Job Duties Custom List 19-1029.03 — Geneticists
- Collaborate with biologists and other professionals to conduct appropriate genetic and biochemical analyses.
Occupations with related tasks Save Table: XLSX CSV
- Confer with scientists or engineers to conduct analyses of research projects, interpret test results, or develop nonstandard tests.
- Develop, improve, or customize products, equipment, formulas, processes, or analytical methods.
- Analyze organic or inorganic compounds to determine chemical or physical properties, composition, structure, relationships, or reactions, using chromatography, spectroscopy, or spectrophotometry techniques.
- Induce changes in composition of substances by introducing heat, light, energy, or chemical catalysts for quantitative or qualitative analysis.
- Conduct quality control tests.
- Write technical papers or reports or prepare standards and specifications for processes, facilities, products, or tests.
- Maintain laboratory instruments to ensure proper working order and troubleshoot malfunctions when needed.
- Prepare test solutions, compounds, or reagents for laboratory personnel to conduct tests.
- Evaluate laboratory safety procedures to ensure compliance with standards or to make improvements as needed.
- Direct, coordinate, or advise personnel in test procedures for analyzing components or physical properties of materials.
- Purchase laboratory supplies, such as chemicals, when supplies are low or near their expiration date.
- Study effects of various methods of processing, preserving, or packaging on composition or properties of foods.
- Compile and analyze test information to determine process or equipment operating efficiency or to diagnose malfunctions.
- Confer with scientists or engineers to conduct analyses of research projects, interpret test results, or develop nonstandard tests.
- Participate in multidisciplinary projects in areas such as virtual reality, human-computer interaction, or robotics.
- Analyze problems to develop solutions involving computer hardware and software.
- Apply theoretical expertise and innovation to create or apply new technology, such as adapting principles for applying computers to new uses.
- Assign or schedule tasks to meet work priorities and goals.
- Meet with managers, vendors, and others to solicit cooperation and resolve problems.
- Design computers and the software that runs them.
- Conduct logical analyses of business, scientific, engineering, and other technical problems, formulating mathematical models of problems for solution by computers.
- Evaluate project plans and proposals to assess feasibility issues.
- Consult with users, management, vendors, and technicians to determine computing needs and system requirements.
- Develop and interpret organizational goals, policies, and procedures.
- Develop performance standards, and evaluate work in light of established standards.
- Maintain network hardware and software, direct network security measures, and monitor networks to ensure availability to system users.
- Direct daily operations of departments, coordinating project activities with other departments.
- Participate in staffing decisions and direct training of subordinates.
- Approve, prepare, monitor, and adjust operational budgets.
- Participate in multidisciplinary projects in areas such as virtual reality, human-computer interaction, or robotics.
- Collaborate with other scientists in the design, development, and testing of experimental, industrial, or medical equipment, instrumentation, and procedures.
- Perform complex calculations as part of the analysis and evaluation of data, using computers.
- Analyze data from research conducted to detect and measure physical phenomena.
- Design computer simulations to model physical data so that it can be better understood.
- Write research proposals to receive funding.
- Teach physics to students.
- Report experimental results by writing papers for scientific journals or by presenting information at scientific conferences.
- Conduct research pertaining to potential environmental impacts of atomic energy-related industrial development to determine licensing qualifications.
- Observe the structure and properties of matter, and the transformation and propagation of energy, using equipment such as masers, lasers, and telescopes, to explore and identify the basic principles governing these phenomena.
- Develop theories and laws on the basis of observation and experiments, and apply these theories and laws to problems in areas such as nuclear energy, optics, and aerospace technology.
- Conduct application evaluations and analyze results to determine commercial, industrial, scientific, medical, military, or other uses for electro-optical devices.
- Develop manufacturing, assembly, and fabrication processes of lasers, masers, infrared, and other light-emitting and light-sensitive devices.
- Advise authorities of procedures to be followed in radiation incidents or hazards, and assist in civil defense planning.
