> It is a very interesting matter. Where I can found this information?
>Can you send to Bee-L or private e-mail to me a relation of names,
>dates, articles and publications about the use of MO in 60īs decade?.
See below.
I like that way some people are waking up to the 'power of the internet'
thing. As individuals we don't have a chance of performing the type of
study needed to get EPA/FDA approval, but as a group there might be a
chance as long as everyone involved follows the same protocols. It used to
be that the internet was for scientists and defense guys to share research
results and information, but now everyone is on so let's take advantage of
it.
Let's not get discouraged about contacting these agencies. I looked up EPA
and FDA contacts on the WWW this morning. Here are some pages and numbers
to go after:
http://www.epa.gov/opp00001/chemreg.htm
http://www.epa.gov/PesticideApplication/
http://vm.cfsan.fda.gov/~lrd/pestadd.html
These are just a beginning. If we're really interested in making this
work, it will take some effort.
This is just a sampling of what I found. If anyone is interested in more I
can attach the full search or Endnote libraries of the search to private
emails in a couple of days (Paul Bashore, you're already on the list).
Few of these deal with the mites we're interested in, but the method of
action should be similar.
AN 70:56677 CA
TI Use of toxic chemicals to control the wintering stages phases of the
fruit spider red ***mite*** (Metatetranylchus ulmi) and
Brevipalpus oudemansi
AU Gagunashvili, B. D.
CS USSR
SO Tr. Inst. Zashch. Rast., Tiflis (1967), 19, 341-8
CODEN: TIZRB2
DT Journal
LA Georgian
CC 19 (Pesticides)
AB Tests carried out in winter showed that the application of 0.4-0.8%
dinitro-o-cresol (DNOC) and mixts. of ***mineral*** ***oil***
and DNOC gives good results against the eggs of M. ulmi, but only
after embryo development within the egg. Mixts. of DNOC and
***mineral*** ***oil*** are also effective against the adults
of B. oudemansi. Good results can be obtained by using 15%
emulsions of concd. polyvinyl acetate (PVA), which is not toxic but
can supply a mech. action.
ST mites dinitrocresol; dinitrocresol mites; Brevipalpus dinitrocresol
IT Acaricides
(dinitrocresol, for fruit spider red ***mite*** control)
IT Brevipalpus
(oudemansi, control of, by dinitrocresol)
IT Metatetranychus
(ulmi, control of, by dinitrocresol)
IT 534-52-1
RL: BIOL (Biological study)
(fruit spider red ***mite*** control by)
AN 84:70301 CA
TI Possibility of decreasing the number of pesticide treatments in
citrus orchards
AU Geguchadze, A. V.
CS USSR
SO Tr. Nauchno-Issled. Inst. Zashch. Rast. (Tiflis) (1974), 26, 237-45
CODEN: TNIRDM
DT Journal
LA Georgian
CC 5-4 (Agrochemicals)
AB The no. of necessary treatments in citrus orchards was decreased
from 6 to 4, by increasing prepn. 30 [11111-66-3] concn. from 2 to
3%, and by including zineb [12122-67-7] into the compns. Zineb was
effective against the silver ***mite*** . Concomitantly the Bi
58 [60-51-5] content was decreased from 0.2 to 0.05%, so as to
decrease the toxicity of the mixts. to beneficial entomophages and
acariphages such as Cryptolemus, Lindorus, Stetorus, Tydeus and
Phytoseidae. Zineb and ***mineral*** ***oil*** emulsions
were the least toxic to the beneficial predators and parasites.
ST citrus zineb Bi 58; insect predator insecticide
IT Hydrocarbon oils
RL: BIOL (Biological study)
(pest control by, on citrus trees)
IT 12122-67-7
RL: BIOL (Biological study)
(Phyllocoptes oleivorus control by, on citrus trees)
IT 60-51-5 11111-66-3
RL: BIOL (Biological study)
(pest control by, on citrus trees)
AN 105:20496 CA
TI Control of rust ***mite*** in citrus
AU De Oliveira, Carlos Amadeu L.
CS Dep. Defesa Fitossanit., UNESP, Jaboticabal, Brazil
SO Pesqui. Agropecu. Bras. (1985), 20(3), 277-89
CODEN: PEABBT; ISSN: 0079-1121
DT Journal
LA Portuguese
CC 5-4 (Agrochemical Bioregulators)
AB The miticidal action of MK 936 (avermectin) [71751-41-2] SL and EC
formulations applied isolately or in mixt. with ***mineral***
***oil*** , in the control of the rust ***mite***
(Phyllocoptruta oleivora) in a citrus orchard, and their effects on
the predator ***mite*** population were examd. MK 936 SL and EC
were equally efficient in the control of the rust ***mite*** .
The mixt. with ***mineral*** ***oil*** showed better
efficiency and was active for a longer time. MK 936 was similar to
chlorobenzilate [510-15-6] in efficiency. Dicofol [115-32-2] was
very efficient in the control of rust ***mite*** , but caused a
marked resurgence of the ***mite*** .
