{"id":58,"date":"2022-06-22T18:36:51","date_gmt":"2022-06-22T18:36:51","guid":{"rendered":"https:\/\/riskmitigationinfo.com\/?p=58"},"modified":"2022-06-22T18:36:51","modified_gmt":"2022-06-22T18:36:51","slug":"diphacinone-vs-bromethalin","status":"publish","type":"post","link":"https:\/\/dailypest.com\/diphacinone-vs-bromethalin\/","title":{"rendered":"Diphacinone vs Bromethalin (Which Is Better)"},"content":{"rendered":"
Rodents are painful to deal with. To control the rodent population, you may opt to go for rodenticides. They are a proven method to keep rats away from your property. Two main types of rodenticides are diphacinone and bromethalin.<\/span><\/p>\n But which is better: <\/span>diphacinone vs bromethalin<\/b>?<\/span><\/p>\n Bromethalin and Diphacinone are two distinct types of rodenticides, which are substances used to kill rodents. One key difference between these two compounds lies in their mode of action.<\/p>\n [amazon box=”B075CPL2JP,B083WPSXPZ,B075H1NMKJ” grid=”3″]<\/p>\n Bromethalin is a neurotoxin rodenticide that acts by damaging the central nervous system of rodents. On the other hand, Diphacinone is a non-anticoagulant substance.<\/strong><\/p>\n Diphacinone and bromethalin are two widely used and known rodenticides to use in your household.<\/span><\/p>\n Diphacinone is a rodenticide that acts as an antagonist to vitamin K, resulting in anticoagulant effects.<\/p>\n It is commonly used to control rodent populations. Diphacinone has a longer active half-life compared to other synthetic anticoagulants like 1,3-indandione.<\/p>\n [amazon box=”B075H1NMKJ” template=”horizontal”]<\/p>\n Diphacinone is toxic to mammals in all its forms. Exposure to this substance, either through direct contact or oral ingestion, can lead to irregular heartbeat and serious health issues related to its impact on blood clotting, depending on the dosage.<\/p>\n Diphacinone is classified as a first-generation anticoagulant, which means it is less toxic compared to second-generation compounds such as warfarin.<\/p>\n The chemical formula of Diphacinone is C23H16O3, with a molar mass of approximately 340.37 g\/mol.<\/strong><\/p>\nDiphacinone vs Bromethalin: Quick Overview<\/h2>\n
\n\n
\n Aspect<\/b><\/td>\n Diphacinone<\/b><\/td>\n Bromethalin<\/b><\/td>\n<\/tr>\n \n Mode of Action<\/span><\/td>\n Anticoagulant<\/span><\/td>\n Neurotoxin.<\/span><\/td>\n<\/tr>\n \n Chemical Formula<\/span><\/td>\n C23H16O3<\/span><\/td>\n C14H7Br3F3N3O4.<\/span><\/td>\n<\/tr>\n \n Molar Mass<\/span><\/td>\n 352.34 g\/mol<\/span><\/td>\n 577.93 g\/mol.<\/span><\/td>\n<\/tr>\n \n Mode of Action<\/span><\/td>\n Blocks blood clotting<\/span><\/td>\n Inhibits ATP synthesis.<\/span><\/td>\n<\/tr>\n \n Target Organism<\/span><\/td>\n Rodents<\/span><\/td>\n Rodents.<\/span><\/td>\n<\/tr>\n \n Mechanism of Toxicity<\/span><\/td>\n Hemorrhaging<\/span><\/td>\n CNS damage.<\/span><\/td>\n<\/tr>\n \n Effects<\/span><\/td>\n Internal bleeding, weakness<\/span><\/td>\n Paralysis, convulsions, death.<\/span><\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n What Is Diphacinone?<\/h2>\n