Escherichia coli is a common bacterium found in the human intestinal tract and vital to the proper functioning of our digestive system. While most strains of E. coli are beneficial to humans, a few are pathogenic. The most infamous example is E. coli O157:H7.
Escherichia coli is a common bacterium found in the human intestinal tract and vital to the proper functioning of our digestive system. While most strains of E. coli are beneficial to humans, a few are pathogenic. The most infamous example is E. coli O157:H7.
Salmonella species are common, naturally occurring bacteria found in the intestinal tracts of many animals and birds. When certain species of Salmonella are transferred from animals to humans – often through food contaminated with animal feces – humans experience symptoms of Salmonella poisoning.
Salmonella species are common, naturally occurring bacteria found in the intestinal tracts of many animals and birds. When certain species of Salmonella are transferred from animals to humans – often through food contaminated with animal feces – humans experience symptoms of Salmonella poisoning.
Staphylococcus aureus is a bacterium found on the skin and in the nasal passages of up to 25% of healthy people and animals. S. aureus causes foodborne illness by growing in temperature abused food and producing a heat stable toxin. Consumption of this toxin (not the bacteria) can make you very sick, this is why foodborne illness caused by S. aureus is called a food intoxication.
Listeria monocytogenes is a bacterium commonly found in soil, water, sewage, and decaying plant material. L. monocytogenes is a particularly hardy pathogen, capable of surviving in damp areas, and on stainless steel and glass within the food processing environment. Once established, it is difficult to eliminate and may often be the cause of post-process food contamination.
Clostridium botulinum is a spore forming bacterium. A spore is a phase that some cells enter when conditions become unfavorable. Spores are resistant to extreme temperatures, drying, and UV light and can be found in soil and water. Spore are found everywhere in the environment.
Drying (dehydrating) food is one of the oldest and easiest methods of food preservation. Dehydration is the process of removing water or moisture from a food product. Removing moisture from foods makes them smaller and lighter. Dehydrated foods are ideal for backpacking, hiking, and camping because they weigh much less than their non-dried counterparts and do not require refrigeration. Drying food is also a way of preserving seasonal foods for later use.
Consumers get food in many ways. They can purchase their food from a convenience store, grocery store, or supermarket, grow or raise their own food, or receive food through a food pantry or other hunger relief program when needed. Often, an individual consumer will have access to more food than they can eat in a day and so it will need to be stored until it is used. This publication will address how you can safely store your food for optimal quality until you are ready to use and consume it.
Failure to adequately wash hands is a major cause of infectious diseases. Individuals who practice poor personal hygiene while preparing food may spread diseases such as hepatitis A, salmonellosis, and shigellosis. Studies indicate that one-third (33%) of people do not wash their hands after using the restroom. This publication addresses the proper way to wash your hands.
El proceso para envasar alimentos en casa o conservas caseras, depende de la acidez del alimento, lo cual se determina por su pH. Los alimentos de baja acidez tienen un pH más grande que 4.6, y los alimentos de alta acidez tienen un pH menos que 4.6. En general, los vegetales (verduras o hortalizas) y carnes son alimentos de baja acidez, y las frutas son alimentos alta acidez. Los alimentos de alta acidez pueden procesarse de manera segura por agua hirviendo, pero los alimentos de baja acidez se deben procesar en una olla a presión para conservas.
La falta adecuada de lavar las manos es una causa importante de las enfermedades infecciosas.
The purpose of this publication is to help improve buyer understanding of retail meat and poultry product labels using text and infographics. Each infographic contains basic facts and straightforward definitions of common words and phrases included on labels used on meat and poultry products found in grocery stores nationwide.
Is it safe to eat inside a restaurant? Do I need to do something with my groceries? Should I accept produce from my friend's garden? How can I preserve my garden extras? Are the seeds I found in my mailbox safe to plant? Expert presenters Dr. Renee Boyer and Dr. Melissa Chase guide us on the best ways to keep our families safe from Coronavirus and food-borne illnesses during COVID-19.
This publication is a guide to selling raw, processed, and prepared food products from your home, at farmers’ markets, stores, and roadside stands. This guide will detail the answers to those questions, which vary depending on the type of food product and preparation process used. All food producers should follow the relevant good manufacturing practices (for example, those outlined in 21 CFR 114 and/or 21 CFR 117). This guide includes information related to meat, poultry, dairy, seafood, crustacean, shellfish, produce, maple syrup, honey, eggs, baked goods, jams, preserves, jellies, fruit butters, acidified canned foods, dehydrated foods, packaged refrigerated or frozen foods, kombucha, juice, pet treats, samples, time and temperature controlled for safety foods, and food service vendors.
Consumers enjoy eating a variety of seafood and can find many choices of fresh as well as frozen seafood in the refrigerated and freezer cases of grocery stores.Abigail Villalba, Extension Specialist, Virginia Seafood Agricultural Research and Extension Center Michael Jahncke, Professor, Food Science and Technology, and Director, Virginia Seafood Agricultural Research and Extension Center Michael Schwarz, Extension Specialist, Virginia Seafood Agricultural Research and Extension Center David Kuhn, Assistant Professor, Food Science and Technology, Virginia Tech Alisha Farris, Extension Specialist, Human Nutrition, Foods, and Exercise, Virginia Tech
According to the Centers for Disease Control and Prevention, as many as 11 million Americans have food allergies. A food allergy can trigger symptoms ranging from a tingling mouth, swelling of the tongue and throat, hives, and abdominal cramps to anaphylaxis and — in severe cases — death (CDC 2012). Consumers with known allergies must read labels to identify allergenic foods or ingredients on packaged products so they can more easily avoid them.