ST citrus rust ***mite*** acaricide MK936; avermectin citrus rust
***mite*** ; Phyllocoptruta acaricide citrus MK936
IT Phyllocoptruta oleivora
(control of, by MK936 formulations, in citrus)
IT Orange
(rust ***mite*** control in, by MK936 formulations)
IT Orchard
(citrus, rust ***mite*** control by, in citrus)
IT 71751-41-2
RL: BIOL (Biological study)
(rust ***mite*** control by, in citrus)
IT 115-32-2 510-15-6
RL: BIOL (Biological study)
(rust ***mite*** control by, in citrus, MK936 formulations in
relation to)
AN 84:116839 CA
TI Action of white oil on the hibernation stage of Dialeurodes citri on
lemon trees
AU Liotta, G.; Maniglia, G.
CS Ist. Entomol. Agrar., Univ. Palermo, Palermo, Italy
SO Meded. Fac. Landbouwwet., Rijksuniv. Gent (1975), 40(2, Pt. 1),
323-7
CODEN: MFLRA3
DT Journal
LA French
CC 5-3 (Agrochemicals)
AB At the end of winter, spraying lemon trees with 3% ***mineral***
***oil*** caused 50% mortality of the 4th-instar larvae of D.
citri, compounding the natural 45% hibernation mortality. The
treatment was not toxic for the coccinellid Clitostethus arcuatus,
the most important predator of D. citri. The same treatment may
control other harmful arthropods, esp. scales and the bud
***mite*** Aceria sheldoni.
ST ***mineral*** ***oil*** lemon Dialeurodes
IT Petroleum spirits
RL: BIOL (Biological study)
(Dialeurodes citri control by, on lemon)
IT Lemon
(Dialeurodes citri control on, by ***mineral*** ***oil***
)
IT Dialeurodes citri
(control of, on lemon, by ***mineral*** ***oil*** )
AN 118:228223 CA
TI Effectiveness of Sun oil and OPA-E oil for control of citrus rust
mites (Phyllocoptruta oleivora Ashm.) in oranges
AU Moreira, Celio S.
CS Fruticult. - Esc. Super. Agric. Luiz de Queiroz, Spain
SO Rev. Agric. (Piracicaba, Braz.) (1992), 67(3), 237-49
CODEN: RAPCAW; ISSN: 0034-7655
DT Journal
LA Portuguese
CC 5-4 (Agrochemical Bioregulators)
AB This paper deals with the study of emulsive oil as an alternative to
the acaricides used for the rusty ***mite*** (P. oleivora)
control in citrus orchards. Two types of emulsive oil were
compared: the American SUN oil and the Brazilian OPA-E oil. The
expt. was carried out in an orchard of 20 yr old com. varieties of
orange of high yields, which receives a good treatment, including
irrigation. Both products were studied as preventive and curative
controls. The results indicated that both oils are effective for
the ***mite*** control. However SUN oil gave a longer
protection against the rusty ***mite*** and this difference was
more evident in the curative treatment.
ST citrus rust ***mite*** control ***mineral*** ***oil*** ;
OPA E oil citrus rust ***mite***
IT Hydrocarbon oils
RL: BIOL (Biological study)
(citrus rusty ***mite*** control by)
IT Orange
(citrus rusty ***mite*** control in, by Sun and OPA-E oils)
IT Phyllocoptruta oleivora
(control of, on orange, by Sun and OPA-E oils)
AN 74:139963 CA
TI Control of winter eggs of Panonychus ulmi (Acarina: Tetranychidae)
and Bryobia rubrioculus (Acarina: Tetranychidae) by M2060
(2-fluoroethyl 4-biphenylyl) acetate) and other products in Lebanon
AU Musa, Sami; Dosse, Gudo
CS Montecatini Edison Agency, Beirut, Lebanon
SO Can. Entomol. (1971), 103(1), 130-6
CODEN: CAENAF
DT Journal
LA English
CC 19 (Pesticides)
AB P. ulmi and B. rubrioculus are serious pests on apple trees in
Lebanon. The effectiveness of M2060-oil (I) (2% fluoroethyl
4-biphenylacetate, 70% petroleum oil, 10% tar oil, and 18% carriers
and emulsifiers), Ovamort (2.4% DNOC + 70% petroleum oil), Diotol
(1.0% DNOC + 30% wt./vol. neutral ***mineral*** ***oil*** ),
Genite, and Citronol (95-97% wt./vol. petroleum oil) were
investigated on the winter eggs of these 2 mites in the lab. and in
the field. I was highly effective and superior to all products at
early and late dormant stages of tree growth. The nearer to egg
hatch the other products were applied, the more effective they were.
The use of petroleum oil as insecticide should be reexamd., since
the oil does not leave toxic residues and causes no insect
resistance.
