Your search keyword '"Poultry red mite"' showing total 361 results

1. Monitoring night-time activity and perch occupation of laying hens using night-vision cameras for the early detection of poultry red mite: A proof of concept

Author

Willems, Sam, Mounir, Mina, Van Hertem, Tom, Nijs, Hanne, Sleeckx, Nathalie, and Norton, Tomas

Published

2025

2. Safety study of fluralaner solution on poultry red mite: A clinical study screening of the optimal dose and focusing on hepatic and renal parameters

Author

Sun, Tingting, Wu, Hao, Liu, Jing, Jiang, Lin, Wang, Xinyu, Xu, Fei, and Li, Xiubo

Published

2025

3. Ecological response of Stratiolaelaps scimitus (Laelapidae) to Dermanyssus gallinae (Dermanyssidae).

Author

Granich, Juliana, Rodighero, Luana Fabrina, Schlemer, Sabrina Marion, and Ferla, Noeli Juarez

Subjects

*LIFE cycles (Biology), *PREDATORY mite, *GALLIFORMES, *LIFE tables, *OVIPARITY

Abstract

This study aimed to evaluate the predation potential of Stratiolaelaps scimitus feeding on different stages of Dermanyssus gallinae (egg, immature and adult), under laboratory conditions. Stratiolaelaps scimitus showed a high survival rate, demonstrting that D. gallinae serves as adequate food for its development. It was observed that S. scimitus presented a fecundity rate of 11.70±1.20 eggs/female in an average period of 31.2±3.90 days, with the offspring demonstrating egg viability of 97.37%. Prepre-oviposition was 8.59±0.61 days, oviposition 31.17±3.86 days and post-oviposition 8.59±0.61 days. In this study, S. scimitus increased the net reproduction rate (Ro) about 8.53 times every 37.27 days (T=37.27.), corresponding to a daily population growth of 1.04 (λ = 01.04), and a production of 58 females/female/day (rm=58). The population doubling time (DT) was 11.89 days. Stratiolaelaps scimitus in this study developed and reproduced by feeding exclusively on D. gallinae. This predator is more efficient or prefers the immature phase of D. gallinae, followed by the adult and, to a lesser extent, the egg. Eggs may not provide the necessary nutrition for the predator, and adults, being nearly twice the size of the predator, may not be as easy to capture. Stratiolaelaps scimitus demonstrated to be able to control D. gallinae. [ABSTRACT FROM AUTHOR]

Published

2024

4. Point mutations in the voltage‐gated sodium channel gene conferring pyrethroid resistance in China populations of the Dermanyssus gallinae.

Author

Wang, Penglong, Liu, Qi, Wang, Xu, Sun, Tiancong, Liu, Boxing, Wang, Bohan, Li, Huan, Wang, Chuanwen, Sun, Weiwei, and Pan, Baoliang

Subjects

SODIUM channels, POPULATION of China, POULTRY farming, GENETIC mutation, GALLIFORMES, PYRETHROIDS

Abstract

BACKGROUND: Dermanyssus gallinae, the poultry red mite (PRM), is a worldwide ectoparasite posing significant economic challenges in poultry farming. The extensive use of pyrethroids for PRM control has led to the emergence of pyrethroid resistance. The objective of this study is to detect the pyrethroid resistance and explore its associated point mutations in the voltage‐gated sodium channel (VGSC) gene among PRM populations in China. RESULTS: Several populations of D. gallinae, namely CJF‐1, CJP‐2, CJP‐3, CSD‐4 and CLD‐5, displayed varying degrees of resistance to beta‐cypermethrin compared to a susceptible field population (CBP‐5). Mutations of VGSC gene in populations of PRMs associated with pyrethroid resistance were identified through sequencing its fragments IIS4–IIS5 and IIIS6. The mutations I917V, M918T/L, A924G and L925V were present in multiple populations, while no mutations were found at positions T929, I936, F1534 and F1538. CONCLUSION: The present study confirmed the presence of extremely high levels of pyrethroid resistance in PRM populations in China, and for the first time detected four pyrethroid resistance mutations in the VGSC gene. Identifying pyrethroid resistance in the field population of PRM in China can be achieved through screening for VGSC gene mutations as an early detection method. Our findings underscore the importance of implementing chemical PRM control strategies based on resistance evidence, while also considering the management of acaricide resistance in the control of PRMs. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

5. ASSESSMENT OF HOUSE DUST MITES PREVALENCE IN THE COLLEGE CLASSROOMS OF DHANBAD, INDIA.

Author

Saw, Manju Kumari, Bharati, Sudhir Krishna, and Sinha, Shailendra Kumar

Subjects

HOUSE dust mites, DERMATOPHAGOIDES pteronyssinus, ALLERGIES, CLASSROOMS, MITES

Abstract

House dust mites are ubiquitous and are one of the major sources of indoor allergens for humans. The cases of allergic diseases associated with house dust mite allergens are on increasing trends. House dust mite inhabits human dwellings and has been reported to be present in closed rooms and houses frequently visited or used by humans. However, information on the abundance of house dust mite species is scarce and limited to the classrooms of schools and colleges where students spend ample time a day. Therefore, the present study was carried out to examine the diversity and abundance of house dust mites in the classrooms of colleges of Dhanbad, Jharkhand. The result found the presence of 7 species of domestic mites in the dust samples of classrooms. The identified species belonged to 3 orders and 6 families. Out of the 7 isolated mite species, the Dermatophagoides pteronyssinus of the family Pyroglyphidae was the most abundant species in the dust samples of classrooms with a relative abundance of 46-47%. [ABSTRACT FROM AUTHOR]

Published

2024

6. Spatial Distribution of Dermanyssus gallinae Infestations in Greece and Their Association with Ambient Temperature, Humidity, and Altitude.

Author

Sioutas, Georgios, Gelasakis, Athanasios I., and Papadopoulos, Elias

Subjects

POULTRY farms, GALLIFORMES, ALTITUDES, HUMIDITY, HENS, GLOBAL warming

Abstract

Dermanyssus gallinae, the poultry red mite (PRM), is the most prevalent and harmful ectoparasite of laying hens globally. Although prevalence and risk factor studies can help veterinarians make decisions regarding farm treatments, relevant data are scarce. The present study investigated the prevalence and infestation severity of PRM in poultry farms across Greece and examined potential risk factors. AviVet traps were used to sample 84 farms (51 backyard, 33 industrial) over three years. Farm altitude, temperature, humidity, region, and production systems were assessed as potential risk factors with chi-square tests, initially for all the studied farms and then exclusively for backyard farms. The overall prevalence was 75.0% and was higher in backyard farms (80.4%) compared with industrial ones (66.7%), varying regionally from 66.7 to 90.9%. Altitude and temperature were not significant risk factors, but farms with humidity <60% had a lower infestation risk. Infestation severity did not significantly differ by risk factors. The poultry red mite is highly prevalent across Greek poultry production systems and regions. In the future, global warming, reduced acaricide options, and a ban on cage systems will all threaten a wider spatio-temporal distribution of the PRM, justifying the urgent need for effective monitoring and control methods to protect hen production and welfare and workers' health. [ABSTRACT FROM AUTHOR]

Published

2024

7. In Vivo Characterization of the Anti-Glutathione S-Transferase Antibody Using an In Vitro Mite Feeding Model.

Author

Win, Shwe Yee, Seo, Hikari, Horio, Fumiya, Fujisawa, Sotaro, Sato, Jumpei, Motai, Yoshinosuke, Sato, Takumi, Oishi, Eiji, Taneno, Akira, Htun, Lat Lat, Bawm, Saw, Okagawa, Tomohiro, Maekawa, Naoya, Konnai, Satoru, Ohashi, Kazuhiko, and Murata, Shiro

Subjects

MITES, AMINO acid sequence, DRUG metabolism, VACCINE development, PLASMA confinement

Abstract

Poultry red mites (Dermanyssus gallinae, PRMs), tropical fowl mites (Ornithonyssus bursa, TFMs), and northern fowl mites (O. sylviarum, NFMs) are blood-feeding pests that debilitate poultry worldwide. Glutathione S-transferase (GST) plays an important role in the detoxification and drug metabolism of mites. However, research on avian mite GSTs as vaccine antigens is still lacking. Therefore, we aimed to evaluate the potential of avian mite GSTs for vaccine development. We identified GST genes from TFMs and NFMs. We prepared recombinant GST (rGST) from TFMs, NFMs, and PRMs, and assessed their protein functions. Moreover, we evaluated the cross-reactivity and acaricidal effect of immune plasma against each rGST on TFMs, NFMs, and PRMs. The deduced amino acid sequences of GSTs from TFMs and NFMs were 80% similar to those of the PRMs. The rGSTs exhibited catalytic activity in conjugating glutathione to the 1-chloro-2,4-dinitrobenzene substrate. Immune plasma against each rGST showed cross-reactivity with rGST from different mite species. Moreover, the survival rate of PRMs fed with immune plasma against the rGST of TFMs and NFMs was significantly lower than that of the control plasma. These results demonstrate the potential application of GST as an antigen for the development of a broad-spectrum vaccine against avian mites. [ABSTRACT FROM AUTHOR]

Published

2024

8. Molecular Characterization of Dermanyssus gallinae in Türkiye Based on 16S and 18S rDNA

Author

Nafiye Koç İnak

Subjects

poultry red mite, genetic distance, nuclear gene, mitochondrial gene, Agriculture, Agriculture (General), S1-972

Abstract

The poultry red mite, Dermanyssus gallinae (De Geer, 1778), is widely regarded as the significant ectoparasite of egg-laying hens worldwide. Since many molecular studies on poultry red mites have focused on analyzing COI and ITS1-2 genes, the present study aimed to identify 16S rDNA and the relatively understudied nuclear 18S rDNA genes of Turkish D. gallinae populations. Twenty-eight different D. gallinae populations were collected from henhouses throughout Türkiye, and the target genes were amplified using conventional PCR after morphological analysis. Haplotype analyses of the 16S rDNA sequences revealed 14 different haplotypes, with Turkish D. gallinae grouped into two of these haplotypes. The intra-species genetic variation of the 18S rDNA and 16S rDNA sequences examined in the present study and the available sequences in public GeneBank were determined as 0.17% and 0.53%, respectively. The obtained sequences belonging to D. gallinae from Türkiye were submitted to GenBank for the first time. Given the importance of identifying genetic diversity within and between species across different geographical regions, the obtained data may contribute substantially to the genetic knowledge of the PRMs.

Published

2023

9. Screening of avian pathogens and genetic analysis of several mitochondrial genes in Dermanyssus gallinae populations in Türkiye.

Author

Koç-İnak, Nafıye, Demırcı, B., Özbakiş-Becerıklısoy, G, Kandemır, B., Nalbantoğlu, S., and Akan, M.