This handbook represents a joint effort among Extension specialists and researchers from 15 land-grant universities in the U.S. who work in the area of vegetable production. These specialists and researchers represent a wide array of disciplines: agricultural engineering, agribusiness, entomology, food safety, horticulture (vegetable production), plant pathology, postharvest physiology, soil science, and weed science. This handbook comprises up-to-the-minute information developed from research and Extension projects conducted throughout the southeastern United States. The key idea behind this handbook is to provideyou with a practical resource that conveniently fits on your dashboard. It contains the information that you need to manage your vegetable crops, including which varieties to plant, planting dates, fertilizer recommendations, cover crop selection and conservation tillage options, pesticide selection, grafting, fertigation, plasticulture, postharvest handling, alternative pest management tools and suggestions, as well as many other topics.
This publication highlights the nutritional profile of the Chesapeake Bay Blue Catfish (Ictalurus furcatus), an invasive species whose harvest supports ecological balance and economic development in Virginia. Research conducted by Virginia Tech’s Seafood Agricultural Research and Extension Center (AREC) reveals that Blue Catfish fillets are rich in high-quality protein (16.63 g/100 g) and omega-3 fatty acids (852 mg/100 g), including 598 mg of EPA and DHA, surpassing many common fish species except for salmon and mackerel. With consistent nutritional value across size ranges, Blue Catfish represents a healthy, sustainable seafood choice that addresses both public health and environmental stewardship.
When you are volunteering as a Virginia Cooperative Extension Master Food Volunteer or as a volunteer for other Family and Consumer Sciences programs, you may have the opportunity to share what you learn with others by giving a foods demonstration. Talking in front of a group of friends and other volunteers can be a little scary at first, but with planning and practice, you will be able to give a foods demonstration with ease.
A good demonstration can motivate others to try new fruits and vegetables, eat more servings of them, and prepare them more nutritionally. Before you present a farmers market demonstration, check with the local market manager and/or health department for current regulations. Next, pull out the old razzle-dazzle and leave your audience so star struck, they will come back to the farmers market for more! This demonstration activity can be used by adults and older youth.
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Have ever wondered what it would be like to consume raw milk? This publication reviews why we pasteurize milk and the risks you should consider before taking a taste.
Whether sharing a recipe with family and friends or using it in a classroom setting or professional publication, knowing how to write a clear, concise, easy-to-follow recipe is an important skill. It takes creativity and practice to develop a delicious and wholesome dish. Writing a recipe so others can duplicate your results successfully, time after time, requires adhering to specific guidelines and a set of rules.
This Virginia Cooperative Extension publication provides evidence‑based guidance for managing egg allergies, a common food allergy that can pose serious health risks. Developed by food safety and nutrition specialists at Virginia Tech, the guide helps consumers identify hidden egg ingredients on food labels, recognize foods that commonly contain eggs, and make safer choices when cooking, baking, and eating. It includes practical egg‑free substitutions and nutrition guidance to support adequate protein and vitamin A intake when eggs are avoided. Intended for individuals with egg allergies, caregivers, educators, and food service professionals, this resource supports food allergy awareness and risk reduction and reflects Extension’s land‑grant mission to protect public health through research‑based education.
This Virginia Cooperative Extension publication provides evidence‑based guidance for managing fish allergies, a major food allergy that can cause serious and life‑threatening reactions. Developed by food science and seafood safety specialists at Virginia Tech, the guide helps consumers identify hidden sources of fish in common foods, understand food label terminology, and recognize fish species that must be avoided. It also highlights unexpected foods that may contain fish ingredients and offers alternative protein sources to support adequate nutrition when fish is excluded from the diet. Intended for individuals with fish allergies, caregivers, educators, and food service professionals, this resource promotes food allergy awareness and risk reduction and reflects Extension’s land‑grant mission to protect public health through research‑based education.
This Virginia Cooperative Extension publication provides evidence‑based guidance for managing milk allergies, one of the most common food allergies affecting children and adults. Developed by food safety and nutrition specialists at Virginia Tech, the guide helps consumers identify hidden milk ingredients on food labels, recognize foods and products that contain milk proteins, and make safer dietary choices. It includes nutrition guidance and alternative food sources to help meet protein, calcium, and riboflavin needs when milk and dairy products are avoided, along with practical milk‑free substitutes for cooking and food preparation. Intended for individuals with milk allergies, caregivers, educators, and food service professionals, this resource supports food allergy awareness and risk reduction and reflects Extension’s land‑grant mission to protect public health through research‑based education.
