Biopolymers are driving the plastic industry to the next generation of environmentally friendly bioproducts, considering green chemistry principles and contemporary economic concepts, such as environmental, social, and governance (ESG) criteria. Hence, microbial biopolymers arise in this context. Resulting from a natural carbon and energy storage process, polyhydroxyalkanoates are the raw material for a range of products based on plastic, with the advantage of being biodegradable in a short period of time. Discovering new biopolymers with different properties, carbon sources and PHA-related enzymes will facilitate market development as well as competition with petrochemical polymers. This work reports the experimental findings of PHA production and genomic data for two bacteria, Ralstonia pickettiiand Aquitalea sp., isolated from a blackwater lake located in the ecological reserve of Tupé, Iranduba, AM, Brazil. They were able to produce PHB from carbon sources related to sugar, and R. pickettiialso produced PHB from soybean oil and lignin derivatives. Whole-genome sequencing of these isolates enabled the identification of the genetic background to use other oxidizable carbon sources, such as lactic and malonic acids, amino acids, and lignin.