ST fluoroethylate petroleum oil ***mite*** egg; ***mite*** egg
petroleum oil fluoroethylate; apple ***mite*** petroleum oil;
insecticide apple ***mite*** egg; petroleum oil ***mite***
egg; Bryobia egg petroleum oil fluoroethylate; Panonychus egg
petroleum oil fluoroethylate
IT Hydrocarbon oils, biological studies
RL: BIOL (Biological study)
(Bryobia rubrioculus and Panonychus ulmi control by)
IT Insecticides
(forBryobia rubrioculus and Panonychus ulmi control)
IT Bryobia
(rubrioculus, control of)
IT Panonychus
(ulmi, control of)
IT 97-16-5 534-52-1 4301-50-2
RL: BIOL (Biological study)
(Bryobia rubrioculus and Panonychus ulmi control by)
AN 121:127783 CA
TI Controlling tracheal mites (Acari: Tarsonemidae) in colonies of
honey bees (Hymenoptera: Apidae) with vegetable ***oil*** and
menthol
AU Delaplane, Keith S.
CS Coll. Agric. and Environ. Sci., Univ. Georgia, Athens, GA, 30602,
USA
SO J. Econ. Entomol. (1992), 85(6), 2118-24
CODEN: JEENAI; ISSN: 0022-0493
DT Journal
LA English
CC 5-4 (Agrochemical Bioregulators)
AB The efficacy of vegetable ***oil*** and menthol was tested in
controlling tracheal mites (Acarapis woodi [Rennie]) in honey bees
(Apis mellifera L.). Each of 40 ***bee*** colonies was given
one of four treatments: (1) vegetable ***oil*** shortening, (2)
menthol, (3) vegetable ***oil*** shortening and menthol, or (4)
no treatment (control). Colonies were sampled for percentage bees
infested and severity of infestation per infested ***bee*** on
nine dates from 14 Feb. to 7 August 1991. Treatments were applied
on 27 Feb. and removed on 18 Apr. On 3 Apr., mite infestation was
reduced in the ***oil*** shortening + menthol treatment. On
every sampling date after 3 Apr., infestation was reduced by all
***oil*** shortening or menthol treatments. Compared with
menthol, vegetable ***oil*** shortening gave equiv. mite control
on all sampling dates. From 3 Apr. through 9 May, infestation was
lowest in the ***oil*** shortening + menthol treatment. Except
for one sampling date, severity of infestation per infested
***bee*** was unaffected by treatments.
ST honeybee mite menthol shortening
IT Acarapis woodi
(control of, on honeybees, by menthol-shortening mixt.)
IT Acaricides
(menthol-shortening mixt., Acarapis woodi control by, on
honeybees)
IT Shortening
RL: BIOL (Biological study)
(mite control by, on honeybees)
IT Honeybee
(mite control on, by menthol-shortening mixt.)
IT 89-78-1, Menthol 156985-39-6
RL: BIOL (Biological study)
(mite control by, on honeybees)
AN 123:191132 CA
TI Evaluation of four seed-derived oils as controls for Acarapis woodi
(Acari: Tarsonemidae) in colonies of Apis mellifera (Hymenoptera:
Apidae)
AU Calderone, Nicholas W.; Shimanuki, Hachiro
CS Bee Research Laboratory, BARC East, Beltsville, MD, 20705, USA
SO J. Econ. Entomol. (1995), Volume Date 1995, 88(4), 805-9
CODEN: JEENAI; ISSN: 0022-0493
DT Journal
LA English
CC 5-4 (Agrochemical Bioregulators)
AB Four seed-derived oils were evaluated in field trials as control
agents for the parasitic tracheal mite, Acarapis woodi (Rennie), in
colonies of the honey ***bee*** , Apis mellifera (L.).
Seventy-one honey been colonies infested with the tracheal mite were
each assigned to 1 of 4 treatment groups or to a control group.
Treatments were peanut, soybean, sunflower, or canola ***oil*** ,
delivered as patties after blending with confectioner sugar (2 parts
sugar/1 part ***oil*** [wt:wt]). All 5 groups had similar mite
prevalence values (proportion of infested bees) and parasite load
scores (a measure of the no. of mites per ***bee*** ) before
initiating treatment. Each colony received five 500-g patties
delivered approx. every 14 d starting on 16 Sept. 1992 and
continuing until 1 Dec. 1992. Mite prevalence values, parasite load
scores, and colony wt. gains (an indicator of honey prodn.) were
measured the following spring. Av. mite prevalence values obtained
on 4 and 5 May 1993 in the treated groups ranged from 0.015 to
0.027, compared with 0.094 in the control group. The mite
prevalence value in each treatment group was less than the mite
prevalence value in the control group. Similar differences were
obsd. for parasite load scores. Differences in colony wt. gains
among the 5 groups were not significant.
ST vegetable ***oil*** control Acarapis honeybee
IT Acarapis woodi
Honeybee
(seed-derived oils as controls for Acarapis woodi in colonies of
Apis mellifera)
IT Canola ***oil***
Peanut ***oil***
Soybean ***oil***
Sunflower ***oil***
RL: BAC (Biological activity or effector, except adverse); BIOL
(Biological study)
(seed-derived oils as controls for Acarapis woodi in colonies of
Apis mellifera)
________________________________________________________________
Bruce King [log in to unmask]
Department of Chemistry phone: (406) 542-2993
University of Montana fax: (406) 243-4227
Missoula, MT 59812
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