This publication provides evidence‑based guidance for individuals managing peanut allergies, emphasizing allergen awareness, label literacy, and risk reduction through informed food choices. It identifies common foods, ingredients, and culinary contexts in which peanuts or peanut-derived proteins may be present, including baked goods, candies, fried foods, sauces, and various ethnic cuisines. The guide highlights hidden sources of peanut allergens and stresses the importance of carefully reading ingredient labels, particularly for products containing hydrolyzed plant proteins, flavorings, and oils. A comprehensive list of peanut-related ingredients to avoid is included to support consumer safety. The publication also clarifies distinctions among peanut oil processing methods, noting that highly refined peanut oil may be free of allergenic proteins while cold-pressed or expeller-pressed oils remain unsafe. Alternative food sources for essential nutrients such as protein are suggested.
Remember to ALWAYS read food labels carefully and watch for hidden allergens. Hidden allergens are ingredients derived from or containing major food allergens with common names that may be unfamiliar to consumers.
This Virginia Cooperative Extension publication provides practical guidance for individuals managing soy allergies. It outlines safe food substitutes, alternative protein sources, common foods and ingredients that may contain soy, and the importance of carefully reading food labels to identify hidden allergens. The guide also explains risks associated with cold‑pressed and expeller‑pressed soybean oils.
Remember to ALWAYS read food labels carefully and watch for hidden allergens. Hidden allergens are ingredients derived from or containing major food allergens with common names that may be unfamiliar to consumers.
This publication provides practical guidance for individuals managing wheat allergies, including an overview of foods and ingredients that must be avoided and suitable wheat‑free alternatives that supply essential nutrients such as complex carbohydrates, B‑vitamins, and fiber. It emphasizes the importance of carefully reading food labels to identify hidden sources of wheat and clarifies the distinction between wheat allergy and celiac disease, noting additional grains that must be avoided by individuals with gluten intolerance. Designed for consumers, educators, and health professionals, this resource supports safe food choices and informed dietary planning for those affected by wheat-related food allergies.
The PSR standards (subpart I) addresses both wildlife and domesticated animals. Animals, both wild and domesticated, may carry bacteria, viruses, or parasites that can make people sick. While animals are common in many locations and hard to control, the PSR standards stress the importance of growers limiting animal access to fields and not harvesting contaminated produce.
A meal that has been prepared, fully cooked, packaged and refrigerated or frozen with the intent of being sold as a packaged meal, for the consumer to prepare at home.
Volunteer teachers are important to Virginia Cooperative Extension (VCE). Volunteers convey information on a variety of topics by teaching or assisting with programs. Although there are many methods for delivering content, this publication will focus on a selection of teaching techniques to foster dialogue.
Environmental monitoring programs (EMPs) are a proactive approach that operations may take to reduce microbial contamination events. EMPs are designed to assess the effectiveness of the hygiene and sanitation practices in a food environment and provide valuable information to avoid microbial contamination of food products. EMPs are specific to each operation and depend upon the food(s) that are handled, packed, and or processed; operation size; operation layout; among other factors. If EMPs are effective, operations will be alerted to possible pathogen harborage locations based on positive test results, and operations will be able to implement corrective actions to reduce contamination events. Corrective actions may include targeted cleaning and sanitation of locations/adjacent locations that test positive and implementation of new policies or practices to reduce cross-contamination (for example, new employee or equipment traffic patterns). This publication serves as an introductory guide.
Jams, preserves, jellies, and fruit butters are defined as a mixture of fruit, sugar, and pectin that forms a thick or semi-solid gel. These products are categorized by their fruit content and consistency.
Fermentation occurs when specific microorganisms (bacteria and yeasts) break down the sugars in the vegetables producing acid as a byproduct. The acid production lowers the pH of the vegetables and creates a unique, desirable flavor. This definition does not include vegetables that have been acidified or pickled by adding extra acid (for example, adding vinegar) to decrease the pH.
Cold plasma is a new food processing technology that can effectively reduce pathogens on a variety of food products. After conducting a nationwide survey with consumers, it was found that the term 'Cold Plasma' was perceived negatively by the consumer.
Pasteurization is one of the most common food processing technologies used. It is typically used to process milk, but can also be used for many other foods including juices, eggs, cheese, butter and vinegar. This publication was created to provide simple, easy to understand science based information on what this technology is and how it can make foods safer. The goal is for the public to be more aware and accepting of various technologies that are used to make our food supply safe.
The Produce Safety Rule (PSR) is one of the seven major food safety regulations that are authorized by the Food Safety Modernization Act (FSMA). The PSR standards (subpart F) describe the minimum requirements for treated and untreated biological soil amendments of animal origin and human waste for reducing public health risk and the risk of contaminating covered produce. The PSR standards include requirements for determining if biological soil amendments of animal origin are treated or untreated and how to handle them. The standards also address the use of human waste, treatment of the biological soil amendments, application methods and intervals, and recordkeeping.
The Food Safety Modernization act (FSMA) Produce Safety Rule (PSR) covers packinghouse activities in several subparts of the regulation. These include subpart D - worker health and hygiene, subpart E - agricultural water, subpart K - growing, harvesting, packing, and holding activities, and subpart L - equipment, tools, buildings, and sanitation. Applying the practices required by the PSR to packing houses is an important element to ensure the safety of fruits and vegetables.
