Will “Plant Breeder Scientist” be Replaced By Robots? 🤔

Job Description

Conduct research in breeding, physiology, production, yield, and management of crops and agricultural plants or trees, shrubs, and nursery stock, their growth in soils, and control of pests; or study the chemical, physical, biological, and mineralogical composition of soils as they relate to plant or crop growth. May classify and map soils and investigate effects of alternative practices on soil and crop productivity.

Job Details

• The SOC (Standard Occupational Classification) code is 19-1013.00
• The Mean Annual Wage in the U.S. is $ 69,290.00
• The Mean Hourly Wage is $ 33.00
• Currently, there are 14,690 people on this job

☝️ Information based on the reference occupation “Soil and Plant Scientists”.

Also Known As…

• Soil and Plant Scientists
• Soil Scientist
• Soil Fertility Extension Specialist
• Research Soil Scientist
• On-Site Soil Evaluator
• Microbiology Soil Scientist
• Extension Specialist
• Crop Nutrition Scientist
• Agronomy Specialist
• Agronomy Research Manager
• Agronomist
• Wholesale Agronomist
• Viticulturist
• Technical Agronomist
• Soil Specialist
• Soil Expert
• Scientist Propagator
• Pomologist
• Plant Physiologist
• Plant Pathologist
• Plant Breeder
• Plant Anatomist
• Hybrid Corn Breeder
• Horticulturist
• Floriculturist
• Field Research Assistant
• Entomologist
• Cotton Breeder
• Corn Breeder
• Botanist
• Arborist
• Arboriculturist
• Arboreal Scientist
• Apiculturist
• Agriculturist

Tasks for “Plant Breeder Scientist”

• Consult with engineers or other technical personnel working on construction projects about the effects of soil problems and possible solutions to these problems.
• Conduct experiments investigating how soil forms, changes, or interacts with land-based ecosystems or living organisms.
• Communicate research or project results to other professionals or the public or teach related courses, seminars, or workshops.
• Investigate soil problems or poor water quality to determine sources and effects.
• Develop ways of altering soils to suit different types of plants.
• Develop improved measurement techniques, soil conservation methods, soil sampling devices, or related technology.
• Study insect distribution or habitat and recommend methods to prevent importation or spread of injurious species.
• Investigate responses of soils to specific management practices to determine the use capabilities of soils and the effects of alternative practices on soil productivity.
• Investigate responses of soils to specific management practices to determine the effects of alternative practices on the environment.
• Provide advice regarding the development of regulatory standards for land reclamation or soil conservation.
• Develop environmentally safe methods or products for controlling or eliminating weeds, crop diseases, or insect pests.
• Develop new or improved methods or products for controlling or eliminating weeds, crop diseases, or insect pests.
• Identify degraded or contaminated soils and develop plans to improve their chemical, biological, or physical characteristics.
• Perform chemical analyses of the microorganism content of soils to determine microbial reactions or chemical mineralogical relationships to plant growth.
• Plan or supervise waste management programs for composting or farming.
• Plan or supervise land conservation or reclamation programs for industrial development projects.
• Survey undisturbed or disturbed lands for classification, inventory, mapping, environmental impact assessments, environmental protection planning, conservation planning, or reclamation planning.
• Develop methods of conserving or managing soil that can be applied by farmers or forestry companies.
• Conduct experiments regarding causes of bee diseases or factors affecting yields of nectar or pollen.
• Provide information or recommendations to farmers or other landowners regarding ways in which they can best use land, promote plant growth, or avoid or correct problems such as erosion.
• Study ways to improve agricultural sustainability, such as the use of new methods of composting.
• Study soil characteristics to classify soils on the basis of factors such as geographic location, landscape position, or soil properties.
• Research technical requirements or environmental impacts of urban green spaces, such as green roof installations.
• Conduct research into the use of plant species as green fuels or in the production of green fuels.
• Conduct experiments to develop new or improved varieties of field crops, focusing on characteristics such as yield, quality, disease resistance, nutritional value, or adaptation to specific soils or climates.
• Identify or classify species of insects or allied forms, such as mites or spiders.
• Conduct research to determine best methods of planting, spraying, cultivating, harvesting, storing, processing, or transporting horticultural products.

Related Technology & Tools

• Gamma ray spectrometers
• Laboratory muffle furnaces
• Soil analysis hydrometers
• Graduated glass cylinders
• Refrigerated microfuges
• Cell tissue culture incubators
• Organic carbon analyzers
• Laboratory test tubes
• Hot water shaking baths
• Spectrophotometers
• Canopy analyzers
• Laboratory sieves
• Conductivity meters
• Polymerase chain reaction PCR equipment
• Global positioning system GPS receivers
• Calibrated soil scoops
• pH indicators
• Atomic absorption AA spectrometers
• Laboratory drying ovens
• Laboratory growth chambers
• Glass beakers
• Soil thermometers
• Thermocouples
• Soil augers
• Digital cameras
• Laboratory mixers
• Synthetic aperture radar SAR
• Osmometers
• Gel documentation systems
• Gel dryers
• Electron microscopes
• Precision balances
• High speed centrifuges
• Ground penetrating radar GPR
• Dataloggers
• Glass flasks
• Porometers
• Heat flux plates
• Fluorimeters
• Soil moisture neutron probes
• Polarizing microscopes
• Psychrometers
• Tensiometers
• Gel electrophoresis systems
• Epifluorescence microscopes
• Inductively coupled plasma atomic emission spectrometers ICP-AES
• Erlenmeyer flasks
• Ion chromatographs
• Laboratory grinders
• Lysimeters
• Colorimeters
• Personal computers
• Sample containers
• Flame photometers
• Infrared gas analyzers
• Personal digital assistants PDA
• Laptop computers
• Mass spectrometers
• Circulating water baths
• Desktop computers
• Digital pH meters
• Light detection and ranging LIDAR systems
• Laminar flow hoods
• Microtiter plate readers
• X ray fluorescence XRF spectrometers
• Hand augers
• Laser particle sizers
• Infrared cameras
• Autosamplers
• Reciprocating shaker water baths
• Luminometers

• SAS
• Variogram Estimation and Spatial Prediction plus Error Vesper
• SoilVision Systems SVOFFICE
• Microsoft Office
• GSLIB
• S-GeMS
• National Resources Conservation Service NRCS Soils Explorer
• Microsoft Access
• STATISTICA
• PedonCE
• National Soil Information System NASIS
• GEOEAS
• Soil information databases
• European Soil Erosion Model EUROSEM
• 3dMapper
• LandSerf
• Gstat
• SPAW
• ESRI ArcGIS software
• Microsoft PowerPoint
• Autodesk AutoCAD
• Leica Geosystems ERDAS IMAGINE
• Microsoft Word
• GAEA Technologies WinSieve
• Erosion Productivity Impact Calculator EPIC
• Water Erosion Prediction Project WEPP
• UNSATFLOW
• R
• National Resources Conservation Service NRCS PEDON Description Program PDP
• SPSS
• Geographic information system GIS software
• Microsoft Excel
• PC-Progress HYDRUS