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Journal articles on the topic 'Dacus'

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Published: 4 June 2021
Last updated: 20 February 2023

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1

Drew, R. A. I., D. L. Hancock, and I. M. White. "Revision of the tropical fruit flies (Diptera : Tephritidae : Dacinae) of South-east Asia. II. Dacus Fabricius." Invertebrate Systematics 12, no. 4 (1998): 567. http://dx.doi.org/10.1071/it96004.

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A total of 44 species are placed in the genus Dacus inSouth-east Asia and divided amongst four subgenera, viz.Callantra Walker, Dacus Fabricius,DidacusCollart and LeptoxydaMacquart. In all, 27 species are revised and the following 17 new speciesdescribed: Dacus (Callantra)ambonensis, D.(C.) atrimarginatus,D. (C.)calirayae, D.(C.)feijeni,D. (C.)insulosus, D.(C.) lagunae,D. (C.)leongi, D.(C.) maculipterus,D. (C.)murphyi, D.(C.) nanggalae,D. (C.)ooii, D.(C.) ramanii,D.(C.)siamensis,D. (C.)tenebrosus, D.(C.) vijaysegarani,D. (C.)wallacei, Dacus(Dacus) santongae. A key tospecies within the genus Dacus is presented based oncharacters that bypass subgeneric groupings, because of the presentuncertainty of subgeneric limits. Information is given on location of typespecimens, host plants, attractant records and geographic distributions.Lectotypes are designated for D. conopsoides de Meijere, D. esakii (Shiraki),D. icariiformis Enderlein andD. persicus Hendel. Thirteen new synonymies withinDacus are established:Callantra ihai Shiraki [ofDacus esakii (Shiraki)];Callantra smieroides Walker,Mellesis destillatoria Bezzi,Mellesis eumenoides Bezzi,Mellesis bioculata Bezzi,Callantra unifasciatus Hardy,Callantra variegata Wang (all ofDacus longicornis Wiedemann);Mellesis apicalis Shiraki [ofDacus nummularius(Bezzi)];Callantra munroi Zaka-ur-Rab,Callantra nepalensis Hardy,Callantra quadristriata Munro [all ofDacus polistiformis (Senior-White)];Callantra ziae Wang [ofDacus satanas (Hering)];Dacus cocciniae Premlata & Awtar Singh (ofDacus ciliatus Loew).Dacus persicus Hendel is removed from synonymy withD. longistylus Wiedemann.Sinodacus fuscans Wang is placed as a new synonym ofBactrocera brachycera(Bezzi).
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2

DAVID, K. J., K. SACHIN, and D. L. HANCOCK. "TWO NEW SPECIES AND A NEW RECORD OF DACUS FABRICIUS (DIPTERA: TEPHRITIDAE) FROM INDIA." Zootaxa 4743, no. 4 (February 27, 2020): 553–60. http://dx.doi.org/10.11646/zootaxa.4743.4.5.

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Two new species of the genus Dacus Fabricius, namely D. (Mellesis) jacobi David & Sachin and D. (Mellesis) viraktamathi David & Hancock of tribe Dacini are described from India. Dacus (Mellesis) maculipterus White is recorded for the first time from India. An updated key to species of genus Dacus from India, Bhutan and Sri Lanka is also provided.
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3

DAVID, K. J., and S. RAMANI. "New species, redescriptions and phylogenetic revision of tribe Dacini (Diptera: Tephritidae: Dacinae) from India based on morphological characters." Zootaxa 4551, no. 2 (January 30, 2019): 101. http://dx.doi.org/10.11646/zootaxa.4551.2.1.