Dehydrated foods are foods where the available water within a product is removed. It is one of the oldest known methods of food preservation. Many types of foods can be dehydrated including fruits, vegetables, and meats
Often understanding the steps needed to prepare foods for sale in the direct market such as Farmers Markets can be complex. Regulations and steps for producing foods safely can vary greatly depending on the food produced. This fact sheet provides detailed steps on how to safely prepare and sell pet food and treats in the local market. Additionally, the publication includes steps a food producer must follow to get approved by the Virginia Department of Agriculture and Consumer Services to sell these products.
High pressure processing (HPP) is a technology in which foods are exposed to high pressure inside a chamber. The high pressure kills microorganisms and breaks down enzymes (molecules that speed up the rate of chemical reactions in food, like browning) without the use of extreme temperatures (Fellows 2009).
The condition in which sprouts are produced is ideal for the growth of the foodborne pathogens, and if proper food safety practices and handling are not followed, sprouts can harbor pathogens when the seeds are sprouted. Many outbreaks of foodborne illness associated with consumption of raw sprouts have been reported in recent years, mainly by E. coli and Salmonella.
Time and temperature abuse occurs when seafood is held at uncontrolled temperatures that allow bacteria to grow. These bacteria can include pathogens and food spoilage bacteria that reduce product shelf-life and quality. Temperature fluctuations can happen at any point in the cold chain: during harvesting, processing, distribution or retailing. Temperature measurements are essential to assure seafood quality and safety, maintain business-to-business accountability, comply with regulations, and follow Hazard Analysis and Critical Control Point (HACCP) plans. Controlling humidity in conjunction with temperature is also important for live seafood products’ survival.
Postharvest handling of potatoes on the Eastern Shore of Virginia (ESV) regularly includes the use of flumes, dump tanks, and spray washers. Water used in flumes and dump tanks is often re-circulated to conserve water and energy. Soil, plant matter, and disease-causing pathogens can potentially accumulate in water during bin dumping and flume recirculation.
In Virginia, the Virginia Department of Agriculture and Consumer Services (VDACS) is enforcing the Food Safety Modernization Act (FSMA) Produce Safety Rule. The FSMA Produce Safety Rule is a regulatory rule by the Food and Drug Administration (FDA) that sets the science-based minimum standards for the safe growing, harvesting, packing, and holding of fruits and vegetables (FDA, 2015). All covered farms are subject to inspection. To help prepare for the regulation, operations can choose to have an On-Farm Readiness Review (OFRR). The OFRR is a program designed specifically to help produce operations align their food safety practices with the FSMA Produce Safety Rule and prepare them for an inspection by VDACS. A fully trained VCE agent conducts the OFRR, lasts no longer than 2 hours, is 100% confidential, and is entirely free.
Under the Food Safety Modernization Act (FSMA) Produce Safety Rule (PSR), agricultural water is defined as “water used in covered activities on covered produce where water is intended to, or is likely to, contact the harvestable portion of the crop”. Production water is agricultural water used during produce growing activities prior to harvesting. Examples of production water include irrigation, fertigation, spray applications, dust abatement, frost protection, among others. Remember production water has to meet the definition of agricultural water to be regulated under the FSMA PSR. This document will cover why to test your production water, what to test your production water for, how to sample your production water, and most importantly how to interpret your production water test results.
Food safety risks and responsibilities: Farmers markets are a great way for consumers to get fresh produce, to support the local economy, and for vendors to increase profits. Farmers markets are becoming more popular, but the safety of products sold is essential for their continued growth.
Minimizing the risk of foodborne illness from produce begins on the farm itself. Whether you are considering growing fruits or vegetables on a new piece of land or you have been growing produce for many years, it is worth thinking about the characteristics of the land you are using and how it has been used in the past.
COVID-19 spreads through close contact between people. To prevent spread, physical distance between people must be maintained. This can often be challenging for employees in the food industry who work in close contact at workstations. Below are some examples of how to reduce spread in vegetable packinghouses.
On April 9, 2020, a webinar was presented on how the novel coronavirus, SARS-CoV2, impacts food safety practices along the farm to fork continuum, focusing primarily on production and processing practices (Chase et al., 2020a,b,c,d). This factsheet provides answers to questions discussed and posed during the webinar. We will briefly look at what we know about SARS-CoV2 behavior, such as how it is transmitted, its viability, its inactivation, and then provide recommendations for food-based businesses.
The purpose of this extension publication is to provide food processors with basic guidelines to follow and to use when discussing Coronavirus (COVID-19) controls during shared transportation and housing.
This publication is part of a series of publications titled "Strategies to control the spread of COVID at seafood processing plants". The information in this publication provides seafood processors with strategies that can be implemented to minimize exposure of the workforce to the COVID virus by using cleaning and disinfection practices.
This publication provides seafood processors with strategies to control and minimize the spread of COVID at seafood processing plants. The publication discusses steps that employers and employees must take to ensure the continuity of operations of essential functions when employees are returning to work after exposure to COVID.
Water is an essential part of life and an essential part of any farm. It is necessary for growing produce and often for cleaning produce before it is sold. Water may also be used to protect crops from frost or to apply fertilizers or pesticides. Ensuring that you have clean water on the farm for these uses is an important part of minimizing contamination by disease-causing microorganisms called pathogens.
