives of
   Toxicology, 94(11), 3609-3627.
7. Masciocchi, M., Arbetman, M. P., Buteler, M., Morales, C. L., & Werenkraut, V. (2020).
   Nueva avispa invasora en Chile: El Avispón Oriental, Vespa orientalis¿ Llegará a la
   Argentina?¡ Estaremos atentos!.
8. Ríos, M., Barrera-Medina, R., & Contreras, J. M. (2020). Primer reporte del género
   Vespa Linnaeus (Hymenoptera: Vespidae: Vespinae) en Chile. Revista chilena de
   entomología, 46(2), 237-242.

2019:

1. Abou-Shaara, H. F., & Staron, M. (2019). Present and future perspectives of using
   biological control agents against pests of honey bees. Egyptian Journal of Biological
   Pest Control, 29(1), 24.
2. Ahmad, M., Khan, A. A., & Dar, N. (2019). Status of traditional beekeeping and
   various threats to bees in climate changing scenario in district Ganderbal of Kashmir.
   International Journal of Current Microbiology and Applied Sciences, 8(5), 372-376.
3. Bressi, N. I. C. O. L. A., Colla, A. N. D. R. E. A., & Tomasin, G. I. A. N. F. R. A. N. C.
   O. (2019). Orientali verso nord: insediamento di una popolazione urbana di Calabrone
   Orientale (Vespa orientalis Linnaeus, 1771) a Trieste, NE Italy (Hymenoptera,
   Vespidae). Atti del museo civico di storia naturale di Trieste, 60(11), 273-275.
4. Dehghani, R., Kassiri, H., Mazaheri-Tehrani, A., Hesam, M., Valazadi, N., &
   Mohammadzadeh, M. (2019). A study on habitats and behavioral characteristics of
   hornet wasp (Hymenoptera: Vespidae: Vespa orientalis), an important medical-health
   pest. Biomedical Research (0970-938X), 30(1).
5. El-boulok, D. S. (2019). POPULATION DYNAMICS OF ORIENTAL HORNET
   (Vespa orientalis L.) DURING ITS ACTIVITYSEASON IN THE APIARY
   THROUGHOUT THE DAY PERIODS. Arab Universities Journal of Agricultural
   Sciences, 27(2), 1605-1609.
6. Mazeed, A. R. A. (2019). Toxicity of some insecticides against the oriental hornet
   Vespa orientalis (Hymenoptera: Vespidae).
7. Mazeed, A. R. A., & Abd-Al-Fattah, Y. A. (2019). Effectiveness of baited traps for
   controlling oriental hornet Vespa orientalis (Hymenoptera: Vespidae) in Sohag
   Governorate apiaries.
8. Neha, R. S., Manya, S. H. A. R. A. T. H., Baliga, K. I. R. A. N., & Kamalakshi, G. B.
   (2019). Acute liver injury, rhabdomyolysis and acute renal failure in a toddler due to
   multiple stings by Vespa affinis. J Clin of Diagn Res, 13, 01-03.
9. Nowroozzadeh, M. H., Hamid, A., Bolkheir, A., Shirvani, M., & Maalhagh, M. (2019).
   Corneal wasp sting: a case report and review of literature. Journal of current
   ophthalmology, 31(1), 95-97.
10. Sánchez, I., Fajardo, M. D. C., & Castro, M. (2019). Primeras citas del avispón oriental
    vespa orientalis Linnaeus 1771 (Hymenoptera: vespidae) para andalucía (España).
    Revista de la Sociedad Gaditana de Historia Natural, 13, 11-14.
11. Sweelam, M. E., Abdelaal, A. A. A., & Khataby, A. M. (2019). Integrated management
    of pests and diseases attacking honey bee colonies. Menoufia Journal of Plant
    Protection, 4(5), 223-224.
12. Sweelam, M. E., Abdelaal, A. A., Khattaby, A. M., & Mettwaly, Y. A. (2019).
    Integrated management of Vespa orientalis in honeybee colonies at Elsharkia
    governorate. Menoufia Journal of Plant Protection, 4(4), 163-172.

2018:

1. Temreshev, I. I. (2018). On the expansion of the areas of Vespa orientalis and Polistes
   wattii (Hymenoptera: Vespidae) on the territory of the Republic of Kazakhstan. Acta
   Biologica Sibirica, 4(1), 38-45.
2. Vaziritabar, S., & Esmaeilzade, S. M. (2018). Identification of differential defense
   reaction and tactic of Iranian honeybee Apis mellifera meda colonies under attack
   hornets Vespa orientalis and Vespa crabro in Iran. J. Entomol. Zool. Stud, 6, 102-111.

2017:

1. Abou-Shaara, H. (2017). Morphological characterization and wing description of Vespa
   orientalis orientalis queens. Biotechnology in Animal Husbandry, 33(2), 251-259.