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The tribe Dacini comprising four genera, namely Bactrocera Macquart, Dacus Fabricius, Monacrostichus Bezzi and Zeugodacus Hendel, is a derived lineage in Tephritidae. It is one of the most economically important tribes in Tephritidae harbouring several species of quarantine concern across the world. We describe two new species of Bactrocera Macquart, B. (Parazeugodacus) conica David & Ramani, sp. n. & B. (B.) prabhui David, sp. n. from India. Postabdominal structures of males and/or females of 23 species of Bactrocera, 16 species of Zeugodacus and 8 species of Dacus from India are illustrated and described for the first time, which revealed similarities between Dacus and Zeugodacus with respect to epandrial shape and praeputium patterning. Bactrocera is unique in possessing oval shaped epandrium and an unpatterned praeputium. An analysis of phylogenetic relationships between three genera of the tribe Dacini from India based on morphological characters has been attempted for the first time. Cladistic analysis employing 51 characters of 62 species in Dacini, with seven species as outgroups revealed the monophyly of Dacini, Bactrocera and Dacus with supporting nonhomplasious synapomorphies. Ichneumonopsis Hardy, often included in the Gastrozonini, does not possess any synapomorphies of Dacini, eventhough it appeared at the base of the Dacini clade. Zeugodacus was retrieved as a monophyletic sister-group to Dacus based solely on a single homoplasious host plant character, with weak statistcal support.
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4

Qureshi, Z. A., T. Hussain, and Q. H. Siddiqui. "Interspecific competition of Dacus cucurbitae Coq. and Dacus ciliatus Loew in mixed infestation of cucurbits." Journal of Applied Entomology 104, no. 1-5 (January 12, 1987): 429–32. http://dx.doi.org/10.1111/j.1439-0418.1987.tb00544.x.

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5

Zisopoulou, Stavroula A., Christina K. Chatzinikolaou, John K. Gallos, Anna Ofrydopoulou, Dimitra A. Lambropoulou, Eleni Psochia, Dimitrios N. Bikiaris, and Stavroula G. Nanaki. "Synthesis of Dacus Pheromone, 1,7-Dioxaspiro[5.5]Undecane and Its Encapsulation in PLLA Microspheres for Their Potential Use as Controlled Release Devices." Agronomy 10, no. 7 (July 21, 2020): 1053. http://dx.doi.org/10.3390/agronomy10071053.

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Olive fruit fly Dacus oleae is a well-known pest infecting the bark of olive fruit, leading to reduction of extracted olive oil properties. Among chemicals proposed for Dacus oleae population control, pheromone 1,7-dioxaspiro(5.5)undecane (DSU), Dacus pheromone, is considered as a promising agent, which is added in several traps. However, all proposed systems manage to sufficiently deliver DSU for only two weeks. Furthermore, an additional problem is the limited available amount of pheromone to use in such systems. To overcome this, in the present study, a novel synthetic procedure of DSU is described, including only five steps. Intermediate products were studied by High Resolution Mass Spectroscopy Electrospray Ionization (HRMS-ESI) (m/z), while the resulting DSU was further characterized by 1H and 13C-NMR. Synthesized DSU was further encapsulated in poly(L-lactic acid) (PLLA) microparticles in three different concentrations; 5, 10 and 20% w/w. Its successful incorporation was studied by FT-IR, XRD and differential scanning calorimeter (DSC) while two procedures, liquid extraction and solid phase microextraction, followed by GC-MS analysis, was used for quantification of pheromone to microparticles. It was found that microparticles loading was over 85% for all three formulations. Its release showed a prolonged profile for microparticles containing 20% w/w DSU, lasting four weeks, while the quantity of DSU released reached 100%. These microparticles could be appropriate to control Dacus oleae population.
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6

Kalamatianos, Romanos, Ioannis Karydis, Dimitris Doukakis, and Markos Avlonitis. "DIRT: The Dacus Image Recognition Toolkit." Journal of Imaging 4, no. 11 (October 30, 2018): 129. http://dx.doi.org/10.3390/jimaging4110129.