Although manure is a valuable source of nutrients, it is also one of the greatest potential sources of pathogens that can cause foodborne illnesses. These pathogens can be found in the feces of humans, pets, farm animals and wild animals. Manure can contain harmful bacteria such as E. coli O157:H7, Salmonella spp., Campylobacter spp. and Listeria monocytogenes as well as viruses and parasites.
One of the ways that fruits and vegetables can become contaminated with illness-causing bacteria, viruses, or parasites is through contact by farm workers. If these workers are sick or not practicing good hygiene, then contamination of foods can occur. Promoting good worker hygiene is one of the most important steps a farmer can take to prevent contamination of their fruits and vegetables with foodborne pathogens.
Promoting good worker hygiene is one of the most important steps farmers can take to prevent contamination of their fruits and vegetables with foodborne disease-causing microorganisms referred to as pathogens. A key step in promoting good hygiene is ensuring that there are handwashing stations and toilet facilities available on the farm in close proximity (not more than one-quarter of a mile) to the workers.
Harvest time means that fruits and vegetables will soon be on a consumer’s table. Consequently, it is critical to handle produce in a way that minimizes potential contamination with pathogens. It is important to follow some simple guidelines to prevent contamination and to control the growth of bacteria that might be present. The following steps can help to reduce risk of foodborne illness.
Getting fresh produce from the field to the market is another step where care must be taken to keep the product safe. It is important to prevent contamination of the produce with microorganisms that could cause foodborne illness and also to hold the produce under conditions that minimize the growth of harmful bacteria.
Local, small-scale farmers are proud of the fruits and vegetables they produce and strive to offer products that are inherently safe and healthy for consumers. However, although rare, foodborne illnesses have been associated with the production and handling of fresh produce. Fruits and vegetables that are eaten raw pose the greatest risk since cooking will kill pathogens.
Food safety risks and responsibilities: Farmers markets are a great way for consumers to get fresh produce, to support the local economy, and for vendors to increase profits. Farmers markets are becoming more popular, but the safety of products sold is essential for their continued growth. Understanding the causes of foodborne illness and the proper procedures to decrease the risk of contamination of the food products is the responsibility of the both the managers and the vendors. The safety of food products begins on the farm, but safe food handling strategies must be used at all times to ensure that a safe, high quality product gets to the consumer.
A study was conducted to provide support for food producers involved in food production with small-scale freeze dryers (for example, those commonly used in home- or commercial kitchen-based businesses). Producers should prioritize consistency in food preparation to ensure even freeze-drying and store products in containers that minimize gas exchange to get the most of the product shelf-life.
Creating and maintaining community and school gardens has been identified as an effective strategy to increase healthy food awareness and consumption. Unfortunately, fresh fruits and vegetables have been linked to hundreds of outbreaks of foodborne illness in the U.S. since 1990. This document outlines the recommended agricultural practices for food safety in gardens.
Combine your love of cooking, nutrition, physical activity, and helping others by becoming a Virginia Cooperative Extension Master Food Volunteer. The Master Food Volunteer Program helps Extension reach more Virginians with up-to-date, research-based knowledge on food preparation, nutrition, food safety, and physical activity.
Food allergies affect approximately 11 percent of adults and approximately 8 percent of children in the United States. Over the last decade, the number of young people with food allergies has increased. The Centers for Disease Control and Prevention (CDC) reported an increase in food allergies in children of 50% from 1997 to 2011. Food allergies can be serious and life-threatening; severe reactions kill 100 to 200 Americans per year (University of Nebraska-Lincoln, 2023). The risk of accidental exposure to foods can be reduced if physicians, parents, child care providers, and teachers work to minimize risks and provide a safe environment for children with food allergies. This publication provides general information and guidelines to manage food allergies at home, schools, day care centers, and camps.
This factsheet describes Sesame Allergies and how to manage them. This new allergen was added to the big FDA allergens list in 2023.
The purpose of this white paper is to convey findings of a large Hard Cider Sensory Project conducted from 2020-2022, with realistic applications for how best to communicate the sensory quality of cider. Recommendations made in this white paper are based on the most current research in the field initiated by researchers at Virginia Tech and Cornell University. These sensory-focused research projects were funded by the United States Department of Agriculture (USDA) and the National Institute of Food and Agriculture (NIFA) to support growth of the hard cider industry particularly in the Northeast and Mid-Atlantic United States.
To support hunger relief work, and to keep safe, quality food from ending up in a landfill, the Code of Virginia (§§ 3.2-5144 and 35.1-14.2) and U.S. Code (42 U.S.C. § 1791) provides certain regulatory exemptions and liability protections to organizations which distribute donated food to people who need it. This includes nonprofit organizations and qualified direct donors. This publication is meant to highlight the regulatory exemptions and liability protections which exist for organizations which distribute donated foods. This publication does not contain legal advice, and any legal questions should be directed to a qualified legal professional.
