The Microbiological Environmental Monitoring Program course is designed to meet the USDA HACCP and FDA HACCP and FSMA requirements for environmental pathogens controls. It has also been expanded to cover CORONAVIRUS control program for food processing establishments to meet compliance with CDC and OSHA requirements.

Food Production and Processing Sites Mapping and Analysis

The Application of GIS in Food Production and Processing Site Selection in implementation of HACCP, FSMA and other Food Safety Systems.

The site selected to grow, process, store, sell and serve plant and animal foods for consumption anywhere on earth has a great impact on food safety. If the land, water and air of the site contains toxic pollutants, the site must be examined for suitability for food production and consumption, either on land or in water. In addition, natural hazards such as flood, fire, earthquake, landslide and other natural hazards of the site also could threaten food safety. Fortunately, geographic information System (GIS) Software and Science are great tools that can be used to protect food from environmental hazards by selecting a proper site for food production, processing and consumption.

Geospatial data has information about the locations and characteristics of natural features such as mountains, rivers, lakes, oceans, faults, islands, continents, geological formations, volcanoes, earthquakes, tectonic plates and natural fire, floods, and landslides. In addition, it has information about cultural features such as farms, ranches, food processing establishments, roads, houses, stores, shopping centers, hotels, zoning, states, cities, counties, countries, and city parks. A GIS software, such as ESRI ArcView, can create, store, display and analyze these data. Terrabytes of geospatial data exist that can be used to determine patterns, trends and relationships among features that can used to create information to solve myriad natural, social and economic and food safety. problems. There are many GIS software, both available commercially and non-commercially.

Natural And Cultural Features

This image contains many houses that are located in the valley at the foot of the Santa Monica Mountains. The natural features consist of a variety of vegetation, slopes of various degrees and soils of different kinds, mountains and clouds. Examples of cultural features are houses, roads, water and utility systems. The image is a raster data format that can be changed to a vector data format as different layers that can be displayed and analyzed in a GIS software.

What are not seen in the picture left are features underneath the surface such as rock formations, utility lines, soil type, water beds, and geological history. All the data from the core of the earth to the Sun has an impact on what is seen in this picture and can be translated to a layer in a GIS software and viewed and analyzed. Houses, farms, food processing sites are excellent examples of cultural features, and usually points of different sizes and shapes are used to represent them on a GIS layer. Area features such as lakes and city parks are represented using polygons, and linear features such as roads and streets are represented using lines of different styles.

Point, Linear and Polygon Geometries Used to Map Features

The house’s location information, such as longitude and latitude, is used to represent it on a digital or paper map. This location information can be accompanied by many kinds of attribute information such as price, type, age, ownership in a GIS software. The houses are represented using points of various sizes and shapes. The linear features , such as streets, roads, streams, faults, utility lines, are represented using lines. Area features ,such as city parks and vegetation, are represented on the map using polygon geometry.

The point features are numbered so they could be explained in the attached database in the GIS softwrae.

Representing Natural and Cultural Features as Layers in the GIS Software

This image by ESRI shown here shows display similar features occupy their own layers. Trees are in one layer, streams in one layer and vegetation in another layer. By creating layers that represent the same features, we can put transparent layers on top of each other and view and analyse trends, patterns and relationships among them. In this example we can see three layers of streams, old growth trees and soil. Then we can see if there is a relationship between soil type and trees or the pattern of tree distribution along the stream, among many others.

An Example of GIS Layers in a GIS Software

This is an example of hundreds of layers that can be incorporated in a GIS project. Layers can be agricultural, commercial, industrial sites or geology, hydrology, land use, vegetation, topography, flood zones, Superfund sites and houses and stores sites. Numbers, such as population of cities, counties and countries, also can be mapped,viewed and analyzed. By combining layers of satellite images, topographic maps, surveying data, and census data, GIS layers and GIS software present powerful tools to provide solutions to countless problems.

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