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Modern agriculture is facing unique challenges in building a sustainable future for food production, in which the reliable detection of plantation threats is of critical importance. The breadth of existing information sources, and their equivalent sensors, can provide a wealth of data which, to be useful, must be transformed into actionable knowledge. Approaches based on Information Communication Technologies (ICT) have been shown to be able to help farmers and related stakeholders make decisions on problems by examining large volumes of data while assessing multiple criteria. In this paper, we address the automated identification (and count the instances) of the major threat of olive trees and their fruit, the Bactrocera Oleae (a.k.a. Dacus) based on images of the commonly used McPhail trap’s contents. Accordingly, we introduce the “Dacus Image Recognition Toolkit” (DIRT), a collection of publicly available data, programming code samples and web-services focused at supporting research aiming at the management the Dacus as well as extensive experimentation on the capability of the proposed dataset in identifying Dacuses using Deep Learning methods. Experimental results indicated performance accuracy (mAP) of 91.52% in identifying Dacuses in trap images featuring various pests. Moreover, the results also indicated a trade-off between image attributes affecting detail, file size and complexity of approaches and mAP performance that can be selectively used to better tackle the needs of each usage scenario.
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7

Nezis, Ioannis P., Dimitrios J. Stravopodis, Lukas H. Margaritis, and Issidora S. Papassideri. "Follicular atresia during Dacus oleae oogenesis." Journal of Insect Physiology 52, no. 3 (March 2006): 282–90. http://dx.doi.org/10.1016/j.jinsphys.2005.11.007.

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8

Vargas, Roger I., and Toshiyuki Nishida. "Survey for Dacus latifrons (Diptera: Tephritidae)." Journal of Economic Entomology 78, no. 6 (December 1, 1985): 1311–14. http://dx.doi.org/10.1093/jee/78.6.1311.

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9

Mora-Márquez, Ana María. "Martinus Dacus and Boethius Dacus on the Signification of Terms and the Truth-Value of Assertions." Vivarium 52, no. 1-2 (February 27, 2014): 23–48. http://dx.doi.org/10.1163/15685349-12341268.

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Abstract The article intends to show: a) that the modist Martin of Dacia sides with the traditional reading of the first chapter of Aristotle’s De interpretatione that we find in masters of arts from the first half of the thirteenth century; and b) that the modist Boethius of Dacia is one of the first thirteenth-century scholars to depart from this reading. In fact, Boethius presents us with an account of propositional verification where the terms’ signification is not operational and where the immediate truth-maker of statements like ‘homo est animal’ is an external state of affairs. In Martin’s case, to the contrary, the terms’ signification is operational in his account of propositional verification and the immediate truth-bearer of such statements is a mental composition or division.
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10

Baker, R., and A. J. Bacon. "The identification of spiroacetals in the volatile secretions of two species of fruit fly (Dacus dorsalis, Dacus curcurbitae)." Experientia 41, no. 11 (November 1985): 1484–85. http://dx.doi.org/10.1007/bf01950049.

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11

Mavragani-Tsipidou, P., G. Karamanlidou, A. Zacharopoulou, S. Koliais, and C. Kastritsis. "Mitotic and polytene chromosome analysis in Dacus oleae (Diptera: Tephritidae)." Genome 35, no. 3 (June 1, 1992): 373–78. http://dx.doi.org/10.1139/g92-056.

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The present study constitutes the first attempt to construct a photographic map of the polytene chromosomes of Dacus oleae, a pest of the olive tree that causes serious financial damage in all olive oil producing countries. The map was constructed by using the larval fat body cells, the chromosomes of which are representative of the polytene chromosomes of other polytene tissues. In addition, the mitotic chromosomes of brain ganglia were examined, permitting tentative correlations between mitotic and polytene elements. This investigation shows that D. oleae is suitable for cytogenetic analysis in both mitotic and polytene chromosomes, a fact that may prove very useful for obtaining more detailed genetic information on the pest's natural populations.Key words: Dacus oleae, polytene chromosomes, mitotic chromosomes.
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12

Zambetaki, Anna, Kleanthis Kleanthous, and Penelope Mavragani-Tsipidou. "Cytogenetic analysis of Malpighian tubule and salivary gland polytene chromosomes of Bactrocera oleae (Dacus oleae) (Diptera: Tephritidae)." Genome 38, no. 6 (December 1, 1995): 1070–81. http://dx.doi.org/10.1139/g95-143.