Assessing On-Farm Produce Safety Risks Modules are a series of nine videos to assist you in creating a food safety program and preparing you for a GAP audit. These videos are based off of a series of seven factsheets (FST-400NP through 406NP) available through Virginia Cooperative Extension. In this module, we are going to explore how food safety can play into market access, the ways market sectors are similar and different from each other in terms of requirements, and why it is important to always recognize that there is not a ‘one size fits all’ for food safety standards across market sectors.
Assessing On-Farm Produce Safety Risks Modules are a series of nine videos to assist you in creating a food safety program and preparing you for a GAP audit. These videos are based off of a series of seven factsheets (FST-400NP through 406NP) available through Virginia Cooperative Extension. In this module, we are going to explore how food safety can play into market access, the ways market sectors are similar and different from each other in terms of requirements, and why it is important to always recognize that there is not a ‘one size fits all’ for food safety standards across market sectors.
Assessing On-Farm Produce Safety Risks Modules are a series of nine videos to assist you in creating a food safety program and preparing you for a GAP audit. These videos are based off of a series of seven factsheets (FST-400NP through 406NP) available through Virginia Cooperative Extension. In this module, we are going to explore how food safety can play into market access, the ways market sectors are similar and different from each other in terms of requirements, and why it is important to always recognize that there is not a ‘one size fits all’ for food safety standards across market sectors.
Assessing On-Farm Produce Safety Risks Modules are a series of nine videos to assist you in creating a food safety program and preparing you for a GAP audit. These videos are based off of a series of seven factsheets (FST-400NP through 406NP) available through Virginia Cooperative Extension. In this module, we are going to explore how food safety can play into market access, the ways market sectors are similar and different from each other in terms of requirements, and why it is important to always recognize that there is not a ‘one size fits all’ for food safety standards across market sectors.
Assessing On-Farm Produce Safety Risks Modules are a series of nine videos to assist you in creating a food safety program and preparing you for a GAP audit. These videos are based off of a series of seven factsheets (FST-400NP through 406NP) available through Virginia Cooperative Extension. In this module, we are going to explore how food safety can play into market access, the ways market sectors are similar and different from each other in terms of requirements, and why it is important to always recognize that there is not a ‘one size fits all’ for food safety standards across market sectors.
Assessing On-Farm Produce Safety Risks Modules are a series of nine videos to assist you in creating a food safety program and preparing you for a GAP audit. These videos are based off of a series of seven factsheets (FST-400NP through 406NP) available through Virginia Cooperative Extension. In this module, we are going to explore how food safety can play into market access, the ways market sectors are similar and different from each other in terms of requirements, and why it is important to always recognize that there is not a ‘one size fits all’ for food safety standards across market sectors.
Assessing On-Farm Produce Safety Risks Modules are a series of nine videos to assist you in creating a food safety program and preparing you for a GAP audit. These videos are based off of a series of seven factsheets (FST-400NP through 406NP) available through Virginia Cooperative Extension. In this module, we are going to explore how food safety can play into market access, the ways market sectors are similar and different from each other in terms of requirements, and why it is important to always recognize that there is not a ‘one size fits all’ for food safety standards across market sectors.
Assessing On-Farm Produce Safety Risks Modules are a series of nine videos to assist you in creating a food safety program and preparing you for a GAP audit. These videos are based off of a series of seven factsheets (FST-400NP through 406NP) available through Virginia Cooperative Extension. In this module, we are going to explore how food safety can play into market access, the ways market sectors are similar and different from each other in terms of requirements, and why it is important to always recognize that there is not a ‘one size fits all’ for food safety standards across market sectors.
Assessing On-Farm Produce Safety Risks Modules are a series of nine videos to assist you in creating a food safety program and preparing you for a GAP audit. These videos are based off of a series of seven factsheets (FST-400NP through 406NP) available through Virginia Cooperative Extension. In this module, we are going to explore how food safety can play into market access, the ways market sectors are similar and different from each other in terms of requirements, and why it is important to always recognize that there is not a ‘one size fits all’ for food safety standards across market sectors.
This fact sheet describes what food safety hazards are, who is required to conduct a hazard analysis, the purpose of hazard analysis, why conducting a hazard analysis is important, the components of a hazard analysis, resources to help evaluate hazards, and a novel worksheet to guide a food producer through the hazard analysis process.
The Hazard Analysis Worksheet to go along with Writing a Food Safety Plan: Resources for Conducting a Hazard Analysis (FST-474).
Reusable bags are commonly used for grocery shopping at a chain grocery store or the farmer’s market because they are sturdy and allow for carrying heavier loads, save money for users who live in areas where there is a fee for using plastic or paper bags, come in different designs and are made from different fabrics like canvas, nylon, among others, which allow the user creative expression, and are an environmentally friendly alternative to single-use plastic bags. This factsheet explores the food safety concerns about reuseable grocery bags.
The Sanitary Transportation of Human and Animal Food Rule, often simply referred to as The Sanitary Transportation Rule, is enforced by the Food and Drug Administration (FDA) with the goal of protecting food during transport. This rule is one of the seven foundational rules of the FDA Food Safety Modernization Act. Contamination can occur at any point in the food supply chain, and actions must be implemented to mitigate these risks at all stages, including transport. Because of this, the Sanitary Transportation Rule contains transportation requirements to avoid potential food safety risks that may occur.