Subjects

*GALLIFORMES, *MITOCHONDRIA, *TURKS, *GENETIC distance, *GENETIC variation, *SALMONELLA enterica, *TAPEWORMS

Abstract

The poultry red mite, PRM, Dermanyssus gallinae (De Geer, 1778), is widely regarded as the primary ectoparasite affecting egg-laying hens around the world. Besides direct feeding damage, the transmission of avian pathogens by PRMs is also a significant concern. Therefore, we aimed to screen the presence of 14 common avian pathogens in 32 PRM populations from egg-laying hens in Türkiye. As a result, Salmonella enterica (n=3), Tsukamurella paurometabola (n=18), and Avian fowlpox virus (n=4) (3 of which were wild-type APV) were detected in tested PRM populations. The results showed that the prevalence of avian pathogens in Turkish PRM populations was low. Nevertheless, these findings suggested that PRM can harbor disease-causing agents and may act as a vector in the spread of these pathogens in farms. In addition, four mitochondrial genes (mtDNAs) of D. gallinae, namely ND4, ND5, cytb, and atp6, were amplified, and obtained sequences were submitted to the GenBank database for the first time, which will allow further analyses. The genetic variation within cytb sequences of Turkish PRMs was the highest (1.01%), whereas intra-specific genetic distance was 1.7% when compared to a Chinese population (only available cytb sequence in the GenBank), indicating increasing genetic differentiation by distance. Last, more sequences belonging to mitochondrial genes are required to reveal their potential as molecular markers. [ABSTRACT FROM AUTHOR]

Published

2024

10. Collecting and Monitoring for Northern Fowl Mite (Acari: Macronyssidae) and Poultry Red Mite (Acari: Dermanyssidae) in Poultry Systems.

Author

Murillo, Amy and Mullens, Bradley

Subjects

integrated pest management, laying hen, monitoring, northern fowl mite, poultry red mite, Animal Husbandry, Animals, Chickens, Entomology, Mite Infestations, Mites, Pest Control, Poultry Diseases, Specimen Handling

Abstract

The two most economically important poultry ectoparasites are the northern fowl mite, Ornithonyssus sylviarum (Canestrini and Fanzago), and the poultry red mite, Dermanyssus gallinae (De Geer). Both mites are obligate blood feeders but differ in where they reside. Sampling methods thus focus on-host, especially the vent feathers, for northern fowl mite and off-host, especially cracks and crevices near the nighttime roosting areas, for poultry red mite. Much remains unknown, however, about the basic biology and ecology of both mites. Here we discuss mite detection, quantification, and decision making and provide thoughts on future directions for research.

Published

2020

11. Studies on the Control of Dermanyssus gallinae via High-Voltage Impulse.

Author

Ueno, Takahisa, Mizobe, Yuma, Ninomiya, Junko, Inoue, Takahiro, Furukawa, Takashi, and Hatta, Takeshi

Subjects

GALLIFORMES, MITE control, BODY composition, POULTRY industry, CHEMICAL resistance, EGGS

Abstract

Dermanyssus gallinae, a parasitic mite that subsists on the avian blood of chickens, poses a considerable threat to the poultry industry. D. gallinae infestation can result in a plethora of detrimental effects for the host birds, including decreased egg production and anemia. Pyrethroid pesticides have been the primary means of combating this issue and have demonstrated high levels of efficacy. However, in recent years, D. gallinae has exhibited resistance to these chemicals, resulting in a marked decrease in their mortality; thus, an integrated control strategy in addition to the chemical use should be required for the sustainable control of this mite. This study confirms that D. gallinae can be effectively controlled through the utilization of high-voltage impulse discharges and that various electrical parameters possess optimal values that are required for mite control. The alterations in the body surface of the mite caused by high-voltage impulses were akin to those caused by heat, but no alteration in the elemental composition of the body surface was observed, suggesting a change in organization caused by currents flowing inside the exoskeleton. Comparatively, the mite control efficacy of high-voltage impulse was found to be substantially superior to that of ultraviolet light or ozone, with up to 95% more mites being killed in as little as 30 seconds. [ABSTRACT FROM AUTHOR]

Published

2023

12. In Vitro Acaricidal Activity of Silver Nanoparticles (AgNPs) against the Poultry Red Mite (Dermanyssus gallinae).

Author

Sioutas, Georgios, Tsouknidas, Alexandros, Gelasakis, Athanasios I., Vlachou, Afrodite, Kaldeli, Alexandra K., Kouki, Maria, Symeonidou, Isaia, and Papadopoulos, Elias

Subjects

*GALLIFORMES, *MITES, *PROBIT analysis, *POULTRY, *SCANNING electron microscopy, *SILVER nanoparticles, *NANOPARTICLES analysis

Abstract

Dermanyssus gallinae (PRM) is the most common blood-sucking ectoparasite in laying hens and is resistant against numerous acaricides. Silver nanoparticles (AgNPs) represent an innovative solution against PRM. The current study aimed to assess the in vitro acaricidal activity of AgNPs against PRM and describe their potential mechanism of action. Nanoparticles were produced using a wet chemistry approach. Mites were collected using AviVet traps from 18 poultry farms in Greece. Contact toxicity bioassays were carried out for 24 h with negative controls, 20, 40, 60, or 80 ppm AgNPs. Analysis of variance was used to compare the mortality rates of PRM between the control and treatment groups, while LC50, LC90, and LC99 values were estimated using probit regression analysis for the total farms jointly and separately. Nanoparticles displayed strong acaricidal activity, and mortality rates were significantly different between groups and increased by AgNPs concentration. Overall mean LC50, LC90, and LC99 values were 26.5, 58.8, and 112.3 ppm, respectively. Scanning electron microscopy on mites treated with 80 ppm AgNPs revealed cracks in their exoskeleton and limb detachments, presumably resulting from the interaction between AgNPs and the mites' chitin. Future studies should focus on assessing AgNPs residues in chicken tissues before moving into field trials. [ABSTRACT FROM AUTHOR]

Published

2023

13. In Vivo Characterization of the Anti-Glutathione S-Transferase Antibody Using an In Vitro Mite Feeding Model

Author

Shwe Yee Win, Hikari Seo, Fumiya Horio, Sotaro Fujisawa, Jumpei Sato, Yoshinosuke Motai, Takumi Sato, Eiji Oishi, Akira Taneno, Lat Lat Htun, Saw Bawm, Tomohiro Okagawa, Naoya Maekawa, Satoru Konnai, Kazuhiko Ohashi, and Shiro Murata

Subjects

poultry red mite, tropical fowl mite, northern fowl mite, glutathione S-transferase, vaccine, Medicine

Abstract

Poultry red mites (Dermanyssus gallinae, PRMs), tropical fowl mites (Ornithonyssus bursa, TFMs), and northern fowl mites (O. sylviarum, NFMs) are blood-feeding pests that debilitate poultry worldwide. Glutathione S-transferase (GST) plays an important role in the detoxification and drug metabolism of mites. However, research on avian mite GSTs as vaccine antigens is still lacking. Therefore, we aimed to evaluate the potential of avian mite GSTs for vaccine development. We identified GST genes from TFMs and NFMs. We prepared recombinant GST (rGST) from TFMs, NFMs, and PRMs, and assessed their protein functions. Moreover, we evaluated the cross-reactivity and acaricidal effect of immune plasma against each rGST on TFMs, NFMs, and PRMs. The deduced amino acid sequences of GSTs from TFMs and NFMs were 80% similar to those of the PRMs. The rGSTs exhibited catalytic activity in conjugating glutathione to the 1-chloro-2,4-dinitrobenzene substrate. Immune plasma against each rGST showed cross-reactivity with rGST from different mite species. Moreover, the survival rate of PRMs fed with immune plasma against the rGST of TFMs and NFMs was significantly lower than that of the control plasma. These results demonstrate the potential application of GST as an antigen for the development of a broad-spectrum vaccine against avian mites.

Published

2024

14. Suppressive modulation of host immune responses by Dermanyssus gallinae infestation

Author

Sotaro Fujisawa, Shiro Murata, Masayoshi Isezaki, Shwe Yee Win, Takumi Sato, Eiji Oishi, Akira Taneno, Naoya Maekawa, Tomohiro Okagawa, Satoru Konnai, and Kazuhiko Ohashi

Subjects

Dermanyssus gallinae, poultry red mite, chicken, immunity, immunosuppression, Animal culture, SF1-1100

Abstract

ABSTRACT: The poultry red mite (Dermanyssus gallinae, PRM) is a blood-sucking ectoparasite in chickens and is one of the most serious threats to poultry farms. Mass infestation with PRMs causes various health problems in chickens, resulting in significant productivity reduction in the poultry industry. Infestation with hematophagous ectoparasites, such as ticks, induces host inflammatory and hemostatic reactions. On the other hand, several studies have reported that hematophagous ectoparasites secrete various immunosuppressants from their saliva to suppress host immune responses to maintain blood sucking. Here, we examined the expression of cytokines in peripheral blood cells to investigate whether PRM infestation affects immunological states in chickens. In PRM-infested chickens, anti-inflammatory cytokines, IL-10 and TGF-β1, and immune checkpoint molecules, CTLA-4 and PD-1, were highly expressed compared to noninfested chickens. PRM-derived soluble mite extracts (SME) upregulated the gene expression of IL-10 in peripheral blood cells and HD-11 chicken macrophages. In addition, SME suppressed the expression of interferons and inflammatory cytokines in HD-11 chicken macrophages. Moreover, SME induces the polarization of macrophages into anti-inflammatory phenotypes. Collectively, PRM infestation could affect host immune responses, especially suppress the inflammatory responses. Further studies are warranted to fully understand the influence of PRM infestation on host immunity.