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Photomaps of the Malpighian tubule and the salivary gland polytene chromosomes of Bactrocera oleae (Dacus oleae) are presented and compared with those of the fat body. Five polytene chromosomes (10 polytene arms) corresponding to the five autosomes of the mitotic nuclei, as well as a heterochromatic mass corresponding to the sex chromosomes, are observed in the nuclei of the three somatic tissues. The most prominent features of each polytene chromosome, the reverse tandem duplications, as well as the rather unusual ectopic pairing of the telomeric regions of different chromosome arms, are described. The constancy of the banding pattern based on the analysis of the three larval tissues is discussed.Key words: Bactrocera oleae (Dacus oleae), polytene chromosomes, salivary gland, Malpighian tubule, banding pattern.
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13

Metcalf, R. L., E. R. Metcalf, and W. C. Mitchell. "Benzyl acetates as attractants for the male oriental fruit fly, Dacus dorsalis, and the male melon fly, Dacus cucurbitae." Proceedings of the National Academy of Sciences 83, no. 6 (March 1, 1986): 1549–53. http://dx.doi.org/10.1073/pnas.83.6.1549.

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14

Sampath, Vivek, and Philipp Simon. "Genetic Variation and Mapping of the Carrot Nuclear and Chloroplast Genomes." HortScience 30, no. 4 (July 1995): 855A—855. http://dx.doi.org/10.21273/hortsci.30.4.855a.

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Studies of genetic variation at the DNA level in the genus Dacus have been very limited. Molecular markers based on restriction fragment length polymorphism (RFLP) have been highly useful and efficient gene markers in other plant species. We have evaluated the chloroplast genome of 19 Dacus species and inbreds cut with 10 restriction enzymes and probed with 14 petunia chloroplast clones. A phylogenetic tree generated to date shows three major groupings of these accessions as seen with data generated by an earlier study using nuclear RFLPs. However, D. glochidiatus and D. guttatus are in different groups. Details of the chloroplast study will be discussed. Also, a genetic linkage map of carrot will be constructed. The map will be used to determine the genomic regions conditioning traits such as pigmentation root and core diameter, and root length.
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15

Fytizas, E. "Evolution de Dacus oleae Pendant le Stade Pupal." Zeitschrift für Angewandte Entomologie 71, no. 1-4 (August 26, 2009): 1–6. http://dx.doi.org/10.1111/j.1439-0418.1972.tb01714.x.

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16

Souliotis, Vassilis, Meropi Patrinou-Georgoula, Vasso Zongza, and Giorgos J. Dimitriadis. "Cuticle proteins during the development of Dacus oleae." Insect Biochemistry 18, no. 5 (January 1988): 485–92. http://dx.doi.org/10.1016/0020-1790(88)90066-2.

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17

DREW, R. A. I., D. L. HANCOCK, and I. M. WHITE. "The Identity of Dacus limbipennis Macquart (Diptera: Tephritidae)." Australian Journal of Entomology 33, no. 4 (November 1994): 376. http://dx.doi.org/10.1111/j.1440-6055.1994.tb01252.x.

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18

S. AL-Jorany, Redha. "RELATIVE INCIDENCE OF GREATER MELON FLY,Dacus frontalis Becker AND CUCURBIT FLY, Dacus ciliates Loew ON CUCUMBER Cucumis sativus (L.) ." Mesopotamia Journal of Agriculture 41 (February 28, 2013): 88–94. http://dx.doi.org/10.33899/magrj.2013.83910.

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19

Sommer, Noel F., and F. Gordon Mitchell. "Gamma Irradiation—A Quarantine Treatment for Fresh Fruits and Vegetables?" HortScience 21, no. 3 (June 1986): 356–60. http://dx.doi.org/10.21273/hortsci.21.3.356.

