Laboratory information management system LIMS
Overview
Discover how the technology skill Laboratory information management system LIMS impacts your career prospects in the age of artificial intelligence. This page analyzes which occupations depend on this technology skill and ranks them by their risk of automation and AI disruption. If you want to know whether your tech skills are associated with high-risk jobs, this resource provides clear, data-driven insights. Explore the AI risk landscape for Laboratory information management system LIMS and see which roles are most susceptible to change. Use this information to make informed, future-ready career decisions and stay competitive in an evolving workforce.
Occupations that require Laboratory information management system LIMS
- Biological TechniciansMedium56.49%Assist biological and medical scientists. Set up, operate, and maintain laboratory instruments and equipment, monitor experiments, collect data and samples, make observations, and calculate and record results. May analyze organic substances, such as blood, food, and drugs.
- Water Resource SpecialistsMedium52.67%Design or implement programs and strategies related to water resource issues such as supply, quality, and regulatory compliance issues.
- Conduct research or perform investigation for the purpose of identifying, abating, or eliminating sources of pollutants or hazards that affect either the environment or public health. Using knowledge of various scientific disciplines, may collect, synthesize, study, report, and recommend action based on data derived from measurements or observations of air, food, soil, water, and other sources.
- ChemistsMedium51.25%Conduct qualitative and quantitative chemical analyses or experiments in laboratories for quality or process control or to develop new products or knowledge.
- Chemical EngineersMedium50.90%Design chemical plant equipment and devise processes for manufacturing chemicals and products, such as gasoline, synthetic rubber, plastics, detergents, cement, paper, and pulp, by applying principles and technology of chemistry, physics, and engineering.
- Chemical TechniciansMedium50.77%Conduct chemical and physical laboratory tests to assist scientists in making qualitative and quantitative analyses of solids, liquids, and gaseous materials for research and development of new products or processes, quality control, maintenance of environmental standards, and other work involving experimental, theoretical, or practical application of chemistry and related sciences.
- HydrologistsMedium50.06%Research the distribution, circulation, and physical properties of underground and surface waters; and study the form and intensity of precipitation and its rate of infiltration into the soil, movement through the earth, and return to the ocean and atmosphere.
- Biochemists and BiophysicistsMedium49.97%Study the chemical composition or physical principles of living cells and organisms, their electrical and mechanical energy, and related phenomena. May conduct research to further understanding of the complex chemical combinations and reactions involved in metabolism, reproduction, growth, and heredity. May determine the effects of foods, drugs, serums, hormones, and other substances on tissues and vital processes of living organisms.
- Robotics EngineersMedium49.96%Research, design, develop, or test robotic applications.
- Study the composition, structure, and other physical aspects of the Earth. May use geological, physics, and mathematics knowledge in exploration for oil, gas, minerals, or underground water; or in waste disposal, land reclamation, or other environmental problems. May study the Earth's internal composition, atmospheres, and oceans, and its magnetic, electrical, and gravitational forces. Includes mineralogists, paleontologists, stratigraphers, geodesists, and seismologists.
- Quality Control AnalystsMedium49.25%Conduct tests to determine quality of raw materials, bulk intermediate and finished products. May conduct stability sample tests.
- Bioengineers and Biomedical EngineersMedium49.00%Apply knowledge of engineering, biology, chemistry, computer science, and biomechanical principles to the design, development, and evaluation of biological, agricultural, and health systems and products, such as artificial organs, prostheses, instrumentation, medical information systems, and health management and care delivery systems.
- Apply theory and principles of environmental engineering to modify, test, and operate equipment and devices used in the prevention, control, and remediation of environmental problems, including waste treatment and site remediation, under the direction of engineering staff or scientists. May assist in the development of environmental remediation devices.
- Natural Sciences ManagersMedium46.02%Plan, direct, or coordinate activities in such fields as life sciences, physical sciences, mathematics, statistics, and research and development in these fields.
- Validation EngineersMedium45.72%Design or plan protocols for equipment or processes to produce products meeting internal and external purity, safety, and quality requirements.
- Molecular and Cellular BiologistsMedium44.52%Research and study cellular molecules and organelles to understand cell function and organization.
- MicrobiologistsMedium43.81%Investigate the growth, structure, development, and other characteristics of microscopic organisms, such as bacteria, algae, or fungi. Includes medical microbiologists who study the relationship between organisms and disease or the effects of antibiotics on microorganisms.
- Forensic Science TechniciansMedium37.96%Collect, identify, classify, and analyze physical evidence related to criminal investigations. Perform tests on weapons or substances, such as fiber, hair, and tissue to determine significance to investigation. May testify as expert witnesses on evidence or crime laboratory techniques. May serve as specialists in area of expertise, such as ballistics, fingerprinting, handwriting, or biochemistry.