Washing produce is an important step to keeping your family healthy. Since produce is grown in close contact with the ground, bacterial contamination may be introduced from animals, soil, and water. Produce may also be handled as it moves through the supply chain to the consumer. Washing produce can remove potential bacterial contamination or soil. It can be hard to know how and when to wash your produce, and there is a lot of information out there, so this publication provides important considerations to think about (a guide to help).
Limited educational food safety publications are available for small vegetable farmers and extension personnel seeking information on the exemptions from FSMA regulations and the Produce Safety Rule, along with voluntary practices and food safety practices. Research was conducted to construct three educational publications focused on the Best Management Practices and Good Agricultural Practices, vegetable washing stations, handwashing stations, and sanitizing practices. These educational publications are for distribution within the Virginia Cooperative Extension System and for use by Cooperative Extension Agents, Specialists, and growers who need to educate themselves or others on the basics of on-farm food safety needs and practices. This report serves (1) small and beginning vegetable farmers in the realm of food safety, (2) provide Virginia ANR Extension agents with publications to help them explain the intricacies of vegetable food safety on the farm, and (3) help with educating Virginia stakeholders to the intricacies of on-farm vegetable food safety practices.
Limited educational food safety publications are available for small vegetable farmers and extension personnel seeking information on the exemptions from FSMA regulations and the Produce Safety Rule, along with voluntary practices and food safety practices. Research was conducted to construct three educational publications focused on the Best Management Practices and Good Agricultural Practices, vegetable washing stations, handwashing stations, and sanitizing practices. These educational publications are for distribution within the Virginia Cooperative Extension System and for use by Cooperative Extension Agents, Specialists, and growers who need to educate themselves or others on the basics of on-farm food safety needs and practices. This report serves (1) small and beginning vegetable farmers in the realm of food safety, (2) provide Virginia ANR Extension agents with publications to help them explain the intricacies of vegetable food safety on the farm, and (3) help with educating Virginia stakeholders to the intricacies of on-farm vegetable food safety practices.
Aquaculture continues to be the fastest growing sector of food production world-wide. The Virginia aquaculture industry produces a variety of different foodfish, baitfish, shellfish, and ornamental species. Likewise, a variety of different production methods are implemented across the state, including pond production and indoor, intensive recirculating aquaculture systems (RAS). Continued expansion of aquaculture in the state, as well as across the region and country, demands attention to both environmental and economic sustainability.
You can help your community by hosting or donating to a share pantry. This guide offers best practices for providing safe and quality food to your neighbors who are experiencing hunger.
This is a fact sheet explaining water activity, how water activity is related to food safety/spoilage/shelf-life, defining water activity-controlled foods, determining if a product is classified as water activity-controlled, working with the Food Producer Technical Assistance Network to conduct and interpret water activity testing, and recommendations for the frequency of water activity testing.
Salmonella contamination in dry and low-moisture food processing environments is a food safety concern recognized by the FDA. For a microorganism to grow in a food processing environment, there must be enough available moisture for the organism to use. In a dry or low-moisture processing environment, there are typically not enough consistent sources of moisture for microorganisms to grow; however, Salmonella has shown the ability to adapt to this low-moisture stress and survive for long periods of time through accumulation of osmoprotectants, up-regulation of outer membrane porins, alteration of gene expression, rRNA degradation, entering a viable but not culturable state, filamentation, and biofilm formation.
Volunteers play a crucial role in hunger relief organizations. They assist with receiving orders, handling the foods, storing, and distributing the foods. Since volunteers might be involved in direct food contact, they are a key aspect of ensuring food safety practices in these organizations. Ensuring volunteer health and hygiene can reduce food safety risks in hunger relief organizations. This is because human can be a source of food safety hazards. This fact sheet provides recommended (not required) practices for hunger relief organizations on personal health and hygiene.
This comprehensive website is intended to provide information about the efforts of the Virginia Fresh Produce Food Safety Team, as well as timely and science-based resources geared to reducing fresh produce contamination risks, beginning at the farm level, progressing through the marketplace to the final end-user, the consumer. The site also includes a blog that highlights our research and extension work on many fronts.
Effective education of food producers relies heavily on Extension efforts that emphasize tackling community and societal issues at the grassroots level. Educators across the Virginia Cooperative Extension (VCE) system work closely with food producers to improve learning outcomes; however, educators engaged in this work must first identify their stakeholder needs to provide these producers with effective education. Overcoming these barriers requires substantial effort in producing or translating training materials in multiple formats. Therefore, it is crucial to identify the most significant obstacles to acquiring food safety knowledge and changing behaviors before embarking on developing further educational programs.
Food businesses want you to have important information about their products. That’s why they provide nutrition facts, company contact information, and “best by,” “sell by,” and “freeze by” dates. These dates are commonly called expiration dates. Some people think the dates tell them when food is no longer safe to eat, but these dates are not about food safety. Their meanings vary, depending on the wording. Past-date foods can be — and often are — donated and distributed through food banks and pantries or used in meal kitchens. These organizations are dedicated to providing safe, quality foods (Feeding America, n.d.).