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Abstract The multibillion-dollar United States fresh fruit and vegetable industries are under threat because of actual or potential quarantines that may be imposed within hours or days if any one of many insect pests are introduced (40; P.V. Vail, personal communication). California, Florida, Texas, and Hawaii are particularly vulnerable because their climates are favorable for fruit fly species, and important shares of their produce enter into interstate and international trade. The 1980-82 California infestation by the Mediterranean fruit fly, Ceratitis capitata (Wied.), was eradicated. The Caribbean fruit fly, Anastrepha suspensa (Loew), is currently being fought in Florida and the Mexican fruit fly, Anastrepha ludens (Loew), poses a problem in Texas. In Hawaii, 3 fruit flies are endemic. They are the Oriental fruit fly, Dacus dorsalis (Hend.), the melon fly, Dacus cucurhitae (Coq.), as well as the Mediterranean fruit fly. The Queensland fruit fly, Strumeta tryoni (Froggatt), is endemic in parts of Australia and threatens to become much more widely distributed.
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20

Margaritis, Lukas H. "Comparative study of the eggshell of the fruit flies Dacus oleae and Ceratitis capitata (Diptera: Trypetidae)." Canadian Journal of Zoology 63, no. 9 (September 1, 1985): 2194–206. http://dx.doi.org/10.1139/z85-324.

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The eggshell of two fruit flies of economic importance has been studied by means of light and electron microscopy. The eggshell of the olive fruit fly, Dacus oleae, contains compact endochorion, whereas that of the Mediterranean fruit fly, Ceratitis capitata, exhibits a holey endochorionic layer. The eggshells of both species have an innermost chorionic layer which appears to be crystalline in substructure. The anterior pole in each case contains the micropylar canal but in addition it bears an elaborate "cup" in Dacus oleae. Both species exhibit peroxidase activity in most eggshell layers and, as in the case of Drosophila melanogaster, it is thought that the enzyme causes covalent cross-linking of the eggshell proteins producing a resilin-type configuration with rubberlike properties. The above features are related to specific structural functions of the eggshell during fertilization, oviposition, and respiration of the embryo. Biochemical analysis has revealed that the two species have very few eggshell proteins that are similar in molecular weight.
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21

Michelakis, S. E. "THE OLIVE FLY (DACUS OLEAE GMEL.) IN CRETE, GREECE." Acta Horticulturae, no. 286 (December 1990): 371–74. http://dx.doi.org/10.17660/actahortic.1990.286.76.

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22

Parlati, M. V., G. Petruccioli, and S. Pandolfi. "EFFECTS OF THE DACUS INFESTATION ON THE OIL QUALITY." Acta Horticulturae, no. 286 (December 1990): 387–90. http://dx.doi.org/10.17660/actahortic.1990.286.80.

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23

Singh, G. "INTEGRATED MANAGEMENT OF BACTROCERA (DACUS) DORSALIS (HENDEL) IN MANGOES." Acta Horticulturae, no. 455 (August 1997): 821–28. http://dx.doi.org/10.17660/actahortic.1997.455.104.

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24

Dominici, M., C. Pucci, and G. E. Montanari. "Dacus oleae(Gmel.) ovipositing in olive drupes (Diptera, Tephrytidae)." Journal of Applied Entomology 101, no. 1-5 (January 12, 1986): 111–20. http://dx.doi.org/10.1111/j.1439-0418.1986.tb00838.x.

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25

Fytizas, E., and P. A. Mourikis. "Sensibilité des différents stades de Dacus oleae à l'Altosid." Zeitschrift für Angewandte Entomologie 84, no. 1-4 (August 26, 2009): 107–12. http://dx.doi.org/10.1111/j.1439-0418.1977.tb04269.x.

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26

Prophetou-Athanasiadou, D. A., M. E. Tzanakakis, D. Myroyannis &, and G. Sakas. "Deterrence of oviposition in Dacus oleae by copper hydroxide." Entomologia Experimentalis et Applicata 61, no. 1 (October 1991): 1–5. http://dx.doi.org/10.1111/j.1570-7458.1991.tb02389.x.

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27

Eisemann, C. H., and M. J. Rice. "Attractants for the gravid Queensland fruit fly Dacus tryoni." Entomologia Experimentalis et Applicata 62, no. 2 (February 1992): 125–30. http://dx.doi.org/10.1111/j.1570-7458.1992.tb00651.x.

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28

MICHELAKIS, S. E. "Parasitoids for the control of Dacus oleae in Crete." EPPO Bulletin 16, no. 2 (June 1986): 389–93. http://dx.doi.org/10.1111/j.1365-2338.1986.tb00293.x.