Published

2023

15. Potential of ferritin 2 as an antigen for the development of a universal vaccine for avian mites, poultry red mites, tropical fowl mites, and northern fowl mites

Author

Shwe Yee Win, Shiro Murata, Sotaro Fujisawa, Hikari Seo, Jumpei Sato, Yoshinosuke Motai, Takumi Sato, Eiji Oishi, Akira Taneno, Lat Lat Htun, Saw Bawm, Tomohiro Okagawa, Naoya Maekawa, Satoru Konnai, and Kazuhiko Ohashi

Subjects

poultry red mite, tropical fowl mite, northern fowl mite, ferritin 2, vaccine, Veterinary medicine, SF600-1100

Abstract

IntroductionPoultry red mites (PRMs, Dermanyssus gallinae), blood-sucking ectoparasites, are a threat to the poultry industry because of reduced production caused by infestation. In addition, tropical fowl mites (TFMs, Ornithonyssus bursa) and northern fowl mites (NFMs, Ornithonyssus sylviarum) are hematophagous, distributed in various regions, genetically and morphologically close to PRMs, and cause similar problems to the poultry industry. Vaccine approaches have been studied for PRM control, and several molecules have been identified in PRMs as candidates for effective vaccine antigens. The development of an anti-PRM vaccine as a universal vaccine with broad efficacy against avian mites could improve the productivity of poultry farms worldwide. Molecules that are highly conserved among avian mites and have critical functions in the physiology and growth of mites could be ideal antigen candidates for the development of universal vaccines. Ferritin 2 (FER2), an iron-binding protein, is critical for the reproduction and survival of PRMs and has been reported as a useful vaccine antigen for the control of PRMs and a candidate for the universal vaccine antigen in some tick species.Method and resultsHerein, we identified and characterized FER2 in TFMs and NFM. Compared with the sequence of PRM, the ferroxidase centers of the heavy chain subunits were conserved in FER2 of TFMs and NFMs. Phylogenetic analysis revealed that FER2 belongs to clusters of secretory ferritins of mites and other arthropods. Recombinant FER2 (rFER2) proteins from PRMs, TFMs, and NFMs exhibited iron-binding abilities. Immunization with each rFER2 induced strong antibody responses in chickens, and each immune plasma cross-reacted with rFER2 from different mites. Moreover, mortality rates of PRMs fed with immune plasma against rFER2 from TFMs or NFMs, in addition to PRMs, were higher than those of control plasma.DiscussionrFER2 from each avian mite exhibited anti-PRM effects. This data suggests that it has the potential to be used as an antigen candidate for a universal vaccine against avian mites. Further studies are needed to access the usefulness of FER2 as a universal vaccine for the control of avian mites.

Published

2023

16. Microbiome comparison of Dermanyssus gallinae populations from different farm rearing systems and the presence of common endosymbiotic bacteria at developmental stages.

Author

Koç, Nafiye and Nalbantoğlu, Serpil

Subjects

*GALLIFORMES, *BACTERIAL communities, *BACTERIAL population, *HYPERVARIABLE regions, *BACTERIA, *POULTRY industry, *WOLBACHIA

Abstract

The hematophagous arthropod, Dermanyssus gallinae (Poultry red mite, PRM) can cause remarkable economic losses in the poultry industry across the globe. Although overall composition of endosymbiotic bacteria has been shown in previous studies, how farm habitats influence the microbiome remains unclear. In the present study, we compared the bacterial communities of D. gallinae populations collected from the cage and free-range farms using next-generation sequences targeting the V3-V4 hypervariable region of the 16S rRNA gene. The QIIME2 pipeline was followed in bioinformatic analyses. Proteobacteria represented a great majority of the total bacterial community of D. gallinae from both farming systems. More specifically, Bartonella-like bacteria (40.8%) and Candidatus Cardinium (21.5%) were found to be predominant genera in free-range and cage rearing systems, respectively. However, the microbiome variation based on farming systems was not statistically significant. In addition, the presence of the five common endosymbiotic bacteria (Wolbachia, Cardinium, Rickettsiella, Spiroplasma, and Schineria) was screened in different developmental stages of D. gallinae. Cardinium was detected in all developmental stages of D. gallinae. On the other hand, Wolbachia and Rickettsiella were only found in adults/nymphs, but neither in the eggs nor larvae. To our knowledge, this study provides the first microbiome comparison at genus-level in D. gallinae populations collected from different farm habitats and will contribute to the knowledge of the biology of D. gallinae. [ABSTRACT FROM AUTHOR]

Published

2023

17. Dermanyssosis in the Urban Context: When the One Health Paradigm Is Put into Practice.

Author

Barlaam, Alessandra, Puccini, Antonella, Caiaffa, Maria Filomena, Di Bona, Danilo, Macchia, Luigi, and Giangaspero, Annunziata

Subjects

GENERAL practitioners, PIGEONS, GALLIFORMES, AIR conditioning, URBAN health, URBAN life, MITES, HENS

Abstract

Poultry red mites (Dermanyssus gallinae) are primarily ectoparasites of laying hens but also parasitize synanthropic birds in urban contexts. This mite can occasionally attack mammals, including humans, and cause mild to severe dermatitis. Attacks by zoonotic Mesostigmata mites are currently an increasing but still neglected problem of urban life. The authors present two cases of dermanyssosis involving two health workers at a hospital, linked to air conditioning outdoor units colonized by pigeons. Videos that describe the environmental contamination by D. gallinae and show where the infestation originated are presented. In addition, the authors update the literature of all urban cases, which, to date, reports over 240 clinical cases, mostly in private homes but also in public buildings. Dermatitis due to these mites is often unrecognized and, therefore, misdiagnosed. This report describes how the two cases herein reported were rapidly resolved thanks to the close cooperation between veterinary parasitologists and allergologists. It is crucial to raise awareness of the problem among general practitioners and specialists. In addition, the authors suggest a reconsideration of urban architectural choices that increase the public health risk posed by dermanyssosis and other diseases related to synanthropic birds. [ABSTRACT FROM AUTHOR]

Published

2022

18. Lithium Chloride Shows Effectiveness against the Poultry Red Mite (Dermanyssus gallinae).

Author

Kolics, Balázs, Kolics, Éva, Solti, Izabella, Bacsi, Zsuzsanna, Taller, János, Specziár, András, and Mátyás, Kinga

Subjects

*GALLIFORMES, *LITHIUM chloride, *POULTRY farms, *MITES, *ACARICIDES, *POULTRY, *HUMAN-animal relationships

Abstract

10.1086/650733 14 De Luna C.J., Arkle S., Harrington D., George D.R., Guy J.H., Sparagano O.A. The Poultry Red Mite Dermanyssus gallinae as a Potential Carrier of Vector-Borne Diseases. 12823843 17 Flochlay A.S., Thomas E., Sparagano O. Poultry Red Mite (Dermanyssus gallinae) Infestation: A Broad Impact Parasitological Disease That Still Remains a Significant Challenge for the Egg-Laying Industry in Europe. Keywords: lithium chloride; contact effect; poultry red mite EN lithium chloride contact effect poultry red mite 1005 9 11/17/22 20221101 NES 221101 1. [Extracted from the article]

Published

2022

19. Potential of histamine release factor for the utilization as a universal vaccine antigen against poultry red mites, tropical fowl mites, and northern fowl mites.

Author

Win SY, Horio F, Sato J, Motai Y, Seo H, Fujisawa S, Sato T, Oishi E, Htun LL, Bawm S, Okagawa T, Maekawa N, Konnai S, Ohashi K, and Murata S

Subjects

Animals, Mite Infestations veterinary, Mite Infestations prevention & control, Mite Infestations immunology, Chickens immunology, Antigens immunology, Cross Reactions, Amino Acid Sequence, Poultry Diseases prevention & control, Poultry Diseases parasitology, Poultry Diseases immunology, Mites immunology, Vaccines immunology

Abstract

Poultry red mites (PRMs, Dermanyssus gallinae), tropical fowl mites (TFMs, Ornithonyssus bursa), and northern fowl mites (NFMs, Ornithonyssus sylviarum) are hematophagous mites that are distributed worldwide which pose a serious challenge to the poultry industry and negatively impact poultry production and welfare. Vaccines represent a promising approach for controlling avian mites, and the identification of antigens with broad efficacy against multiple avian mite species is advantageous for vaccine control. This study aimed to identify histamine release factor (HRF), which was previously reported as a candidate vaccine antigen against PRMs, from TFMs and NFMs and to analyze its cross-reactivity and acaricidal effects on different avian mite species. The deduced amino acid sequences of the HRFs identified in the TFMs and NFMs were highly homologous to those of the PRMs. We generated recombinant HRF (rHRF) of TFMs, NFMs, and PRMs, and immune plasma against each rHRF was produced by immunization with each antigen. The immune plasma contained antibodies specific to each antigen and showed cross-reactivity with rHRFs from different avian mites. Moreover, PRM nymphs (protonymphs) artificially fed each immune plasma showed higher mortality rates than those fed the control plasma. These results suggest that HRFs can be used as candidate antigens for a universal vaccine with broad efficacy across avian mites.

Published

2025

20. Growth kinetics and population density of a laboratory colony of the poultry red mite (Dermanyssus gallinae) established in Japan.

Author

Inoue T, Mizutani K, Kunisada H, Ladzekpo D, Kwofie KD, Koike Y, Sasaki S, Jimbo K, Kawada H, Mikami F, Anisuzzaman, Alim MA, Matsubayashi M, Yoshida T, Furukawa T, Ueno T, Oda K, Tsuji N, and Hatta T

Abstract

The poultry red mite (PRM), Dermanyssus gallinae, is a hematophagous ectoparasite that significantly threatens the poultry industry, not only through blood-feeding but also as a vector for deadly pathogens. With the growing challenge of acaricidal resistance, the demand for alternative control measures is urgent. However, effective PRM research, particularly in acaricidal efficacy and new drug discovery, hinges on the availability of reliable laboratory colonies. In this study, we successfully established a stable PRM laboratory colony, originally isolated from the field in 2021 and maintained under controlled conditions at the Research Institute for Animal Science in Biochemistry and Toxicology (RIAS). We investigated the growth kinetics and population dynamics of the laboratory colony within a Styrofoam-based maintenance box (SBMB) containing chicks. PRM propagation was tracked over 28 days, with mites collected every seven days. The average bulk weight of the mites in the trap increased from 4.3 ± 1.2 mg on day 7 to 201.4 ± 56.5 mg on day 28, despite seasonal variations, indicating optimal conditions for population growth. The collected mites spanned various blood-feeding developmental stages such as protonymph, deutonymph, and adult stages, enabling comprehensive assessments of molting and egg-laying efficiency. Our findings confirm that the laboratory colony of PRM can be stably maintained, providing a reliable source of PRMs for further experimental research aimed at advancing control strategies against this pervasive pest.

