Formulation Dependent Degradation of Cadusafos: A Comparative Study under Thermal and Photolytic Conditions
Ismail, I., Abdel-Rahman, T., Seloma, A. (2025). Formulation Dependent Degradation of Cadusafos: A Comparative Study under Thermal and Photolytic Conditions. EKB Journal Management System, (), 545-551. doi: 10.21608/jppp.2025.435513.1394
I. I. Ismail; T. A. Abdel-Rahman; A. S. O. Seloma. "Formulation Dependent Degradation of Cadusafos: A Comparative Study under Thermal and Photolytic Conditions". EKB Journal Management System, , , 2025, 545-551. doi: 10.21608/jppp.2025.435513.1394
Ismail, I., Abdel-Rahman, T., Seloma, A. (2025). 'Formulation Dependent Degradation of Cadusafos: A Comparative Study under Thermal and Photolytic Conditions', EKB Journal Management System, (), pp. 545-551. doi: 10.21608/jppp.2025.435513.1394
Ismail, I., Abdel-Rahman, T., Seloma, A. Formulation Dependent Degradation of Cadusafos: A Comparative Study under Thermal and Photolytic Conditions. EKB Journal Management System, 2025; (): 545-551. doi: 10.21608/jppp.2025.435513.1394

Formulation Dependent Degradation of Cadusafos: A Comparative Study under Thermal and Photolytic Conditions

Journal of Plant Protection and Pathology
Articles in Press, Accepted Manuscript, Available Online from 16 November 2025    PDF (545.14 K)
Document Type: Original Article
DOI: 10.21608/jppp.2025.435513.1394
Authors
I. I. Ismail* 1; T. A. Abdel-Rahman2; A. S. O. Seloma1
1Pesticides Analysis Researches Dept, Central Agricultural Pesticides Laboratory, Agricultural Research Center (ARC), Dokki, Giza, Egypt.
2Pesticides Residues& Environmental pollution Dept, Central Agricultural Pesticides Laboratory, Agricultural Research Center (ARC), Dokki, Giza, Egypt
Abstract
The present paper discusses the degradation of the organophosphate pesticide cadusafos in terms of the active ingredient (a.i), Granules (GR), and Capsule Suspension (CS) formulations. The stability of these formulations in different environmental factors, such as accelerated storage, different temperatures (30 °C, 40 °C, and 50 °C), and in direct sunlight and UV radiation, was investigated, and the rate of degradation and half-lives were computed with the help of first-order kinetics. The CS formulation was the most stable to accelerated storage (54 ±2 °C for 14 days), with a loss of the active ingredient being 2.76% compared with 6.66% in the GR formulation. Thermal degradation tests revealed that the half-life of cadusafos decreased with increasing temperature, with the stability following this pattern: CS > GR > a.i., for example, the half-lives of CS, GR, and a.i., were 198 h, 177.69 h, and 169.02 h at 50 °C, respectively. The CS formulation had the lowest degradation with a half-life of 10.61 h under the sunlight, compared to GR and a.i., the half-lives were 8.24 h and 6.55 h, respectively. A similar pattern was recorded under UV radiation. Such findings reveal that the encapsulation technology on the CS formulation provides high levels of protection against thermal and photodegradation, which greatly increases the environmental stability of cadusafos. The study indicates the importance of the formulation type as a significant factor in the control of the environmental effectiveness of pesticides.
Keywords
Cadusafos; Capsule Suspension (CS); Granules (GR); photodegradation; thermal degradation
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