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29

Manousis, T., and N. F. Moore. "Control of Dacus oleae, a major pest of olives." International Journal of Tropical Insect Science 8, no. 01 (February 1987): 1–9. http://dx.doi.org/10.1017/s1742758400006858.

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30

Anagnou-Veroniki, M., J. C. Veyrunes, G. Kuhl, and M. Bergoin. "A nonoccluded reovirus of the olive fly, Dacus oleae." Journal of General Virology 78, no. 1 (January 1, 1997): 259–63. http://dx.doi.org/10.1099/0022-1317-78-1-259.

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31

Murphy, KM, IC Mac Rae, and DS Teakle. "Nitrogenase Activity in the Queensland Fruit Fly, Dacus tryoni." Australian Journal of Biological Sciences 41, no. 4 (1988): 447. http://dx.doi.org/10.1071/bi9880447.

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When 5-day-old laboratory-raised Queensland fruit flies (Dacus tryoni) were fed a dinitrogen-fixing bacterial strain of Klebsiella oxytoca isolated from the crop of a wild fly, acetylene reduction (nitrogenase) activity associated with the flies was detected after 2 to 3 days and persisted for at least 22 days. Flies not fed the dinitrogen-fixing strain were negative for acetylene reduction until 21 days after emergence. Presumably such dinitrogen-fixing bacteria are able to supply some Queensland fruit flies with a small part of their nitrogen requirements, but its importance is unknown.
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32

Burditt, A. K., and J. W. Balock. "Refrigeration as a Quarantine Treatment for Fruits and Vegetables Infested with Eggs and Larvae of Dacus dorsalis and Dacus cucurbitae (Diptera: Tephritidae)1." Journal of Economic Entomology 78, no. 4 (August 1, 1985): 885–87. http://dx.doi.org/10.1093/jee/78.4.885.

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33

Spasov, Mire, and Icko Gjorgoski. "THE DIAGNOSIS OF DAUCUS CAROTA AS ALERGOGEN ON THE IMMUNE SYSTEM IN WHITE LABORATORY RAT." Teacher of the future 31, no. 4 (June 5, 2019): 969–74. http://dx.doi.org/10.35120/kij3104969s.

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The allergic reaction or type I hypersensitivity is a hypersensitive disorder to the immune system, which occurs by ingress of non-pathogenic agents from the external environment in the body. Antigens, in this case allergens, are substances from the environment that are harmless to most people. In allergies there is an inherent tendency to inherit the genes that make these people susceptible to allergies. Rapid sensitization may occur as a local reaction, which is just unpleasant (seasonal rhinitis or hay fever), severe exhaustion (asthma), or culminating in a fatal systemic disorder (anaphylaxis). Allergens in the body are inserted by inhalation, ingestion or injection, and move to mucous membranes, where they are accepted by T-lymphocytes. TN2 lymphocytes produce IL-4, which stimulate B-lymphocytes to differentiate into plasma cells. These cells excrete IgE, which recognize allergens. Excreted IgE antibodies sensitize mast cells that originate from the bone marrow. When sensitized individuals again expose themselves to an allergen from the external environment, they bind to specific IgE-antibodies to the mast cells (memory cells), whereby various mediators are excreted, causing inflammatory response, mucus secretion, vasoconstriction of blood vessels, and spasm of the airways. The aim of the study was to investigate the allergenic effect of Daucus carotte on the change in the number of leukocytes, lymphocytes, monocytes, granulocytes, basophils, and immunoglobulins as important components of the immune system. From the pollen of this plant, recombinant allergen is extracted, in the form of injections with a volume of 150μI. In the experiments, as experimental models were used Wistar white rats at the age of 6 to 9 weeks. We injected the allergen into the first, second, third and fourth week in a group of 6 rats in an amount of 5 μl and a second group of 6 rats in an amount of 2.5 μl allergen absorbed in 100 μl AI (OH) 3 (Serva, Heidelburg, Germany, 2 μg / mI) in a total volume of 150μI sterile PbS. The third group of 6 rats was a control group. The results showed that the Dacus carota causes an allergic reaction in Wistar white rats and its intensity depends directly on the volume of the allergen and the individuals that come into contact with it. Once we compared the values of blood parameters, leukocytes, lymphocytes, monocytes, granulocytes, and basophils, as well as the IgG, IgG1, IgG2a, and IgE IgG, IgG1, IgG2a, and IgE concentrations, we concluded that the higher concentration of Daucus carota causes a higher elevation in blood parameters and concentrations of immunoglobulins, compared to the smaller concentration of the same allergen. From the studies conducted over a period of one month, it was found that Dacus carota causes an allergic reaction, which is classified in Type I hypersensitivity in white laboratory rats of the Wistar strain.
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34