Published

2025

21. Dermanyssus gallinae: the long journey of the poultry red mite to become a vector

Author

Antonella Schiavone, Nicola Pugliese, Domenico Otranto, Rossella Samarelli, Elena Circella, Caterina De Virgilio, and Antonio Camarda

Subjects

Dermanyssus gallinae, Vectorial role, Pathogens, Poultry red mite, Bacteria, Viruses, Infectious and parasitic diseases, RC109-216

Abstract

Abstract The possibility that Dermanyssus gallinae, the poultry red mite, could act as a vector of infectious disease-causing pathogens has always intrigued researchers and worried commercial chicken farmers, as has its ubiquitous distribution. For decades, studies have been carried out which suggest that there is an association between a wide range of pathogens and D. gallinae, with the transmission of some of these pathogens mediated by D. gallinae as vector. The latter include the avian pathogenic Escherichia coli (APEC), Salmonella enterica serovars Enteritidis and Gallinarum and influenza virus. Several approaches have been adopted to investigate the relationship between D. gallinae and pathogens. In this comprehensive review, we critically describe available strategies and methods currently available for conducting trials, as well as outcomes, analyzing their possible strengths and weaknesses, with the aim to provide researchers with useful tools for correctly approach the study of the vectorial role of D. gallinae. Graphical Abstract

Published

2022

22. Clinical Examination of the Control Red Chicken Mites Dermanyssus Gallinae

Author

Aleksadar Pavlicevic, Ivan Pavlovic, Branislav Davidescu, and Radomir Ratajac

Subjects

clinical examination, control, poultry red mite, Agriculture, Technology, Science

Abstract

Laboratory trials of the preparations give limited, preliminary efficacy information to Dermanyyus gallinae (De Geer, 1778). It is only under the realistic conditions of clinical trials that it is possible to obtain a final picture of the effectiveness of D. gallinae control. We recommend the following elements of clinical trials: 1. basic farm and facility data; 2. Important technological elements (such as: type of production, complexity of cages and equipment, capacity, length of exploitation, etc.); 3. weather condition: temperature (year period), and, if necessary, humidity; 4. hygienic conditionality .; 5. initial intensity and extent of infestation; 6. laboratory tests: basic biological efficiency (for all substances) and hemoresistence (for substances creating resistance); 7. application: the moment of application (before or during exploitation), concentration and dose; description of the mode of performance; control; 8. adaptation by behaviour (observation on the farm); 9. length of the object's break; 10. biosecurity: outside (infestation of a new, young flock, infestation of cage transport) and within the farm; 11. control: method and periodicity, with a final clinical assessment over a period of one year (one exploitation); 12. undesirable effects, disorders, complications, side effects; 13. the rest.

Published

2023

23. Short-time cold atmospheric pressure plasma exposure can kill all life stages of the poultry red mite, Dermanyssus gallinae, under laboratory conditions.

Author

Rüster, Vanessa, Werner, Henrik, Wieneke, Stephan, Avramidis, Georg, ten Bosch, Lars, Krause, Eike Tobias, Strube, Christina, and Bartels, Thomas

Subjects

ATMOSPHERIC pressure, GALLIFORMES, MITES, GAS mixtures, POULTRY, AIR pressure, EGG incubation

Abstract

In the present study, the acaricidal effects of cold atmospheric pressure plasma treatment on poultry red mites of different developmental stages have been investigated under laboratory conditions using a dielectric barrier discharge system. A total of 1890 poultry red mites and 90 mite eggs, respectively, were exposed to the plasma under various parameter settings with a single plasma pulse generated using the gas mixture of the ambient air at atmospheric pressure. The results showed that all developmental stages of the poultry red mite could be killed by cold atmospheric pressure plasma treatment. Plasma exposure to mite eggs resulted in a complete 100% hatch inhibition regardless of the parameter settings. Post-exposure mortality rates of larvae, nymphs and adults showed significant differences after utilization of plasma at 10 W for 1.0 s. In addition, the mortality rate increased with progressing time after plasma exposure. An average mortality rate of 99.7% was observed after 12 h in all mites exposed to plasma, regardless of the selected plasma parameter, developmental stage, and nutritional status of the mites. Cold atmospheric pressure plasma has an acaricidal effect on all developmental stages of Dermanyssus gallinae, suggesting that it could be developed to an effective method for the control of poultry red mites in laying hen husbandry. [ABSTRACT FROM AUTHOR]

Published

2022

24. Evaluation of the in vitro acaricidal activity of Chinese herbal compounds on the poultry red mite (Dermanyssus gallinae)

Author

Yichen Jian, Huizhen Yuan, Dongliang Li, Qing Guo, Xiaoying Li, Sumei Zhang, Changshen Ning, Longxian Zhang, and Fuchun Jian

Subjects

Chinese herbal compound, ethanol extract, poultry red mite, content determination, toxic effects, Veterinary medicine, SF600-1100

Abstract

The poultry red mite Dermanyssus gallinae is an economically important pest in poultry farms worldwide, but an effective treatment option is lacking. The current study determined the effectiveness of six Chinese herbal medicines [Syzygium aromaticum (clove), Hibiscus syriacus (Hibiscus), Illicium verum (star anise), Leonurus artemisia (motherwort), Cinnamomum cassia (cinnamon), and Taraxacum sp. (dandelion)] against D. gallinae. Alcohol extracts were prepared via the solvent extraction method and the phenol, flavonoid, and tannin contents were determined. These active components were highest in S. aromaticum and lowest in H. syriacus, I. verum. No tannin content was detected in L. artemisia. All extracts showed contact toxicity against D. gallinae at a test concentration of 1 g/mL, with S. aromaticum and L. artemisia resulting in 100% mortality. S. aromaticum, L. artemisia, and I. verum showed the best efficacy (LC50 0.159, 0.200, and 0.292 g/mL, respectively). Different combinations of extracts showed an additive effect of I. verum LC90 + L. artemisia LC90. The acaricidal efficacy of this combination was tested against different developmental stages of D. gallinae, being most efficacious against nymphal and larval D. gallinae, with a corrected mortality rate of 100%. However, inhibition of egg hatching was only 53.69%. Taken together, these results highlight I. verum LC90 + L. artemisia LC90 as a promising compound with severe contact toxicity against D. gallinae. Given the wide cultivation of these species and their extensive use in foodstuffs and cosmetics as flavors and fragrances, they could be a cheap, readily available ecofriendly alternative to pesticides currently used in poultry farms.

Published

2022

25. Evaluation of acaricidal activity in entomopathogenic fungi for poultry red mite (Dermanyssus gallinae) control.

Author

Truong, A.-Tai, Yoo, Mi-Sun, Woo, Soo Dong, Lee, Heungsik, Park, Youngjin, Nguyen, Thi-Thu, Youn, So Youn, Min, Subin, Lim, Jiyeon, Yoon, Soon-Seek, and Cho, Yun Sang

Subjects

*ENTOMOPATHOGENIC fungi, *METARHIZIUM anisopliae, *POULTRY farms, *POULTRY industry, *MITES, *ACARICIDES

Abstract

The poultry red mite (PRM), Dermanyssus gallinae, significantly impacts the health of egg-laying hens. Mites feed on the blood of infested chickens and have a great economic impact on the poultry industry. Chemical treatment of mites raises concerns about their resistance to miticides and residues in eggs and poultry. Biocontrol using entomopathogenic fungi is expected to be a chemical-free strategy for reducing PRM infestations. Therefore, the present study aimed to investigate the effects of various entomopathogenic fungal species collected in South Korea on the inhibition of PRM. Seventeen strains of six fungal species collected from various sources were used to evaluate acaricidal activity against PRM. The results showed that 16/17 strains had acaricidal properties against PRM, of which strains of Metarhizium anisopliae had the highest acaricidal activity. Mites treated with M. anisopliae CBNU 4–2 showed 100 % mortality 5 d after inoculation, followed by M. flavoviride var. pemphigi. The M. flavoviride var. pemphigi CBNU 1–1–1 showed 97.78 % mortality after 10 d of exposure to fungi. The mortality rate of PRM treated with other strains slowly increased and reached its highest value on the 14th day of inoculation. The results of this study provide information on the acaricidal activity of different entomopathogenic fungi against PRM. This information is important for the selection of fungal species for developing biocontrol methods for PRM treatment. These strains could be used for further evaluation of PRM treatment on chicken farms, or in combination with other methods, to increase PRM treatment efficiency. • 16/17 strains of six fungal species had acaricidal properties against PRM. • Four species M. flavoviride var. pemphigi , M. pinghaense , L. attenuatum , and P. lilacinum were evaluated for the first time in this study. • Species in the genus Metarhizium showed higher acaricidal effects against PRM than strains of other genera. • Mites treated with M. anisopliae CBNU 4–2 showed 100 % mortality 5 days after inoculation [ABSTRACT FROM AUTHOR]

Published

2024

26. Transcriptomic analysis of the poultry red mite, Dermanyssus gallinae, across all stages of the lifecycle

Author

Kathryn Bartley, Wan Chen, Richard I. Lloyd Mills, Francesca Nunn, Daniel R. G. Price, Stephane Rombauts, Yves Van de Peer, Lise Roy, Alasdair J. Nisbet, and Stewart T. G. Burgess

Subjects

Dermanyssus gallinae, Poultry red mite, Transcriptome, Lifecycle, Development, Allergen, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The blood feeding poultry red mite (PRM), Dermanyssus gallinae, causes substantial economic damage to the egg laying industry worldwide, and is a serious welfare concern for laying hens and poultry house workers. In this study we have investigated the temporal gene expression across the 6 stages/sexes (egg, larvae, protonymph and deutonymph, adult male and adult female) of this neglected parasite in order to understand the temporal expression associated with development, parasitic lifestyle, reproduction and allergen expression. Results RNA-seq transcript data for the 6 stages were mapped to the PRM genome creating a publicly available gene expression atlas (on the OrcAE platform in conjunction with the PRM genome). Network analysis and clustering of stage-enriched gene expression in PRM resulted in 17 superclusters with stage-specific or multi-stage expression profiles. The 6 stage specific superclusters were clearly demarked from each other and the adult female supercluster contained the most stage specific transcripts (2725), whilst the protonymph supercluster the fewest (165). Fifteen pairwise comparisons performed between the different stages resulted in a total of 6025 Differentially Expressed Genes (DEGs) (P > 0.99). These data were evaluated alongside a Venn/Euler analysis of the top 100 most abundant genes in each stage. An expanded set of cuticle proteins and enzymes (chitinase and metallocarboxypeptidases) were identified in larvae and underpin cuticle formation and ecdysis to the protonymph stage. Two mucin/peritrophic-A salivary proteins (DEGAL6771g00070, DEGAL6824g00220) were highly expressed in the blood-feeding stages, indicating peritrophic membrane formation during feeding. Reproduction-associated vitellogenins were the most abundant transcripts in adult females whilst, in adult males, an expanded set of serine and cysteine proteinases and an epididymal protein (DEGAL6668g00010) were highly abundant. Assessment of the expression patterns of putative homologues of 32 allergen groups from house dust mites indicated a bias in their expression towards the non-feeding larval stage of PRM. Conclusions This study is the first evaluation of temporal gene expression across all stages of PRM and has provided insight into developmental, feeding, reproduction and survival strategies employed by this mite. The publicly available PRM resource on OrcAE offers a valuable tool for researchers investigating the biology and novel interventions of this parasite.