- Develop standards of permissible concentrations of radioisotopes in liquids and gases.
- Describe and express observations and conclusions in mathematical terms.
- Collaborate with other scientists in the design, development, and testing of experimental, industrial, or medical equipment, instrumentation, and procedures.
- Collaborate with other researchers in the planning, implementation, and evaluation of surveys.
- Review, classify, and record survey data in preparation for computer analysis.
- Produce documentation of the questionnaire development process, data collection methods, sampling designs, and decisions related to sample statistical weighting.
- Prepare and present summaries and analyses of survey data, including tables, graphs, and fact sheets that describe survey techniques and results.
- Determine and specify details of survey projects, including sources of information, procedures to be used, and the design of survey instruments and materials.
- Consult with clients to identify survey needs and specific requirements, such as special samples.
- Conduct surveys and collect data, using methods such as interviews, questionnaires, focus groups, market analysis surveys, public opinion polls, literature reviews, and file reviews.
- Support, plan, and coordinate operations for single or multiple surveys.
- Conduct research to gather information about survey topics.
- Direct and review the work of staff members, including survey support staff and interviewers who gather survey data.
- Analyze data from surveys, old records, or case studies, using statistical software.
- Direct updates and changes in survey implementation and methods.
- Write proposals to win new projects.
- Hire and train recruiters and data collectors.
- Monitor and evaluate survey progress and performance, using sample disposition reports and response rate calculations.
- Write training manuals to be used by survey interviewers.
- Collaborate with other researchers in the planning, implementation, and evaluation of surveys.
- Collaborate with other astronomers to carry out research projects.
- Mentor graduate students and junior colleagues.
- Present research findings at scientific conferences and in papers written for scientific journals.
- Analyze research data to determine its significance, using computers.
- Study celestial phenomena, using a variety of ground-based and space-borne telescopes and scientific instruments.
- Supervise students' research on celestial and astronomical phenomena.
- Raise funds for scientific research.
- Teach astronomy or astrophysics.
- Measure radio, infrared, gamma, and x-ray emissions from extraterrestrial sources.
- Develop instrumentation and software for astronomical observation and analysis.
- Review scientific proposals and research papers.
- Develop theories based on personal observations or on observations and theories of other astronomers.
- Serve on professional panels and committees.
- Develop and modify astronomy-related programs for public presentation.
- Conduct question-and-answer presentations on astronomy topics with public audiences.
- Direct the operations of a planetarium.
- Calculate orbits and determine sizes, shapes, brightness, and motions of different celestial bodies.
- Collaborate with other astronomers to carry out research projects.
- Confer with scientists directing projects to determine significant events to monitor during tests.
- Brief workers on radiation levels in work areas.
- Calculate safe radiation exposure times for personnel using plant contamination readings and prescribed safe levels of radiation.
- Monitor personnel to determine the amounts and intensities of radiation exposure.
- Inform supervisors when individual exposures or area radiation levels approach maximum permissible limits.
- Determine intensities and types of radiation in work areas, equipment, or materials, using radiation detectors or other instruments.
- Instruct personnel in radiation safety procedures and demonstrate use of protective clothing and equipment.
- Collect samples of air, water, gases, or solids to determine radioactivity levels of contamination.
- Analyze samples, such as air or water samples, for contaminants or other elements.
- Determine or recommend radioactive decontamination procedures, according to the size and nature of equipment and the degree of contamination.
- Set up equipment that automatically detects area radiation deviations and test detection equipment to ensure its accuracy.
- Prepare reports describing contamination tests, material or equipment decontaminated, or methods used in decontamination processes.
- Decontaminate objects by cleaning with soap or solvents or by abrading with wire brushes, buffing wheels, or sandblasting machines.
- Enter data into computers to record characteristics of nuclear events or to locate coordinates of particles.
- Calibrate and maintain chemical instrumentation sensing elements and sampling system equipment, using calibration instruments and hand tools.
- Immerse samples in chemical compounds to prepare them for testing.