S., Khater,. "Histopathological Effects of Azadirachtin on Dacus ciliatus Loew (Diptera: Tephritidae)." Egyptian Academic Journal of Biological Sciences, D. Histology & Histochemistry 12, no. 1 (June 1, 2020): 91–104. http://dx.doi.org/10.21608/eajbsd.2020.91502.

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35

Singh, G. "LOSS ASSESSMENT, ECOLOGY AND MANAGEMENT OF MANGO FRUITFLY, DACUS SP." Acta Horticulturae, no. 291 (June 1991): 425–36. http://dx.doi.org/10.17660/actahortic.1991.291.49.

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36

Neuenschwander, P., and S. Michelakis. "Olive fruit drop caused by Dacus oleae (Gmel.) (Dipt. Tephritidae)." Zeitschrift für Angewandte Entomologie 91, no. 1-5 (August 26, 2009): 193–205. http://dx.doi.org/10.1111/j.1439-0418.1981.tb04467.x.

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Loher, W., and G. Zervas. "The mating rhythm of the olive fruitfly, Dacus oleae Gmelin." Zeitschrift für Angewandte Entomologie 88, no. 1-5 (August 26, 2009): 425–35. http://dx.doi.org/10.1111/j.1439-0418.1979.tb02519.x.

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Vargas, Roger I., and Shizuko Mitchell. "Two Artificial Larval Diets for Rearing Dacus latifrons (Diptera: Tephritidae)." Journal of Economic Entomology 80, no. 6 (December 1, 1987): 1337–39. http://dx.doi.org/10.1093/jee/80.6.1337.

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Nemny-Lavy, Esther, and David Nestel. "Protein requirements of the adult Ethiopian fruit fly Dacus ciliatus." International Journal of Tropical Insect Science 34, S1 (September 4, 2014): S140—S147. http://dx.doi.org/10.1017/s1742758414000198.

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Elfekih, Samia, and Mohamed Makni. "Mitochondrial DNA Markers in Populations of Dacus punctatifrons (Diptera: Tephritidae)." Florida Entomologist 92, no. 3 (September 1, 2009): 518. http://dx.doi.org/10.1653/024.092.0320.

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Levedakou, Eleni N., and Constantine E. Sekeris. "Isolation and characterization of vitellin from the fruitfly,Dacus oleae." Archives of Insect Biochemistry and Physiology 4, no. 4 (April 1987): 297–311. http://dx.doi.org/10.1002/arch.940040407.

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Manousis, T., S. M. Eley, J. S. K. Pullin, Α. Labropoulos, and N. F. Moore. "Preliminary search for a νirus in Dacus oleae Gmel. populations in Northern Greece." ENTOMOLOGIA HELLENICA 4 (May 29, 2017): 15. http://dx.doi.org/10.12681/eh.13927.

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A large number of larvae of Dacus oleae were collected from infested olives in Northern Greece, and a small proportion of these were found to be dead. Adult flies were caught in McPhail traps at the same locations. The larvae and adults were fractionated by a series of steps designed to identify occluded and nonoccluded viruses. Virus-like particles were identified in small amounts only in the dead larvae.
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Harbi, Ahlem, Salma Djebbi, Chahnez Naccache, Khaled Abbes, Brahim Chermiti, and Maha Mezghani Khemakhem. "Identification and differentiation of the cryptic cucurbit fruit fly species Dacus frontalis, Dacus ciliatus and Bactrocera cucurbitae (Diptera: Tephritidae) using PCR–RFLP for quarantine applications." International Journal of Tropical Insect Science 42, no. 2 (January 26, 2022): 2041–47. http://dx.doi.org/10.1007/s42690-021-00718-x.