Published

2021

27. Assessment of fluralaner as a treatment in controlling Dermanyssus gallinae infestation on commercial layer farms and the potential for resulting benefits of improved bird welfare and productivity

Author

Ivo Petersen, Katharina Johannhörster, Eric Pagot, Damian Escribano, Eva Zschiesche, Déborah Temple, and Emmanuel Thomas

Subjects

Dermanyssus gallinae, Fluralaner, Hen welfare, Hen health, Isoxazoline, Poultry red mite, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Poultry red mite (PRM) (Dermanyssus gallinae) infestations are a cause of anaemia, impaired productivity and stress-related behaviours linked to reduced hen welfare. A study investigated the potential health, welfare and productivity benefits following fluralaner treatment to eliminate PRM from infested hens. Methods A PRM-infested layer house was selected on a free-range farm (5400 hens) and an aviary farm (42,400 hens). Fluralaner (Exzolt®; 0.5 mg/kg body weight) was administered twice, 7 days apart (Weeks 0 and 1), via drinking water. Mite populations were monitored by traps. Cameras recorded nighttime hen behaviours weekly, pre- and post-treatment. On the free-range farm, daytime behaviours were also recorded weekly. For pre- and post-treatment corticosterone assessments, eggs were randomly collected on both farms, and blood samples were collected from 50 randomly selected aviary farm hens. Production parameters were assessed using farm records. Results Throughout the post-treatment period, fluralaner efficacy against PRM was > 99% on both farms. On the aviary and free-range farms, treatment was followed by significant nighttime increases in the proportion of resting hens (P

Published

2021

28. An in vitro evaluation of the sensitivity and responses of Dermanyssus gallinae to selected acaricides

Author

Sylwia Koziatek-Sadłowska and Rajmund Sokół

Subjects

Dermanyssus gallinae, poultry red mite, acaricide, control, laboratory study, Animal culture, SF1-1100

Abstract

ABSTRACT: Dermanyssus gallinae is an obligatory ectoparasite of birds which feeds on blood and significantly compromise the well-being of commercially raised laying hens. In this study, the mortality rates and responses of D. gallinae to 2 acaricides with a physical mode of action (Dergall and Mite Max) and 2 acaricides with a chemical mode of action (Milben Ex and Bio PK) were evaluated in tree dilutions (S1–3) and compared at 8-time intervals after application. The evaluation involved a novel method that simulates real-world conditions in a commercial poultry farm. Tested products have shown high efficacy (84.3–100%) against D. gallinae in the producer recommended solution (S1). Acaricides with a physical mechanism of action were as effective as chemical agents in eradicating poultry red mites. The compared preparations differed only in the onset of action which was longer in acaricides with a physical mode of action (1–6 h for chemical 24 h for physical in S1). An increase in the concentration of the active ingredient did not significantly speed up the onset of action of the evaluated preparations. However, the efficacy of Dergall and Bio PK decreased when the applied dose was halved, to 12% and 0% respectively. A decrease in the dose Mite Max led to a somewhat smaller, but not statistically significant decrease in mite mortality rates (74%). The proposed method for evaluating acaricide efficacy can be helpful in selecting the most effective preparations and the optimal concentration of the working solution to be applied in commercial layer farms, thus reducing the costs associated with the eradication of D. gallinae. The developed method enables a reliable evaluation of acaricides with both a physical and chemical mode of action, and it supports observations of the parasites’ responses to the applied treatment.

Published

2022

29. RNAi gene knockdown in the poultry red mite, Dermanyssus gallinae (De Geer 1778), a tool for functional genomics

Author

Wan Chen, Kathryn Bartley, Francesca Nunn, Alan S. Bowman, Jeremy M. Sternberg, Stewart T. G. Burgess, Alasdair J. Nisbet, and Daniel R. G. Price

Subjects

RNA interference, Poultry red mite, Functional genomics, Gene silencing, Gene knockdown, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The avian haematophagous ectoparasite Dermanyssus gallinae, commonly known as the poultry red mite, causes significant economic losses to the egg-laying industry worldwide and also represents a significant welfare threat. Current acaricide-based controls are unsustainable due to the mite’s ability to rapidly develop resistance, thus developing a novel sustainable means of control for D. gallinae is a priority. RNA interference (RNAi)-mediated gene silencing is a valuable tool for studying gene function in non-model organisms, but is also emerging as a novel tool for parasite control. Methods Here we use an in silico approach to identify core RNAi pathway genes in the recently sequenced D. gallinae genome. In addition we utilise an in vitro feeding device to deliver double-stranded (ds) RNA to D. gallinae targeting the D. gallinae vATPase subunit A (Dg vATPase A) gene and monitor gene knockdown using quantitative PCR (qPCR). Results Core components of the small interfering RNA (siRNA) and microRNA (miRNA) pathways were identified in D. gallinae, which indicates that these gene silencing pathways are likely functional. Strikingly, the P-element-induced wimpy testis (PIWI)-interacting RNA (piRNA) pathway was absent in D. gallinae. In addition, feeding Dg vATPase A dsRNA to adult female D. gallinae resulted in silencing of the targeted gene compared to control mites fed non-specific lacZ dsRNA. In D. gallinae, dsRNA-mediated gene knockdown was rapid, being detectable 24 h after oral delivery of the dsRNA, and persisted for at least 120 h. Conclusions This study shows the presence of core RNAi machinery components in the D. gallinae genome. In addition, we have developed a robust RNAi methodology for targeting genes in D. gallinae that will be of value for studying genes of unknown function and validating potential control targets in D. gallinae.

Published

2021

30. An improved method for in vitro feeding of adult female Dermanyssus gallinae (poultry red mite) using Baudruche membrane (goldbeater’s skin)

Author

Francesca Nunn, Jessica Baganz, Kathryn Bartley, Sarah Hall, Stewart Burgess, and Alasdair J. Nisbet

Subjects

Baudruche membrane, Dermanyssus gallinae, In vitro feeding, Goldbeater’s skin, Poultry red mite, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Dermanyssus gallinae, or poultry red mite (PRM), is an important ectoparasite in laying hen, having a significant effect on animal welfare and potentially causing economic loss. Testing novel control compounds typically involves in vitro methodologies before in vivo assessments. Historically, in vitro methods have involved PRM feeding on hen blood through a membrane. The use of hen blood requires multiple procedures (bleeds) to provide sufficient material, and the use of a larger species (e.g. goose) could serve as a refinement in the use of animals in research. Methods The in vitro feeding device used was that which currently employs a Parafilm™ M membrane (Bartley et al.: Int J Parasitol. 45:819–830, 2015). Adult female PMR were used to investigate any differences in mite feeding, egg laying and mortality when fed goose or hen blood. Effects on these parameters when PRM were fed through either the Parafilm™ M membrane or the Baudruche membrane alone or through a combination of the membrane with an overlaid polyester mesh were tested using goose blood. Results Poultry red mites fed equally well on goose or hen blood through the Parafilm™ M membrane, and there were no significant differences in mortality of PRM fed with either blood type. A significant increase (t test: t = 3.467, df = 4, P = 0.03) in the number of eggs laid per fed mite was observed when goose blood was used. A 70% increase in PRM feeding was observed when the mites were fed on goose blood through a Baudruche membrane compared to when they were fed goose blood through the Parafilm™ M membrane. The addition of an overlaid polyester mesh did not improve feeding rates. A significant increase (analysis of variance: F (3, 20) = 3.193, P = 0.04) in PRM egg laying was observed in mites fed on goose blood through the Baudruche membrane compared to those fed goose blood through the Parafilm™ M membrane. A mean of 1.22 (standard error of the mean ± 0.04) eggs per fed mite was obtained using the Baudruche feeding device compared to only 0.87 (SEM ± 0.3) eggs per fed mite using the Parafilm™ M device when neither was combined with a polyester mesh overlay. Conclusion The in vitro feeding of adult female PRM can be readily facilitated through the use of goose blood in feeding devices with the Baudruche membrane.

Published

2020

31. In vitro evaluation of a cysteine protease from poultry red mites, Demanyssus gallinae, as a vaccine antigen for chickens

Author

Takuma Ariizumi, Shiro Murata, Sotaro Fujisawa, Masayoshi Isezaki, Takumi Sato, Eiji Oishi, Akira Taneno, Osamu Ichii, Naoya Maekawa, Tomohiro Okagawa, Satoru Konnai, and Kazuhiko Ohashi

Subjects

poultry red mite, cysteine protease, vaccine candidate, Deg-CPR-2, Dermanyssus gallinae, Animal culture, SF1-1100

Abstract

ABSTRACT: Poultry red mites (PRMs, Dermanyssus gallinae) are hematophagous ectoparasites that negatively affect egg production, which causes serious economic losses to the poultry industry worldwide. Currently, the emergence of acaricide-resistant PRMs has impeded PRM control in poultry farms. Several alternatives for acaricide use have been described for managing PRM-caused problems. Vaccination is among the methods for controlling PRMs in poultry houses. Currently, several candidates for vaccine antigens have been identified. This study identified a cysteine protease, Deg-CPR-2, which differs from 2 other previously reported cysteine proteases in PRMs, from previously obtained data from RNA-sequencing (RNA-seq) analysis. We investigated the characteristics of Deg-CPR-2 and assessed its efficacy as a vaccine antigen in vitro. Phylogenetic analysis revealed that Deg-CPR-2 belonged to a different cluster from those of other cysteine proteases in PRMs. This cluster also included cathepsin L-like proteases, enzymes thought to be involved in hemoglobin digestion in ticks. Expression analysis revealed Deg-CPR-2 expression in midguts and all the life-stages; however, there were differences in the expression levels across the life-stages. The enzyme activity of recombinant Deg-CPR-2 was inhibited in the presence of a cysteine protease inhibitor, which suggests that Deg-CPR-2 functions as a cysteine protease in PRMs. Finally, there was an in vitro increase in the mortality of PRMs, mainly protonymphs that were artificially fed with plasma from chickens immunized with Deg-CPR-2. These findings suggest that Deg-CPR-2 may contribute to protein digestion in the midgut of PRMs and is crucially involved in physiological processes in PRMs. Additionally, immunization with Deg-CPR-2 may reduce the number of protonymphs, and Deg-CPR-2 should be considered as a candidate antigen for anti-PRM vaccine development.