2016:

1. Al Antary, T. M., Al-Heyari, B. N., & Nazer, I. K. (2016). Acceptance of the oriental
   wasp Vespa orientalis L.(Hymenoptera: Vespidae) to different baits. Advances in
   Environmental Biology, 10(12), 9-17.
2. Al Heyari, B. N., Al Antary, T. M., & Nazer, I. K. (2016). Evaluation of the
   attractiveness of the oriental wasp Vespa orientalis L.(Hymenoptera: Vespidae) to
   different bait traps. Advances in Environmental Biology, 10(12), 1-8.
3. Al-Heyari, B. N., Al Antary, T. M., & Nazer, I. K. (2016). Effectiveness of some
   insecticide mixed with a bait, and Heptyl Butrate on the oriental wasp Vespa orientalis
   L.(Hymenoptera: Vespidae). Advances in Environmental Biology, 10(12), 17-26.
4. Elhoseny, E. N. (2016). Oriental hornet (Vespa orientalis) as AFB disease vector to
   honeybee (Apis mellifera L.) colonies. Sciences, 6(04), 934-940.
5. Younis, M. S. (2016). New technique for protecting honey bee colonies from oriental
   wasp (Vespa orientalisL.) attacks at Dokki region, Giza, Egypt. Annals of Agricultural
   Science, Moshtohor, 54(2), 381-386.

2015:

1. Ghania, A. M. M., & Abd El-Aziem, M. A. I. (2015). New method for controlling the
   oriental hornet Vespa orientalisL. by toxic dusting trapped wasps and return releasing
   them. Minufiya J. Agric. Res, 40(6), 1587-1594.
2. Shaaban, Y., El-Ashkar, A., El-Ghobashy, H., & Ghania, A. (2015). A new trap for
   controlling the oriental hornet (Vespa orientalis L.) under Egyptian apiaries conditions.
   Journal of Soil Sciences and Agricultural Engineering, 6(12), 1515-1526.

2014:

1. Abdelaal, A. A. A., & El-Defrawy, B. M. (2014). Efficacy of new designed traps for
   controlling the oriental hornet (Vespa orientalis) in Egyptian apiaries and its
   measurements. International Journal of Advanced Research, 2(10), 1-8.
2. Al-Fattah, A., Abd Al-Wahab, M., Nour, M. E., Aziz, D. A., & Marzouk, W. M. (2014).
   New applications for protecting honeybee, Apis mellifera L., colonies from attacking
   the oriental hornet (Vespa orientalis Fab.). Egyptian Academic Journal of Biological
   Sciences. A, Entomology, 7(1), 39-48.
3. Golden, D. B. (2014). Vespid Allergy: Yellow Jackets, Hornets and Wasps. In
   Encyclopedia of Medical Immunology (pp. 672-676). Springer, New York, NY.
4. TAHA, A. A. (2014). FEEECT OF SOME CLIMATIC FACTORS ON THE
   SEASONAL ACTIVITY OF ORIENTAL WASP, VESPA ORIENTALIS L.
   ATTACKTING HONEYBEE COLONIES IN DAKAHLIA GOVERNORATE,
   EGYPT. Egyptian Journal of Agricultural Research, 92(1), 43-51.

2013:

1. AbdAl-Fattah, M. A., Abdel-Rahman, M. F., & WM, M. (2013). The effect of honeybee
   colony strength against the oriental hornet (Vespa orientalis Fab.). Bull. Ent. Soc.
   Egypt,(unpublished).
2. Dawara, M., & Hatoom, A. (2013). Efficacy of some traps and baits in reducing the red
   wasp (Vespa orientalis L.) damage against honeybees in Asswaida, South Syria.
3. Goldberg, A., Shefler, I., Panasoff, J., Paitan, Y., & Confino-Cohen, R. (2013).
   Immunotherapy with commercial venoms is efficacious for anaphylactic reactions to
   Vespa orientalis stings. International Archives of Allergy and Immunology, 161(2), 174-
   180.
4. Hernández, R., García-Gans, F. J., Selfa, J., & Rueda, J. (2013). Primera cita de la
   avispa oriental invasora Vespa orientalis Linnaeus 1771 (Hymenoptera: Vespidae) en la
   Península Ibérica. Bol. SEA, 52, 299-300.
5. Munawar, M. S., & Camphor, E. S. W. Studies on population trends of Vespa spp.
   predacious on Honeybee colonies in Pakistan.

2012:

1. EI-Sherif, M. E. Seasonal flactuation of oriental hornet, Vespa orientalis Fab., its
   trapping efficiency and honey bee activities. Mansoura University Journal of
   Agricultural Sciences (Egypt), 28(4).
2. Vishwakarma, R., Singh, R. P., & Ghatak, S. S. (2012). Bioefficacy of phytochemicals
   against Vespa orientalis L. and Oecophylla smaragdina F. infesting Apis mellifera L.
   colony. Indian Journal of Entomology, 74(1), 82-84.
3. Vishwakarma, R., Singh, R. P., & Ghatak, S. S. (2012). Incidence of insect enemies on
   honey bee, Apis mellifera L. during floral dearth period. Indian Journal of Entomology,
   74(1), 78-81.