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SINGH, MANEESH PAL, ISHA SHARMA, DAVID LAWRENCE HANCOCK, and CHANDRA SHEKHAR PRABHAKAR. "A new species of Bactrocera Macquart and a new distribution record of Dacus Fabricius (Diptera: Tephritidae: Dacinae) from India." Zootaxa 5168, no. 2 (July 21, 2022): 237–50. http://dx.doi.org/10.11646/zootaxa.5168.2.9.

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A new species of Bactrocera Macquart, Bactrocera (Bactrocera) divenderi Maneesh, Hancock and Prabhakar, sp. n., is described from Himachal Pradesh, Northern India and also recorded from Bhutan and northern Pakistan. It belongs to the B. (B.) nigrotibialis complex and a key to the complex is provided. Dacus (Mellesis) fletcheri Drew is newly recorded from India and records of B. (B.) invadens Drew, Tsuruta & White from the Himalayan region are discussed.
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Prokopy, Ronald J., Thomas A. Green, Wavel A. Olson, Roger I. Vargas, Dale Kanehisa, and Tim T. Y. Wong. "Discrimination by Dacus dorsalis Females (Diptera: Tephritidae) against Larval-Infested Fruit." Florida Entomologist 72, no. 2 (June 1989): 319. http://dx.doi.org/10.2307/3494913.

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Neuenschwander, P. "Searching parasitoids of Dacus oleae (Gmel.) (Dipt., Tephritidae) in South Africa." Zeitschrift für Angewandte Entomologie 94, no. 1-5 (August 26, 2009): 509–22. http://dx.doi.org/10.1111/j.1439-0418.1982.tb02598.x.

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Al-Zaghal, Kh, and T. Mustafa. "Flight activity of the olive fruit fly (Dacus oleaeGmelin) in Jordan." Journal of Applied Entomology 102, no. 1-5 (January 12, 1986): 58–62. http://dx.doi.org/10.1111/j.1439-0418.1986.tb00893.x.

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Tsitsipis, J. A., and Α. Kontos. "Improved solid adult diet for the olive fruit fly, Dacus oleae." ENTOMOLOGIA HELLENICA 1 (May 25, 2017): 24. http://dx.doi.org/10.12681/eh.13890.

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Egg production of the olive fruit fly, Dacus oleae (Gmelin) (Diptera: Tephritidae), was higher when insects fed on a liquid diet than on the same diet made solid by enriching it with various amounts of cellite or cellulose. Comparison of a liquid with a solid diet, both composed of water: sucrose: yeast hydrolyzate: chicken egg yolk at ratios 5:4: 1:0.7 and 0:4: 1:0.7 respectively, given to olive fruit flies kept in pairs, showed that egg production was higher on the liquid diet. With grouped insects, however (30 pairs per cage), egg production. expressed per initial female, was higher with the solid diet. The difference was due to the lower mortality that occurred on the solid diet. Dry egg yolk could substitute fresh egg yolk. Among solid diets differing in the concentration of egg yolk, yeast hydrolyzate, and the presence of vitamins and cholesterol, the diet that gave the highest egg production contained 80 parts sucrose, 30 parts yeast hydrolyzate, and 6.6 parts dry egg yolk.
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Fytizas, E. "Evolution de Dacus oleae (Gmel.) (Dipt., Trypetidae) Pendant le Stade Pupal." Zeitschrift für Angewandte Entomologie 69, no. 1-4 (August 26, 2009): 278–84. http://dx.doi.org/10.1111/j.1439-0418.1971.tb03210.x.

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Fytizas, E. "Quelques Observations sur la Spermatogenèse de Dacus oleae Gmel. (Diptera: Tephritidae)." Zeitschrift für Angewandte Entomologie 73, no. 1-4 (August 26, 2009): 74–82. http://dx.doi.org/10.1111/j.1439-0418.1973.tb02269.x.

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