We examined the rate of carbaryl degradation on the bark of two tree species under laboratory conditions with three temperatures and two relative humidities. Tree species and relative humidity were the main factors affecting the degradation process. We recovered 98-100% of the carbaryl residues from loblolly pine, Pinus taeda L., within all temperature and relative humidity groups after 60 d of incubation. In contrast, we recovered ≍67% (97% RH) and 97% (33% RH) of the residues from the bark of white spruce, Picea glauca (Moench) Voss, at 25 after 60 d of incubation. Several metabolites of carbaryl were found on the bark of white spruce, whereas no detectable amount of carbaryl metabolites was found from loblolly pine in all treatment groups. Two major metabolites were identified based on cochromatography with standard 4-hydroxycarbaryland 5-hydroxycarbaryl; maximum amounts of these metabolites reached 28 and 24%, respectively.
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Contributors
Publisher
Entomological Society of America
Date Issued
1995
Note
Language
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Form
Extent
7 p.
Subject (Topical)
Identifier
FA00007226
Additional Information
We examined the rate of carbaryl degradation on the bark of two tree species under laboratory conditions with three temperatures and two relative humidities. Tree species and relative humidity were the main factors affecting the degradation process. We recovered 98-100% of the carbaryl residues from loblolly pine, Pinus taeda L., within all temperature and relative humidity groups after 60 d of incubation. In contrast, we recovered ≍67% (97% RH) and 97% (33% RH) of the residues from the bark of white spruce, Picea glauca (Moench) Voss, at 25 after 60 d of incubation. Several metabolites of carbaryl were found on the bark of white spruce, whereas no detectable amount of carbaryl metabolites was found from loblolly pine in all treatment groups. Two major metabolites were identified based on cochromatography with standard 4-hydroxycarbaryland 5-hydroxycarbaryl; maximum amounts of these metabolites reached 28 and 24%, respectively.
Florida Atlantic University. Harbor Branch Oceanographic Institute contribution 1006
This manuscript is an author version with the final
publication available and may be cited as: Zhong, H., Hastings, F. L., Hain, F. P., & Monahan, J. F.
(1995). Carbaryl degradation on tree bark as influenced by temperature and humidity. Journal of
Economic Entomology, 88(3), 558-563.
publication available and may be cited as: Zhong, H., Hastings, F. L., Hain, F. P., & Monahan, J. F.
(1995). Carbaryl degradation on tree bark as influenced by temperature and humidity. Journal of
Economic Entomology, 88(3), 558-563.
Date Backup
1995
Date Text
1995
Date Issued (EDTF)
1995
Extension
FAU
IID
FA00007226
Organizations
Attributed name: Hain, F. P.
Attributed name: Harbor Branch Oceanographic Institute
Person Preferred Name
Zhong, H.
Physical Description
7 p.
Title Plain
Carbaryl degradation on tree bark as influenced by temperature and humidity
Origin Information
1995
Entomological Society of America
Annapolis, MD
Place
Annapolis, MD
Title
Carbaryl degradation on tree bark as influenced by temperature and humidity
Other Title Info
Carbaryl degradation on tree bark as influenced by temperature and humidity