Uszkodzenia mechaniczne i pozycja Varroa destructor na dennicy ula po zastosowaniu różnych środków warroabójczych

• Autorzy: Howis M. , Chorbinski P. , Nowakowski P.

Warianty tytułu

EN

Physical damage to the chitin plate and position of Varroa destructor on hive bottoms after use of different varroacidal treatments

• Języki publikacji: PL

Abstrakty

EN

The aim of research was to characterize the share of physical damage to the chitin plate and the position of fallen mites on hive boards after use of different varroacidal treatments. Bee colonies (Apis mellifera carnica) were not treated or treated with organic acids (formic, lactic and oxalic), Beevital Hive Clean (F&B GmbH, Austria) and Apiwarol AS (Biowet - Poland) - 10 colonies per treatment. Mites that fell on paper with glue on solid boards after varroacidal treatments (n = 200 mites/group) were analyzed for physical damage to the chitin plate (indentation or rupture) and position of the mite’s body after fall (natural - with legs directed to the bottom or upside down). Natural fall of mites in bee colonies without any treatment characterized with approximately 20% of mites with physical damage to chitin plate and with nearly 50:50 share of mites in the natural position (45.5%) vs. upside down (54.5%). The fall of mites from bee colonies differed due to the use of varroacidal treatment. Significant differences in physical damage share to mites’ chitin plate were observed after use of Apiwarol AS, formic acid, lactic acid, oxalic acid and Beevital Hive Clean preparation; respectively 1.5, 17.0, 12.0, 33.0 and 31.0% (P ≤ 0.05). The high incidence of physical damage to the chitin plate while using oxalic acid and Beevital Hive Clean indicate the direct activity of bees in removal of mites. The share of the mite fall position on the bottom (natural and upside down) did not differ to the natural fall of dead mites after use of oxalic acid (49.0 vs. 51.0 %) and Beevital Hive Clean preparation (51.5 vs. 48.5%) in contrast to fallen mites obtained after use of Apiwarol AS (13.5 vs. 86.5%), formic acid (25.5 vs. 74.5%) and lactic acid (38.5 vs. 61.5%). Significant differences observed in the picture of the mite fall may be used as a diagnostic tool for discriminating between different varroacidal treatments used in field examinations.

Słowa kluczowe

PL

pszczoly; pszczola miodna; Apis mellifera; warroza; pasozyty zwierzat; zwalczanie pasozytow zwierzat; srodki warroabojcze; Apiwarol AS; kwas mrowkowy; kwas mlekowy; kwas szczawiowy; preparat BeeVital HiveClean; Varroa destructor; osyp pasozytow; uszkodzenia mechaniczne; pozycja na dennicy ula; pozycja naturalna; pozycja odwrocona

• Wydawca: -
• Czasopismo: Medycyna Weterynaryjna
• Rocznik: 2012
• Tom: 68
• Numer: 10
• Opis fizyczny: s.607-611,rys.,fot.,tab.,bibliogr.

Twórcy

autor

Howis M.

• Instytut Hodowli Zwierząt, Wydział Biologii i Hodowli Zwierząt, Uniwersytet Przyrodniczy we Wrocławiu, ul.Chełmońskiego 38c, 51-630 Wrocław

autor

Chorbinski P.

autor

Nowakowski P.