Published

2022

32. Significant role of symbiotic bacteria in the blood digestion and reproduction of Dermanyssus gallinae mites.

Author

Liu Q, Sun T, Wang P, Wang L, Frantova H, Hartmann D, Perner J, Sun W, and Pan B

Abstract

Endosymbiotic bacteria significantly impact the fitness of their arthropod hosts. Dermanyssus gallinae , the poultry red mite, is a blood-feeding ectoparasite that exclusively feeds on avian blood. While there is a relatively comprehensive understanding of its microbial community structures across developmental stages based on 16S rRNA sequencing， the functional integration of these microbes within the host's physiology remains elusive. This study aims to elucidate the role of symbiotic bacteria in D. gallinae biology. 16S rRNA amplicon sequencing and fluorescence in situ hybridization revealed a prominent midgut-confinement bacterial microbiota with considerable diversity, out of which Kocuria and Bartonella A acted as the predominant bacterial genera inhabiting D. gallinae . The relative abundance of Bartonella A increased rapidly after blood-sucking, suggesting its adaptation to a blood-based diet and its pivotal role in post-engorgement activities. Some of the isolated bacterial strains from D. gallinae display hemolytic activity on blood agar, potentially aiding blood digestion. To corroborate this in vivo , antibiotic-mediated clearance was exploited to generate dysbiosed cohorts of D. gallinae mites, lacking some of the key bacterial species. Phenotypic assessments revealed that dysbiosed mites experienced delayed blood digestion and diminished reproductive capacity. Whole-genome sequencing identified Bartonella A as a new species within the genus Bartonella , exhibiting characteristics of an obligate symbiont. These findings underscore the significance of microbiota in poultry red mites and suggest microbiota-targeted strategies for controlling mite populations in poultry farms., Competing Interests: None declared., (© The Author(s) 2024. Published by Oxford University Press on behalf of the International Society for Microbial Ecology.)

Published

2024

33. Challenges in the Biological Control of Pests in Poultry Production: a Critical Review of Advances in Brazil

Author

Alves, Luis Francisco Angeli, Johann, Liana, and Oliveira, Daian Guilherme Pinto

Published

2023

34. Dermanyssus gallinae: the long journey of the poultry red mite to become a vector.

Author

Schiavone, Antonella, Pugliese, Nicola, Otranto, Domenico, Samarelli, Rossella, Circella, Elena, De Virgilio, Caterina, and Camarda, Antonio

Subjects

GALLIFORMES, SALMONELLA enterica serovar enteritidis, POULTRY, MITES, INFLUENZA A virus, SALMONELLA enterica

Abstract

The possibility that Dermanyssus gallinae, the poultry red mite, could act as a vector of infectious disease-causing pathogens has always intrigued researchers and worried commercial chicken farmers, as has its ubiquitous distribution. For decades, studies have been carried out which suggest that there is an association between a wide range of pathogens and D. gallinae, with the transmission of some of these pathogens mediated by D. gallinae as vector. The latter include the avian pathogenic Escherichia coli (APEC), Salmonella enterica serovars Enteritidis and Gallinarum and influenza virus. Several approaches have been adopted to investigate the relationship between D. gallinae and pathogens. In this comprehensive review, we critically describe available strategies and methods currently available for conducting trials, as well as outcomes, analyzing their possible strengths and weaknesses, with the aim to provide researchers with useful tools for correctly approach the study of the vectorial role of D. gallinae. [ABSTRACT FROM AUTHOR]

Published

2022

35. Characterization of a copper transporter 1 from Dermanyssus gallinae as a vaccine antigen.

Author

Fujisawa, Sotaro, Murata, Shiro, Isezaki, Masayoshi, Ariizumi, Takuma, Sato, Takumi, Oishi, Eiji, Taneno, Akira, Maekawa, Naoya, Okagawa, Tomohiro, Ichii, Osamu, Konnai, Satoru, and Ohashi, Kazuhiko

Subjects

GALLIFORMES, ANTIGENS, MEMBRANE proteins, BLOOD proteins, RECOMBINANT proteins

Abstract

Poultry red mites (Dermanyssus gallinae, PRM) are dangerous ectoparasites that infest chickens and threaten the poultry industry worldwide. PRMs usually develop resistance to chemical acaricides, necessitating the development of more effective preventive agents, and vaccination could be an alternative strategy for controlling PRMs. The suitability of plasma membrane proteins expressed in the midguts as vaccine antigens was evaluated because these molecules are exposed to antibodies in the ingested blood and the binding of antibodies could potentially induce direct damage to midgut tissue and indirect damage via inhibition of the functions of target molecules. Therefore, in the present study, a copper transporter 1-like molecule (Dg-Ctr1) was identified and its efficacy as a vaccine antigen was assessed in vitro. Dg-Ctr1 mRNA was expressed in the midguts and ovaries and in all the life stages, and flow cytometric analysis indicated that Dg-Ctr1 was expressed on the plasma membrane. Importantly, nymphs fed on plasma derived from chickens immunized with the recombinant protein of the extracellular region of Dg-Ctr1 showed a significant reduction in the survival rate. These data indicate that the application of Dg-Ctr1 as a vaccine antigen could reduce the number of nymphs in the farms, contributing to reduction in the economic losses caused by PRMs in the poultry industry. To establish an effective vaccination strategy, the acaricidal effects of the combined use of Dg-Ctr1 with chemical acaricides or other vaccine antigens must be examined. [ABSTRACT FROM AUTHOR]

Published

2022

36. Assessment of fluralaner as a treatment in controlling Dermanyssus gallinae infestation on commercial layer farms and the potential for resulting benefits of improved bird welfare and productivity.

Author

Petersen, Ivo, Johannhörster, Katharina, Pagot, Eric, Escribano, Damian, Zschiesche, Eva, Temple, Déborah, and Thomas, Emmanuel

Subjects

GALLIFORMES, BLOOD cell count, ERYTHROCYTES, FARMS, MITE infestations, PEDICULOSIS, ANIMAL welfare, POULTRY breeding

Abstract

Background: Poultry red mite (PRM) (Dermanyssus gallinae) infestations are a cause of anaemia, impaired productivity and stress-related behaviours linked to reduced hen welfare. A study investigated the potential health, welfare and productivity benefits following fluralaner treatment to eliminate PRM from infested hens. Methods: A PRM-infested layer house was selected on a free-range farm (5400 hens) and an aviary farm (42,400 hens). Fluralaner (Exzolt®; 0.5 mg/kg body weight) was administered twice, 7 days apart (Weeks 0 and 1), via drinking water. Mite populations were monitored by traps. Cameras recorded nighttime hen behaviours weekly, pre- and post-treatment. On the free-range farm, daytime behaviours were also recorded weekly. For pre- and post-treatment corticosterone assessments, eggs were randomly collected on both farms, and blood samples were collected from 50 randomly selected aviary farm hens. Production parameters were assessed using farm records. Results: Throughout the post-treatment period, fluralaner efficacy against PRM was > 99% on both farms. On the aviary and free-range farms, treatment was followed by significant nighttime increases in the proportion of resting hens (P < 0.0001; P = 0.0175, respectively). Significant post-treatment versus pre-treatment nighttime reductions were observed in head shaking (aviary, P < 0.0001; free-range P = 0.0233) and preening (P = 0.0032; P = 0.0018) and on the aviary farm in bouts of body shaking (P = 0.0108), vertical wing shaking (P = 0.0002), head scratching (P = 0.0335), and gentle feather pecking (P < 0.0001). On the free-range farm there were significant daytime reductions in head scratching (P < 0.0001), head shaking (P = 0.0492) and preening (P = 0.0012). Relative to standard production parameters, no differences were detected on the aviary farm, but on the free-range farm the laying rate decline with increasing age was less than expected and the increase in egg weight greater than expected. Post-treatment increases in egg and plasma corticosterone were suggestive of stress factors in addition to mite infestation. Red blood cell counts and haematocrit increased following treatment. Conclusion: Fluralaner treatment eliminated mite challenge, leading to improved hen welfare and health, based on reductions in stress-related behaviours and restoration of the anaemia-inducing effects of mite blood feeding. [ABSTRACT FROM AUTHOR]

Published

2021

37. Dermanyssosis in the Urban Context: When the One Health Paradigm Is Put into Practice

Author

Alessandra Barlaam, Antonella Puccini, Maria Filomena Caiaffa, Danilo Di Bona, Luigi Macchia, and Annunziata Giangaspero

Subjects

poultry red mite, pigeons, human dermatitis, one health paradigm, Italy, Medicine

Abstract

Poultry red mites (Dermanyssus gallinae) are primarily ectoparasites of laying hens but also parasitize synanthropic birds in urban contexts. This mite can occasionally attack mammals, including humans, and cause mild to severe dermatitis. Attacks by zoonotic Mesostigmata mites are currently an increasing but still neglected problem of urban life. The authors present two cases of dermanyssosis involving two health workers at a hospital, linked to air conditioning outdoor units colonized by pigeons. Videos that describe the environmental contamination by D. gallinae and show where the infestation originated are presented. In addition, the authors update the literature of all urban cases, which, to date, reports over 240 clinical cases, mostly in private homes but also in public buildings. Dermatitis due to these mites is often unrecognized and, therefore, misdiagnosed. This report describes how the two cases herein reported were rapidly resolved thanks to the close cooperation between veterinary parasitologists and allergologists. It is crucial to raise awareness of the problem among general practitioners and specialists. In addition, the authors suggest a reconsideration of urban architectural choices that increase the public health risk posed by dermanyssosis and other diseases related to synanthropic birds.

Published

2022

38. RNAi gene knockdown in the poultry red mite, Dermanyssus gallinae (De Geer 1778), a tool for functional genomics.

Author

Chen, Wan, Bartley, Kathryn, Nunn, Francesca, Bowman, Alan S., Sternberg, Jeremy M., Burgess, Stewart T. G., Nisbet, Alasdair J., and Price, Daniel R. G.

Subjects

FUNCTIONAL genomics, GALLIFORMES, SMALL interfering RNA, ACARICIDES, POULTRY, GENE silencing

Abstract

Background: The avian haematophagous ectoparasite Dermanyssus gallinae, commonly known as the poultry red mite, causes significant economic losses to the egg-laying industry worldwide and also represents a significant welfare threat. Current acaricide-based controls are unsustainable due to the mite's ability to rapidly develop resistance, thus developing a novel sustainable means of control for D. gallinae is a priority. RNA interference (RNAi)-mediated gene silencing is a valuable tool for studying gene function in non-model organisms, but is also emerging as a novel tool for parasite control. Methods: Here we use an in silico approach to identify core RNAi pathway genes in the recently sequenced D. gallinae genome. In addition we utilise an in vitro feeding device to deliver double-stranded (ds) RNA to D. gallinae targeting the D. gallinae vATPase subunit A (Dg vATPase A) gene and monitor gene knockdown using quantitative PCR (qPCR). Results: Core components of the small interfering RNA (siRNA) and microRNA (miRNA) pathways were identified in D. gallinae, which indicates that these gene silencing pathways are likely functional. Strikingly, the P-element-induced wimpy testis (PIWI)-interacting RNA (piRNA) pathway was absent in D. gallinae. In addition, feeding Dg vATPase A dsRNA to adult female D. gallinae resulted in silencing of the targeted gene compared to control mites fed non-specific lacZ dsRNA. In D. gallinae, dsRNA-mediated gene knockdown was rapid, being detectable 24 h after oral delivery of the dsRNA, and persisted for at least 120 h. Conclusions: This study shows the presence of core RNAi machinery components in the D. gallinae genome. In addition, we have developed a robust RNAi methodology for targeting genes in D. gallinae that will be of value for studying genes of unknown function and validating potential control targets in D. gallinae. [ABSTRACT FROM AUTHOR]

Published

2021

39. In vitro characterization of adipocyte plasma membrane-associated protein from poultry red mites, Dermanyssus gallinae, as a vaccine antigen for chickens.