- Operate manipulators from outside cells to move specimens into or out of shielded containers, to remove specimens from cells, or to place specimens on benches or equipment work stations.
- Provide initial response to abnormal events or to alarms from radiation monitoring equipment.
- Place radioactive waste, such as sweepings or broken sample bottles, into containers for shipping or disposal.
- Confer with scientists directing projects to determine significant events to monitor during tests.
- Develop radiation treatment plans in consultation with members of the radiation oncology team.
- Advise oncology team members on use of beam modifying or immobilization devices in radiation treatment plans.
- Calculate, or verify calculations of, prescribed radiation doses.
- Calculate the delivery of radiation treatment, such as the amount or extent of radiation per session, based on the prescribed course of radiation therapy.
- Conduct radiation oncology-related research, such as improving computer treatment planning systems or developing new treatment devices.
- Create and transfer reference images and localization markers for treatment delivery, using image-guided radiation therapy.
- Design the arrangement of radiation fields to reduce exposure to critical patient structures, such as organs, using computers, manuals, and guides.
- Develop requirements for the use of patient immobilization devices and positioning aides, such as molds or casts, as part of treatment plans to ensure accurate delivery of radiation and comfort of patient.
- Develop treatment plans, and calculate doses for brachytherapy procedures.
- Educate patients regarding treatment plans, physiological reactions to treatment, or post-treatment care.
- Fabricate beam modifying devices, such as compensators, shields, and wedge filters.
- Fabricate patient immobilization devices, such as molds or casts, for radiation delivery.
- Identify and outline bodily structures, using imaging procedures, such as x-ray, magnetic resonance imaging, computed tomography, or positron emission tomography.
- Load, receive, or ship radioactive materials.
- Measure the amount of radioactivity in patients or equipment, using radiation monitoring devices.
- Perform quality assurance system checks, such as calibrations, on treatment planning computers.
- Plan the use of beam modifying devices, such as compensators, shields, and wedge filters, to ensure safe and effective delivery of radiation treatment.
- Record patient information, such as radiation doses administered, in patient records.
- Supervise or perform simulations for tumor localizations, using imaging methods such as magnetic resonance imaging, computed tomography, or positron emission tomography scans.
- Teach medical dosimetry, including its application, to students, radiation therapists, or residents.
- Develop radiation treatment plans in consultation with members of the radiation oncology team.
- Confer with ballistics, fingerprinting, handwriting, documents, electronics, medical, chemical, or metallurgical experts concerning evidence and its interpretation.
- Collect evidence from crime scenes, storing it in conditions that preserve its integrity.
- Keep records and prepare reports detailing findings, investigative methods, and laboratory techniques.
- Use photographic or video equipment to document evidence or crime scenes.
- Testify in court about investigative or analytical methods or findings.
- Use chemicals or other substances to examine latent fingerprint evidence and compare developed prints to those of known persons in databases.
- Measure and sketch crime scenes to document evidence.
- Visit morgues, examine scenes of crimes, or contact other sources to obtain evidence or information to be used in investigations.
- Train new technicians or other personnel on forensic science techniques.
- Operate and maintain laboratory equipment and apparatus.
- Collect impressions of dust from surfaces to obtain and identify fingerprints.
- Examine and analyze blood stain patterns at crime scenes.
- Analyze gunshot residue and bullet paths to determine how shootings occurred.
- Prepare solutions, reagents, or sample formulations needed for laboratory work.
- Examine footwear, tire tracks, or other types of impressions.
- Determine types of bullets and specific weapons used in shootings.
- Interpret laboratory findings or test results to identify and classify substances, materials, or other evidence collected at crime scenes.
- Compare objects, such as tools, with impression marks to determine whether a specific object is responsible for a specific mark.
- Examine firearms to determine mechanical condition and legal status, performing restoration work on damaged firearms to obtain information, such as serial numbers.
- Analyze DNA data to identify DNA donor profiles.