Bibliografia

• 1.Akyol E., Yeninar H.: Use of oxalic acid to control Varroa destructor in honey bee (Apis mellifera L.) colonies. Turk. J. Vet. Anim. Sci. 2009, 33 (4), 285-288.
• 2.Anderson D. L., Trueman J. W. H.: Varroa jacobsoni (Acari: Varroidae) is more than one species. Exp. Appl. Acarol. 2000, 24, 165-189.
• 3.Aumeier P.: Bioassay for grooming effectiveness towards Varroa destructor mites in Africanized and Carniolan honey bees. Apidologie 2001, 32, 81-90.
• 4.Ball B. V.: Acute paralysis virus isolated from honey bee colonies infested with Varroa jacobsoni. J. Apicult. Res. 1985, 24, 115.
• 5.Ball B. V., Allen M. F.: The prevalence of pathogens in honey bee (Apis mellifera) colonies infested with the parasitic mite Varroa jacobsoni. Ann. Appl. Biol. 1988, 113, 237-244.
• 6.Boecking O.: Defences of bees against Varroa jacobsoni defence mechanisms in Apis cerana and Apis mellifera. Deut. Imker J. 1992, 11, 426-430.
• 7.Bogdanov S.: Contaminants of bee products. Apidologie 2006, 37 (1), 1-18.
• 8.Chmielewski M., Buczek K., Pliszczyński M.: Odporność pszczoły miodnej (Apis mellifera L.) w inwazjach pasożytniczych. Ann. UMCS, sec. DD, 2007, vol. LXII (1), 15-19.
• 9.Cymborowski B.: Serotonin modulates a photic response in circadian locomotor rhythmicity of adults of the blow fly, Calliphora vicina. Physiol. Entomol. 1998, 23, 25-32.
• 10.Delfinado-Baker M., Aggarwal K.: A new Varroa (Acari: Varroidae) from the nest of Apis cerana (Apidae). Int. J. Acarol. 1987, 13, 233-237.
• 11.Durst C., Eichmüller S., Menzel R.: Development and experience lead to increased volume of subcompartments of the honeybee mushroom body. Behav. Neural Biol. 1994, 62 (3), 259-263.
• 12.Elzen P. J., Baxter J. R., Spivak M., Wilson W. T.: Control of Varroa jacobsoni Oud resistant to fluvalinate and amitraz using coumaphos. Apidologie 2000, 31, 437-441.
• 13.Engelsdorp D. van, Evans J. D., Saegerman C., Mullin C., Haubruge E., Nguyen B. K., Frazier M., Frazier J., Cox-Foster D., Chen Y., Underwood R., Tarpy D. R., Pettis J. S.: Colony collapse disorder: a descriptive study. PLoS One 2009, 4 (8), e6481.
• 14.Fahrbach S. E., Robinson G. E.: Juvenile hormone, behavioral maturation, and brain structure in the honey bee. Dev. Neurosci. 1996, 18, 102-114.
• 15.Gliński Z., Jarosz J.: Alterations in haemolymph proteins of drone honey bee larvae parasitizedby Varroa jacobsoni. Apidologie 1984, 15, 329-338.
• 16.Gliński Z., Jarosz J.: Varroa jacobsoni as a carrier of bacterial infections to a recipient bee host. Apidologie 1992, 23, 25-31.
• 17.Guzman L. I. de, Delfinado-Baker M.: A new species of Varroa (Acari: Varroidae) associated with Apis koschevnikovi (Apidae: Hymenoptera) in Borneo. Int. J. Acarol. 1996, 22, 23-27.
• 18.Harris J. W., Wooddring J.: Effects of stress, age, season and source colony on levels of octopamine, dopamine and serotonin in the honey bees (Apis mellifera L.). J. Insect. Physiol. 1992, 38, 29-35.
• 19.Hillesheim E., Ritter W., Bassand D.: First data on resistance mechanisms of Varroa jacobsoni (OUD.) against tau-fluvalinate. Exp. Appl. Acarol. 1996, 20, 283-296.
• 20.Howis M., Nowakowski P.: Varroa destructor removal efficiency using Beevital Hive Clean preparation. J. Apic. Sci. 2009, 53 (2), 15-20.
• 21.Huang Z. Y., Robinson G. E.: Honeybee colony integration: worker-worker interactions mediate hormonally regulated plasticity in division of labor. Proc. Natl. Acad. Sci. USA 1992, 89, 11726-11729.
