Find & Apply For Microbiologist Jobs In Rockingham, New Hampshire
Microbiologist jobs in Rockingham, New Hampshire involve conducting research, analyzing data, and performing experiments to study microorganisms. Responsibilities include developing new products, testing for contamination, and ensuring compliance with regulations. These positions require a strong background in biology, laboratory experience, and excellent analytical skills. Below you can find different Microbiologist positions in Rockingham, New Hampshire.
Jobs in Rockingham
Browse jobs from a variety of sources below, sorted with the most recently published, nearest to the top. Click the title to view more information and apply online.
Latest Jobs in Rockingham
Salary Information & Job Trends In this Region
Microbiologists in Rockingham, New Hampshire play a crucial role in studying microorganisms and their effects on the environment, human health, and industry. - Entry-level Microbiologist salaries range from $45,000 to $55,000 per year - Mid-career Research Microbiologist salaries range from $55,000 to $75,000 per year - Senior-level Lead Microbiologist salaries range from $75,000 to $100,000 per year The field of microbiology has a rich history in Rockingham, New Hampshire, dating back to the early days of scientific exploration and discovery. Microbiologists in the region have made significant contributions to the understanding of microbial life and its impact on various aspects of society. Over the years, the role of microbiologists in Rockingham, New Hampshire has evolved to encompass a wide range of specialties and research areas. From studying infectious diseases to environmental microbiology, microbiologists in the region continue to push the boundaries of scientific knowledge and innovation. Current trends in microbiology in Rockingham, New Hampshire focus on the application of cutting-edge technologies such as genomics and bioinformatics to study microbial communities and their interactions. Microbiologists in the region are also exploring new avenues for microbiome research and the development of novel antimicrobial agents to combat antibiotic resistance.