- Analyze data from computers or other digital media sources for evidence related to criminal activity.
- Examine physical evidence, such as hair, biological fluids, fiber, wood, or soil residues to obtain information about its source and composition.
- Reconstruct crime scenes to determine relationships among pieces of evidence.
- Review forensic analysts' reports for technical merit.
- Identify and quantify drugs or poisons found in biological fluids or tissues, in foods, or at crime scenes.
- Confer with ballistics, fingerprinting, handwriting, documents, electronics, medical, chemical, or metallurgical experts concerning evidence and its interpretation.
- Consult with other offices, agencies, professionals, or researchers regarding the use and interpretation of climatological information for weather predictions and warnings.
- Broadcast weather conditions, forecasts, or severe weather warnings to the public via television, radio, or the Internet or provide this information to the news media.
- Gather data from sources such as surface or upper air stations, satellites, weather bureaus, or radar for use in meteorological reports or forecasts.
- Develop or use mathematical or computer models for weather forecasting.
- Prepare weather reports or maps for analysis, distribution, or use in weather broadcasts, using computer graphics.
- Interpret data, reports, maps, photographs, or charts to predict long- or short-range weather conditions, using computer models and knowledge of climate theory, physics, and mathematics.
- Prepare forecasts or briefings to meet the needs of industry, business, government, or other groups.
- Analyze historical climate information, such as precipitation or temperature records, to help predict future weather or climate trends.
- Analyze climate data sets, using techniques such as geophysical fluid dynamics, data assimilation, or numerical modeling.
- Conduct numerical simulations of climate conditions to understand and predict global or regional weather patterns.
- Conduct meteorological research into the processes or determinants of atmospheric phenomena, weather, or climate.
- Prepare scientific atmospheric or climate reports, articles, or texts.
- Speak to the public to discuss weather topics or answer questions.
- Develop computer programs to collect meteorological data or to present meteorological information.
- Develop and deliver training on weather topics.
- Apply meteorological knowledge to issues such as global warming, pollution control, or ozone depletion.
- Design or develop new equipment or methods for meteorological data collection, remote sensing, or related applications.
- Measure wind, temperature, and humidity in the upper atmosphere, using weather balloons.
- Direct forecasting services at weather stations or at radio or television broadcasting facilities.
- Research the impact of industrial projects or pollution on climate, air quality, or weather phenomena.
- Collect air samples from planes or ships over land or sea to study atmospheric composition.
- Conduct wind assessment, integration, or validation studies.
- Teach college-level courses on topics such as atmospheric and space science, meteorology, or global climate change.
- Create visualizations to illustrate historical or future changes in the Earth's climate, using paleoclimate or climate geographic information systems (GIS) databases.
- Estimate or predict the effects of global warming over time for specific geographic regions.
- Formulate predictions by interpreting environmental data, such as meteorological, atmospheric, oceanic, paleoclimate, climate, or related information.
- Perform managerial duties, such as creating work schedules, creating or implementing staff training, matching staff expertise to situations, or analyzing performance of offices.
- Consult with other offices, agencies, professionals, or researchers regarding the use and interpretation of climatological information for weather predictions and warnings.
- Provide assistance to internal or external auditors in compliance reviews.
- Report violations of compliance or regulatory standards to duly authorized enforcement agencies as appropriate or required.
- Identify compliance issues that require follow-up or investigation.
- Discuss emerging compliance issues to ensure that management and employees are informed about compliance reporting systems, policies, and practices.
- File appropriate compliance reports with regulatory agencies.
- Maintain documentation of compliance activities, such as complaints received or investigation outcomes.
- Consult with corporate attorneys as necessary to address difficult legal compliance issues.
- Conduct or direct the internal investigation of compliance issues.
- Provide employee training on compliance related topics, policies, or procedures.
- Serve as a confidential point of contact for employees to communicate with management, seek clarification on issues or dilemmas, or report irregularities.
- Verify that all regulatory policies and procedures have been documented, implemented, and communicated.