Food businesses want you to have important information about their products. That’s why they provide nutrition facts, company contact information, and “best by,” “sell by,” and “freeze by” dates. These dates are commonly called expiration dates. Some people think the dates tell them when food is no longer safe to eat, but these dates are not about food safety. Their meanings vary, depending on the wording. Past-date foods can be — and often are — donated and distributed through food banks and pantries or used in meal kitchens. These organizations are dedicated to providing safe, quality foods (Feeding America, n.d.).
Food businesses want you to have important information about their products. That’s why they provide nutrition facts, company contact information, and “best by,” “sell by,” and “freeze by” dates. These dates are commonly called expiration dates. Some people think the dates tell them when food is no longer safe to eat, but these dates are not about food safety. Their meanings vary, depending on the wording. Past-date foods can be — and often are — donated and distributed through food banks and pantries or used in meal kitchens. These organizations are dedicated to providing safe, quality foods (Feeding America, n.d.).
Food businesses want you to have important information about their products. That’s why they provide nutrition facts, company contact information, and “best by,” “sell by,” and “freeze by” dates. These dates are commonly called expiration dates. Some people think the dates tell them when food is no longer safe to eat, but these dates are not about food safety. Their meanings vary, depending on the wording. Past-date foods can be — and often are — donated and distributed through food banks and pantries or used in meal kitchens. These organizations are dedicated to providing safe, quality foods (Feeding America, n.d.).
This document will cover the importance of cleaning and sanitizing food contact surfaces and how operations can systematically develop a sanitation program through the step-by-step process. Steps involved in a systematic approach to creating a sanitation program include validation, monitoring, verification, recordkeeping, standard operating procedures, training, and the cumulative sanitation program.
Improperly prepared food can lead to the growth and survival of spoilage and pathogenic microorganisms. Spoilage microorganisms can affect food by causing undesirable changes in appearance, texture, taste, and smell. Pathogenic microorganisms, however, can cause foodborne illness in humans while also being undetected in food, as they do not cause physical changes in foods (like spoilage organisms do). Reducing the ability of pathogenic microorganisms to grow in the food is an important way to keep food safety risks low.
Consumers rely on food labeling for detailed information about the origin, safe handling, proper storage, and ingredient contents of a product. Additional labeling claims may be added to highlight a product’s attributes for marketing purposes. Allowable label claims are defined by the U.S. Food and Drug Administration (FDA) for use under predetermined conditions.
Fruit jams are made from crushed fruits with the addition of sugar, acid, and sometimes pectin. These ingredients determine the safety and stability of jams. Acid lowers the pH of the jam, which slows microbial growth. Pectin, a complex starch, helps jam maintain its thick texture without separating. Because fruits have a wide range of pH and pectin content, different fruits may need different amounts of acid and pectin added to the recipe to produce a safe jam that does not separate.
Consumir leche cruda puede exponerte a microorganismos dañinos, como bacterias, parásitos y virus, que pueden causar enfermedades (por ejemplo, listeriosis y salmonelosis). Los síntomas incluyen vómitos, diarrea, calambres abdominales y síntomas gripales, como fiebre, dolor de cabeza y dolores corporales.
This factsheet will teach you how faba bean can become a wholesome part of your favorite dishes, like a delicious hummus spread.
Campylobacter jejuni (C. jejuni) is a leading cause of foodborne illness in humans worldwide and is the most common pathogen for causing diarrhea (CDC, 2025). This publication addresses where it comes from and how to address it.
A fact sheet about zucchini.
A fact sheet about Yellow Crooked Squash.
A fact sheet about green beans.
A fact sheet about apples.
A fact sheet about corn on the cob.
A fact sheet about beets.
A fact sheet about cabbage.
A fact sheet about cauliflower.
In Part 1 of a four part series, we will provide a brief context related to the Farm to Fork continuum, then look at the characteristics of SARS-CoV-2, how it is transmitted, and what we know about preventing its spread. Presented by Virginia Cooperative Extension specialists, Melissa Chase, Joell Eifert, Laura Strawn, Rob Williams, and Amber Vallotton. This webinar was conducted on April 9, 2020.
In Part 2 of a four part series, we will take a look at expanding practices and policies related to worker health and hygiene in the environment of prevention and mitigation of COVID-19.. Presented by Virginia Cooperative Extension specialists, Melissa Chase, Joell Eifert, Laura Strawn, Rob Williams, and Amber Vallotton. This webinar was conducted on April 9, 2020.
In Part 3 of this four-part series, we will look at cleaning, sanitizing, and disinfecting practices to prevent and mitigate COVID-19 spread, as well as packaging, storage, and delivery concerns, and the importance of recordkeeping. We will then briefly discuss some of the COVID-19 myths that have been circulating since the pandemic began, in order to dispel misinformation. Presented by Virginia Cooperative Extension specialists, Melissa Chase, Joell Eifert, Laura Strawn, Rob Williams, and Amber Vallotton. This webinar was conducted on April 9, 2020.
In Part 4 of this four-part series, we will discuss answers to various questions raised during our webinar on food safety and COVID-19. Presented by Virginia Cooperative Extension specialists, Melissa Chase, Joell Eifert, Laura Strawn, Rob Williams, and Amber Vallotton. This webinar was conducted on April 9, 2020.