• 22.Koeniger N., Koeniger G., Wijayagunasekera N. H. P.: Observations on the adaptation of Varroa jacobsoni to its natural host Apis cerana in Sri Lanka. Apidologie 1981, 12, 37-40.
• 23.Konopacka Z., Gerula D., Bieńkowska M.: Skuteczność warroabójcza dostępnych w Polsce preparatów w badaniach Oddziału Pszczelnictwa. Pszczeln. Zesz. Nauk. 2002, 39, 56-57.
• 24.Kraus B.: Further results on lactic acid application as treatment for varroatosis. Apidologie 1992, 23 (4), 385-387.
• 25.Kraus B., Berg S.: Effect of a lactic acid treatment during winter in temperate climate upon Varroa jacobsoni Oud. and the bee (Apis mellifera L.) colony. Exp. Appl. Acarol. 1994, 18 (8), 459-468.
• 26.Lindberg C. M., Melathopoulos A. P., Winston M. L.: Laboratory evaluation of miticides to control Varroa jacobsoni (Acari: Varroidae), a honey bee (Hymenoptera: Apidae) parasite. J. Econ. Entomol. 2000, 93 (2), 189-198.
• 27.Martel A. C., Zeggane S., Aurieres C., Drajnudel P., Faucon J. P., Aubert M.: Acaricide residues in honey and wax after treatment of honey bee colonies with Apivar (R) or Asuntol (R) 50. Apidologie 2007, 38 (6), 534-544.
• 28.Milani N.: The resistance of Varroa jacobsoni Oud. to acaricides. Apidologie 1999, 30, 229-234.
• 29.Milani N.: The resistance of Varroa jacobsoni Oud. to pyrethroids - a laboratory assay. Apidologie 1995, 26, 415-429.
• 30.Miranda J., Cameron C., Camazine S.: Bees, Varroa and viruses. Final Programme and Bookof Abstracts XXXVIIIth Apimondia Int. Apicult. Congr. Ljubljana, August 24-29, 2003, p. 520.
• 31.Mutinelli F., Cremasco S., Irsara A., Baggio A., Nanetti A., Massi S.: Organic acids and Api Life VAR in the control of varroosis in Italy. Apiculture-Moderno 1996, 87 (3), 99-104.
• 32.Narayanappa N., Rajagopal D., Gowda G.: Resistance mechanizm of European honeybee (Apis mellifera) against brood mite, Tropilaelaps clareae. Final Programme and Book of Abstracts XXXVIIIth Apimondia Int. Apicult. Congr. Ljubljana, August 24-29, 2003, p. 196.
• 33.Oldroyd B. P.: Coevolution while you wait: Varroa jacobsoni, a new parasite of western honeybees. Trends Ecol. Evol. 1999, 14, 312-315.
• 34.Oudemans A. C.: On a new genus and species of parasitic acari. Notes from the Leyden Museum. 1904, 24, 216-222.
• 35.Peng Y. S., Fang Y., Xu S., Ge L., Nasr M. E.: Response of foster Asian honey bee (Apis cerana Fabr.) colonies to the brood of European honey bee (Apis mellifera L.) infested with parasitic mite Varroa jacobsoni Oudemanns. J. Invertebr. Pathol. 1987, 49, 259-264.
• 36.Randy O.: Fat Bees Part 1 Am. Bee J. 2007, August.
• 37.Rachinsky A.: Octopamine and Serotonin influence on corpora allata activity in Honey bee (Apis mellifera) larvae. J. Insect Physiol. 1994, 40 (7), 549-554.
• 38.Satta A., Floris I., Eguaras M., Cabras P., Garau V. L., Melis M.: Formic acidbased treatments for control of Varroa destructor in a mediterranean area. J. Econ. Entomol. 2005, 98 (2), 267-273.
• 39.Tobe S. S., Stay B.: Structure and regulation of the corpus allatum. Adv. Insect. Physiol. 1985, 18, 305-432.
• 40.Wallner K.: Varroa cides and their residues in bee products. Apidologie 30, 1992, 35-248.
• 41.Wyatt G. R., Davey K. G.: Cellular and molecular actions of juvenile hormone. II. Roles of juvenile hormones in adult insects. Adv. Insect. Physiol. 1996, 26, 1-155.