Author

Fujisawa, Sotaro, Murata, Shiro, Takehara, Masaki, Aoyama, Julia, Morita, Ayu, Isezaki, Masayoshi, Win, Shwe Yee, Ariizumi, Takuma, Sato, Takumi, Oishi, Eiji, Taneno, Akira, Maekawa, Naoya, Okagawa, Tomohiro, Ichii, Osamu, Konnai, Satoru, and Ohashi, Kazuhiko

Subjects

*GALLIFORMES, *BLOOD proteins, *FAT cells, *SURVIVAL rate, *CHICKENS, *POULTRY farming

Abstract

• Infestation with PRMs causes economic losses in the poultry industry. • Vaccination has been studied as an alternative method for controlling PRMs. • We identified a novel APMAP-like molecule in PRMs (Dg-APMAP). • Mortality was increased in PRMs fed with immune plasma. • Vaccination targeting Dg-APMAP could be an effective method for PRM control. The poultry red mite (Dermanyssus gallinae ; PRM) is a blood-sucking ectoparasite of chickens that is a threat to poultry farming worldwide and significantly reduces productivity in the egg-laying industry. Chemical acaricides that are widely used in poultry farms for the prevention of PRMs are frequently ineffective due to the emergence of acaricide-resistant PRMs. Therefore, alternative control methods are needed, and vaccination is a promising strategy for controlling PRMs. A novel adipocyte-plasma membrane-associated protein-like molecule (Dg-APMAP) is highly expressed in blood-fed PRMs according to a previous RNA sequencing analysis. Here, we attempted to identify the full sequence of Dg-APMAP, study its expression in different life stages of PRMs, and evaluate its potential as a vaccine antigen. Dg-APMAP mRNA was expressed in the midgut and ovaries, and in all life stages regardless of feeding states. Importantly, in vitro feeding of PRMs with plasma derived from chickens immunized with the recombinant protein of the extracellular region of Dg-APMAP significantly reduced their survival rate in nymphs and adults, which require blood meals. Our data suggest that the host immune responses induced by vaccination with Dg-APMAP could be an effective strategy to reduce the suffering caused by PRMs in the poultry industry. [ABSTRACT FROM AUTHOR]

Published

2021

40. Prevalence of Dermanyssus gallinae in Backyard Poultry Houses and Its Relation with Hen-House Conditions in Canakkale, Turkey.

Author

Konyalı, Coşkun and Savaş, Türker

Subjects

CHICKEN-mite, POULTRY housing, CHICKEN coops, DISEASE prevalence

Abstract

Copyright of Anadolu Tarım Bilimleri Dergisi is the property of Ondokuz Mayis Universitesi, Ziraat Fakultesi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

41. The Poultry Red Mite, Dermanyssus gallinae, travels far but not frequently, and takes up permanent residence on farms.

Author

Boulanger, L., Planchon, C., Taudière, A., McCoy, K.D., Burgess, S.T.G., Nisbet, A.J., Bartley, K., Galliot, P., Creach, P., Sleeckx, N., and Roy, Lise

Subjects

*GALLIFORMES, *MITES, *CONTAMINATION of poultry, *ASEXUAL reproduction, *RURAL population, *FOOD quality

Abstract

Management of Dermanyssus gallinae , a cosmopolitan hematophagous mite responsible for damage in layer poultry farming, is hampered by a lack of knowledge of its spatio-temporal population dynamics. Previous studies have shown that the circulation of this pest between farms is of strictly anthropogenic origin, that a mitochondrial haplogroup has been expanding on European farms since the beginning of the 21st century and that its local population growth may be particularly rapid. To refine our understanding of how D. gallinae spreads within and among farms, we characterized the genetic structure of mite populations at different spatial scales and sought to identify the main factors interrupting gene flow between poultry houses and between mitochondrial haplogroups. To this end, we selected and validated the first set of nuclear microsatellite markers for D. gallinae and sequenced a region of the CO1-encoding mitochondrial gene in a subsample of microsatellite-genotyped mites. We also tested certain conditions required for effective contamination of a poultry house through field experimentation, and conducted a survey of practices during poultry transfers. Our results confirm the role of poultry transport in the dissemination of mite populations, but the frequency of effective contamination after the introduction of contaminated material into poultry houses seems lower than expected. The high persistence of mites on farms, even during periods when poultry houses are empty and cleaned, and the very large number of nodes in the logistic network (large number of companies supplying pullets or transporting animals) undoubtedly explain the very high prevalence on farms. Substantial genetic diversity was measured in farm populations, probably as a result of the mite's known haplodiploid mode of sexual reproduction, coupled with the dense logistic network. The possibility of the occasional occurrence of asexual reproduction in this sexually reproducing mite was also revealed in our analyses, which could explain the extreme aggressiveness of its demographic dynamics under certain conditions. • Dermanyssus gallinae colonizes egg-production farms through human activities. • We have combined a population genetic analysis using nuclear microsatellites, a field trial and a survey. • Effective contamination by contaminated material introduced into poultry houses is not systematic. • The high persistence after cleaning and the density of the logistics network largely explain the very high prevalence on farms. • Asexual reproductive events could be mixed in with the known sexual reproduction of this haplo-diploid mite. [ABSTRACT FROM AUTHOR]

Published

2024

42. Acaricidal efficacy of orally administered macrocyclic lactones against poultry red mites (Dermanyssus gallinae) on chicks and their impacts on mite reproduction and blood-meal digestion

Author

Xiaolin Xu, Chuanwen Wang, Shudong Zhang, Yu Huang, Tingting Pan, Bohan Wang, and Baoliang Pan

Subjects

Dermanyssus gallinae, Poultry red mite, Oral, Reproduction, Blood-meal digestion, Macrocyclic lactones, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The poultry red mite (PRM), Dermanyssus gallinae, is one of the most economically deleterious threats to laying-hen industry worldwide. Macrocyclic lactones (MLs) have been widely used in control of mites in mammals, but the effects of MLs on PRMs are not well studied. The main objective of the present study was to systematically evaluate the effects of three MLs, i.e. eprinomectin (EPR), moxidectin (MOX) or ivermectin (IVM), on PRMs fed on chicks following oral administration. Methods Chicks in treatment groups were orally administrated with EPR, MOX or IVM at a dose of 5.0 mg/kg bodyweight. Chicks in the control group received the carrier solvent without drug. Chicks in each cage were then infested with 200 starved adult D. gallinae. After infestation and feeding for 12 h, engorged mites were collected to evaluate the acaricidal efficacy of the MLs, and its impacts on the reproduction and blood-meal digestion of D. gallinae. Results MOX, IVM and EPR demonstrated higher acaricidal efficacies post-treatment compared with the control, i.e. 45.60% for MOX, 71.32% for IVM and 100% for EPR on Day 10. MLs did not have significant effects on the blood-meal ingestion of PRMs, but significantly slowed down blood digestion (P < 0.0001). The oviposition rate, egg hatching rate and fecundity of PRMs in treatment groups were remarkably reduced. Among the three MLs, EPR exhibited the highest performance against PRMs, with an oviposition rate of 1.04%, fecundity of 0.33 eggs per mite and a zero egg hatching rate in EPR treated groups. Conclusions EPR, MOX or IVM administrated orally to chicks increased the mortality of D. gallinae, significantly slowed down their blood-meal digestion and significantly reduced their reproductive capability which included the oviposition rate, fecundity and egg hatching rate. The present study highlights the potential of MLs in the control of PRMs.

Published

2019

43. Darkness increases the population growth rate of the poultry red mite Dermanyssus gallinae

Author

Chuanwen Wang, Yuyun Ma, Yu Huang, Shanchun Su, Lianyu Wang, Yanyan Sun, Qiang Wan, Hao Li, Shudong Zhang, Øivind Øines, and Baoliang Pan

Subjects

Dermanyssus gallinae, Poultry red mite, Darkness, Reproduction, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The poultry red mite (PRM), Dermanyssus gallinae, is one of the most economically deleterious ectoparasites affecting egg-laying hens worldwide. It may be possible to control D. gallinae populations by manipulating lighting regimes within poultry units. However, no studies have clearly shown the effects of darkness on the population growth rate of D. gallinae. Methods The effect of darkness on the population growth rate of D. gallinae was investigated, together with the first description of the molecular identity of the mite from China. Mite variables under two lighting regimens (1:23 h L:D and 12:12 h L:D) were compared, including number of mites and eggs, survival and feeding rates, engorgement, oviposition, hatchability and the life-cycle of D. gallinae. Results The results showed that the number of mites (13,763 ± 956) and eggs (5424 ± 317) in the rearing system with prolonged darkness of 1:23 h L:D at 4th week were 2.4- and 3.6-fold higher than those under a conventional lighting regimen of 12:12 h L:D, respectively. The feeding rates of mites under prolonged darkness ranged from 36.7 ± 1.1% to 52.0 ± 7.0%, which were significantly higher than those under conventional lighting regimen (ranging from 22.6 ± 1.9% to 37.3 ± 1.6%). The mean weight of engorged females (0.26 ± 0.01 mg) and the mean number of eggs per female (on average 5.87 ± 0.36) under prolonged darkness were significantly higher than those under conventional lighting regimen (0.22 ± 0.01 mg and 3.62 ± 0.31, respectively). However, the survival rate ranging from 98.07 ± 0.10% to 98.93 ± 0.19%, hatchability of 97.93 ± 0.01% and the life-cycle of D. gallinae (9 days) was not affected by the lighting period. Conclusions Our findings demonstrated that prolonged darkness significantly promoted the proliferation levels of D. gallinae, resulting in increased number of mites and eggs in the rearing system. The promoted population growth of D. gallinae was found to be related to the increased feeding rate, engorgement level and oviposition level of mites under prolonged darkness. The egg hatchability, the survival rates and the duration of life-cycle of D. gallinae were not affected by the light regimes.

Published

2019

44. IMPORTANCE AND IMPACT OF THE POULTRY RED MITE (DERMANYSSUS GALLINAE) IN LAYER FARMS - ANALYSIS OF FARMERS' PERCEPTION.