- Disseminate written policies and procedures related to compliance activities.
- Prepare management reports regarding compliance operations and progress.
- Conduct periodic internal reviews or audits to ensure that compliance procedures are followed.
- Keep informed regarding pending industry changes, trends, or best practices.
- Monitor compliance systems to ensure their effectiveness.
- Direct the development or implementation of policies and procedures related to compliance throughout an organization.
- Advise internal management or business partners on the implementation or operation of compliance programs.
- Design or implement improvements in communication, monitoring, or enforcement of compliance standards.
- Collaborate with human resources departments to ensure the implementation of consistent disciplinary action strategies in cases of compliance standard violations.
- Develop risk management strategies based on assessment of product, compliance, or operational risks.
- Advise technical professionals on the development or use of environmental compliance or reporting tools.
- Develop or implement environmental compliance plans for programs, such as air quality, storm water, wastewater treatment, hazardous waste management, pollution prevention, or solid waste management.
- Conduct environmental audits to ensure adherence to environmental standards.
- Evaluate testing procedures to meet the specifications of environmental monitoring programs.
- Review or modify policies or operating guidelines to comply with changes to environmental standards or regulations.
- Review communications such as securities sales advertising to ensure there are no violations of standards or regulations.
- Oversee internal reporting systems, such as corporate compliance hotlines.
- Verify that software technology is in place to adequately provide oversight and monitoring in all required areas.
- Direct environmental programs, such as air or water compliance, aboveground or underground storage tanks, spill prevention or control, hazardous waste or materials management, solid waste recycling, medical waste management, indoor air quality, integrated pest management, employee training, or disaster preparedness.
- Provide assistance to internal or external auditors in compliance reviews.
- Collaborate with hydrogeologists to evaluate groundwater or well circulation.
- Test and analyze samples to determine their content and characteristics, using laboratory apparatus or testing equipment.
- Collect or prepare solid or fluid samples for analysis.
- Compile, log, or record testing or operational data for review and further analysis.
- Prepare notes, sketches, geological maps, or cross-sections.
- Participate in geological, geophysical, geochemical, hydrographic, or oceanographic surveys, prospecting field trips, exploratory drilling, well logging, or underground mine survey programs.
- Prepare or review professional, technical, or other reports regarding sampling, testing, or recommendations of data analysis.
- Adjust or repair testing, electrical, or mechanical equipment or devices.
- Read and study reports in order to compile information and data for geological and geophysical prospecting.
- Interview individuals, and research public databases in order to obtain information.
- Plot information from aerial photographs, well logs, section descriptions, or other databases.
- Assemble, maintain, or distribute information for library or record systems.
- Operate or adjust equipment or apparatus used to obtain geological data.
- Plan and direct activities of workers who operate equipment to collect data.
- Set up or direct set-up of instruments used to collect geological data.
- Record readings in order to compile data used in prospecting for oil or gas.
- Create photographic recordings of information, using equipment.
- Measure geological characteristics used in prospecting for oil or gas, using measuring instruments.
- Participate in the evaluation of possible mining locations.
- Assess the environmental impacts of development projects on subsurface materials.
- Evaluate and interpret core samples and cuttings, and other geological data used in prospecting for oil or gas.
- Supervise well exploration, drilling activities, or well completions.
- Inspect engines for wear or defective parts, using equipment or measuring devices.
- Develop and design packing materials and handling procedures for shipping of objects.
- Apply new technologies, such as improved seismic imaging techniques, to locate untapped oil or natural gas deposits.
- Collect data on underground areas, such as reservoirs, that could be used in carbon sequestration operations.
- Collect geological data from potential geothermal energy plant sites.
- Compile data used to address environmental issues, such as the suitability of potential landfill sites.
- Conduct geophysical surveys of potential sites for wind farms or solar installations to determine their suitability.
- Evaluate and interpret seismic data with the aid of computers.
- Collaborate with hydrogeologists to evaluate groundwater or well circulation.