Author

Kjosevski, Miroslav, Tomić, Danijela Horvatek, and Dodovski, Aleksandar

Subjects

*SENSORY perception, *GALLIFORMES, *POULTRY farm management, *INTEGRATED pest control, *FARMS, *POULTRY, *POULTRY farms, *DAIRY farm management

Abstract

Poultry red mite (PRM), Dermanyssus gallinae, causes egg drop production, anemia and can be a vector in transmitting diseases. The PRM control mainly focuses on usage of the conventional chemical biocides. The objective of this study was to analyze the farmers' perception regarding the impact, management and control of PRM in Macedonian layer farms. The data were collected with direct on-site visits using a unified questionnaire. In total, 29 poultry farms (28% of farms in the country), all with conventional cages, were part of this study. The data were analyzed by descriptive statistics, inferential statistics and Naïve Bayes Classifier technique. In 30% of the poultry farms the farmers had observed that the flock was infested with PRM. In total, 32 different treatments against PRM were reported from the farmers, and three of them were non-biocide treatments. The most used biocides (17% of the farms) were crude oil, Formalin, Neopitroid® and disinfectants. The highest agreement regarding biocides application among the farms (38%) was before the production starts. Most of the farmers applied biocides routinely, before the infestation is evident (75%). The median costs for PRM treatment were 175€ per flock, higher in the infested farms 493±677€ compared to non - infested 100±71€, p<0.05. None of the Macedonian farmers included in the study was using monitoring method for PRM infestation, contributing to poor data records. This study highlights the need of developing unified strategy for PRM control included in the Integrated Pest Management in poultry layer farms. [ABSTRACT FROM AUTHOR]

Published

2021

45. Evaluation of in-house factors affecting the population distribution of Dermanyssus gallinae in cage and backyard rearing systems by using a modified monitoring method.

Author

Koç, Nafiye and Nalbantoğlu, Serpil

Subjects

GALLIFORMES, INTEGRATED pest control, BIOPESTICIDES, POULTRY housing, CONSTRUCTION materials, ACARIFORMES, POULTRY farming

Abstract

Dermanyssus gallinae (poultry red mite, PRM) is a main ectoparasite of poultry that represents a serious economic threat to all farming systems, including cages and backyard flocks. In recent years, economic losses associated with this ectoparasite have progressively increased, mainly because of the lack of information regarding its population dynamics and appropriate control methods. In this study, we used a modified monitoring method to examine the in-house factors affecting the population density of D. gallinae. PRMs have been found in all poultry houses examined in Turkey. The largest population was detected in the front and back parts of the middle rows in cage systems as well as in perches in backyard systems. Relative humidity, light, and temperature might be the most affecting factors on the mite distribution inside the poultry houses. Besides, the mite populations are influenced mainly by the last (chemical) treatment date and the construction materials of the building. Dermanyssus gallinae were found to be the most dominant mite species (98.9%), followed by Cheyletus sp. (Cheyletidae); also some Acaridae (Tyrophagus spp.) and Oribatida were identified. Hence, further research on Cheyletus sp. is required to elucidate their predatory potential and develop future control strategies. This study contributes to understanding the PRM population behavior in poultry houses as well as their monitoring and control methods, which are key components in the appropriate application of integrated pest management programs. [ABSTRACT FROM AUTHOR]

Published

2021

46. The evaluation of feeding, mortality and oviposition of poultry red mite ( Dermanyssus gallinae) on aging hens using a high welfare on-hen feeding device [version 1; peer review: 2 approved]

Author

Francesca Nunn, Kathryn Bartley, Javier Palarea-Albaladejo, and Alasdair J. Nisbet

Subjects

Method Article, Articles, poultry red mite, feeding device, high welfare

Abstract

A study was performed to examine any effect of hen age on the feeding ability and mortality of different life-stages of Dermanyssus gallinae [Poultry Red Mite (PRM)] when fed using a high welfare, on-hen mite feeding device. Mite feeding assays were carried out every two weeks on a cohort of five Lohman Brown hens with devices containing adult and deutonymph PRM or adult and protonymph PRM. Feeding rates and mortality of each PRM life stage and oviposition of adult female PRM were evaluated over an 18-week period. There was a significant reduction in oviposition rates of female PRM as they fed on hens of increasing age. However, no clear trend was detected between the feeding rates of all three haematophagous life stages and hen age. The same conclusion was reached regarding mite mortality post-feeding in both deutonymph and adult female PRMs, although a weak positive association was apparent between hen age and protonymph PRM mortality. This study shows that the on-hen feeding device can be used both for short term studies to assess novel anti-PRM products (new acaricides, vaccines etc.) and longer, longitudinal studies to determine longevity of the effects of such novel anti-PRM products. It also demonstrates that blood feeding by mites on older hens is less able to sustain PRM populations than feeding on younger hens. This on-hen mite feeding device directly impacts upon reduction and refinement by greatly reducing the numbers of birds required per experimental group compared to traditional PRM challenge infestation models and by eliminating the need for birds to be exposed to large numbers of mites for extended periods of time that can cause welfare concerns. This paper describes the methodology for these studies and how to assemble pouches and handle mites both before and after feeding assays.

Published

2020

47. Učinkovitost pripravka fluralanera u kontroli tekuti na farmama peradi.

Author

Gottstein, Ž., Lozica, L., Sabolek, I., Miljković, J., Ostović, M., Aladrović, J., Shek-Vugrovečki, A., and Tomić, D. Horvatek

Abstract

Copyright of Deep South Magazine is the property of Deep South Media, LLC and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

48. Transcriptomic analysis of the poultry red mite, Dermanyssus gallinae, across all stages of the lifecycle.

Author

Bartley, Kathryn, Chen, Wan, Lloyd Mills, Richard I., Nunn, Francesca, Price, Daniel R. G., Rombauts, Stephane, Van de Peer, Yves, Roy, Lise, Nisbet, Alasdair J., and Burgess, Stewart T. G.

Subjects

GALLIFORMES, HOUSE dust mites, SALIVARY proteins, CYSTEINE proteinases, ALLERGENS, MITES, SERINE proteinases

Abstract

Background: The blood feeding poultry red mite (PRM), Dermanyssus gallinae, causes substantial economic damage to the egg laying industry worldwide, and is a serious welfare concern for laying hens and poultry house workers. In this study we have investigated the temporal gene expression across the 6 stages/sexes (egg, larvae, protonymph and deutonymph, adult male and adult female) of this neglected parasite in order to understand the temporal expression associated with development, parasitic lifestyle, reproduction and allergen expression. Results: RNA-seq transcript data for the 6 stages were mapped to the PRM genome creating a publicly available gene expression atlas (on the OrcAE platform in conjunction with the PRM genome). Network analysis and clustering of stage-enriched gene expression in PRM resulted in 17 superclusters with stage-specific or multi-stage expression profiles. The 6 stage specific superclusters were clearly demarked from each other and the adult female supercluster contained the most stage specific transcripts (2725), whilst the protonymph supercluster the fewest (165). Fifteen pairwise comparisons performed between the different stages resulted in a total of 6025 Differentially Expressed Genes (DEGs) (P > 0.99). These data were evaluated alongside a Venn/Euler analysis of the top 100 most abundant genes in each stage. An expanded set of cuticle proteins and enzymes (chitinase and metallocarboxypeptidases) were identified in larvae and underpin cuticle formation and ecdysis to the protonymph stage. Two mucin/peritrophic-A salivary proteins (DEGAL6771g00070, DEGAL6824g00220) were highly expressed in the blood-feeding stages, indicating peritrophic membrane formation during feeding. Reproduction-associated vitellogenins were the most abundant transcripts in adult females whilst, in adult males, an expanded set of serine and cysteine proteinases and an epididymal protein (DEGAL6668g00010) were highly abundant. Assessment of the expression patterns of putative homologues of 32 allergen groups from house dust mites indicated a bias in their expression towards the non-feeding larval stage of PRM. Conclusions: This study is the first evaluation of temporal gene expression across all stages of PRM and has provided insight into developmental, feeding, reproduction and survival strategies employed by this mite. The publicly available PRM resource on OrcAE offers a valuable tool for researchers investigating the biology and novel interventions of this parasite. [ABSTRACT FROM AUTHOR]

Published

2021

49. Selection of reference genes for quantitative PCR analysis in poultry red mite (Dermanyssus gallinae).

Author

ARIIZUMI, Takuma, MURATA, Shiro, FUJISAWA, Sotaro, ISEZAKI, Masayoshi, MAEKAWA, Naoya, OKAGAWA, Tomohiro, SATO, Takumi, OISHI, Eiji, TANENO, Akira, KONNAI, Satoru, and OHASHI, Kazuhiko

Subjects

GALLIFORMES, ACARICIDES, ADENOSINE triphosphatase, POULTRY, GENES, MITES

Abstract

Poultry red mites (PRMs, Dermanyssus gallinae) are harmful ectoparasites that affect farmed chickens and cause serious economic losses in the poultry industry worldwide. Acaricides are used for PRM control; however, some PRMs have developed acaricide-resistant properties, which have indicated the need for different approaches for PRM control. Therefore, it is necessary to elucidate the biological status of PRMs to develop alternative PRM control strategies. Quantitative polymerase chain reaction (qPCR) allows analysis of the biological status at the transcript level. However, reference genes are preferable for accurate comparison of expression level changes given the large variation in the quality of the PRM samples collected in each farm. This study aimed to identify candidate reference genes with stable expression levels in the different blood feeding states and life stages of PRMs. First, we selected candidates based on the following criteria: sufficient expression intensity and no significant expression difference between fed and starved states. We selected and characterized seven candidate reference genes. Among them, we evaluated the gene expression stability between the starved and fed states using RefFinder; moreover, we compared their expression levels in each life-stage and identified two reference genes, Elongation factor 1-alpha (ELF1A)-like and apolipophorins-like. Finally, we evaluated the utility of the candidates as reference genes, and the use of ELF1A-like and apolipophorins-like successfully normalized ATP synthase subunit g -like gene expression. Thus, ELF1A-like and apolipophorins-like could be suitable reference genes in PRMs. [ABSTRACT FROM AUTHOR]

Published

2021

50. Characterisation of a cysteine protease from poultry red mites and its potential use as a vaccine for chickens.

Author

Murata, Shiro, Taniguchi, Ayaka, Isezaki, Masayoshi, Fujisawa, Sotaro, Sakai, Eishi, Taneno, Akira, Ichii, Osamu, Ito, Takuya, Maekawa, Naoya, Okagawa, Tomohiro, Konnai, Satoru, and Ohashi, Kazuhiko

Abstract

Copyright of Parasite (1252607X) is the property of EDP Sciences and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021