Project to Develop an Interoperable Seafood Traceability Technology Architecture: Issues Brief.

The Interoperable Seafood Traceability Technology Architecture Issues Brief reflects the growing need to establish a global, secure, interoperable support system for seafood traceability. Establishing effective traceability systems relies on the development of a cohesive and consistent approach to the delivery of information technology capabilities and functions. The ability of business to utilize traceability for commercial gain is heavily influenced by the supply chain in which they operate. The Issues Brief describes factors associated with enterprise-level traceability systems that will impact the design of technology architecture suited to enabling whole chain interoperable traceability. The Brief details why a technology architecture is required, what it means for industry in terms of benefits and opportunities, and how the architecture will translate into practical results. The current situation of many heterogeneous proprietary systems prevents global interoperable traceability from occurring. Utilizing primary research and lessons learned from other industries, the Brief details how the present situation can be addressed. This will enable computerized information systems to communicate syntactically by sharing standardized packages of data. The subsequent stage, semantic interoperability, is achieved by establishing a common language (ontology). The report concludes with a series of recommendations that industry can act upon to design a technology architecture suited to enabling effective global interoperable traceability.

2013 IFT International Food Nanoscience Conference: Proceedings.

The Institute of Food Technologists convened its 6th Intl. Food Nanoscience Conference in Chicago July 12 to 13, 2013. The objectives were to: (1) serve as a unique forum for exchange of insights into research developments, technology trends and applications, and risk and safety assessments; and (2) facilitate dialogue examining potential policy implications, social issues, consumer perceptions, and risk communication. An inaugural student poster competition was held to engage students who are actively involved in nanoscience-related research. John DiLoreto presented the first of 2 keynote presentations, providing an overarching big picture of the current utility of nanotechnology in multiple industry sectors. Frans Kampers and Rickey Yada presented the 2nd keynote-a global perspective of applications for the food system and information on research and other trends. Shaun Clancy addressed activities and perspectives outside the United States. Others addressed ultraviolet light as a sustainable means for improving safety and quality of liquid dairy products (Gail Barnes), the sustainable synthesis of nanomaterials (Rajender Varma), safety evaluation of nanomaterials (Michael Adams), developments relating to safety assessment of engineered nanomaterials and the NanoCharacter initiative (Richard Canady), the NanoRelease project (Richard Canady, Steve Roberts, Rickey Yada, Susann Bellmann, and Timothy Duncan), application of a gastrointestinal model for studying the behavior of nanosized layered double hydroxides (Susann Bellmann), capability of nanodelivery systems to improve bioavailability of bioactives (Lacey Simon), potential benefits of applications of nanoscience in food contact materials (Timothy Duncan), food safety implications of nanoscience (Frans Kampers), and consumer perceptions of food nanoscience (Mitchell Cheeseman).

Applications and Perceptions of Date Labeling of Food.

Open dating of food products has been practiced for decades, and has been key to achieving stock rotation at retail and providing information to consumers. The open date provides a simple communication tool, which may be based on product quality and/or food safety as determined by the manufacturer or retailer. Date marking is generally open but it can be closed (code intended for managing product at retail, and for recall and traceability), and the terminology and applications vary widely around the world. The variation in date labeling terms and uses contributes to substantial misunderstanding by industry and consumers and leads to significant unnecessary food loss and waste, misapplication of limited resources, unnecessary financial burden for the consumer and the food industry, and may also lead to potential food safety risk in regards to perishable foods. A "use by" or similar date cannot be relied on to indicate or guarantee food safety because absolute temperature control of food products throughout the food supply chain cannot be assured. This paper provides an introduction to the issue of food product date labeling and addresses its history in the United States, different terms used and various practices, U.S. and international frameworks, quality compared with safety, adverse impacts of misconceptions about date labeling, and advantages of technological innovations. Collaboration to develop a simple workable solution to address the challenges faced by stakeholders would have tremendous benefit. Conclusions include a call to action to move toward uniformity in date labeling, thereby decreasing confusion among stakeholders and reducing food waste.

Proceedings of the July 2011 Traceability Research Summit.

At a discussion-based forum of 50 leaders in the area of food product tracing, participants recognized the need for the development of a common vision for a simple, low cost and implementable traceability approach. A key theme that emerged during the day's discussions revolved around not reinventing the wheel: there are many efforts underway, including numerous pilots, and these efforts should be collaborative. The group sought more information on current initiatives and felt that learning from the experiences of others could help form a realistic vision for the future. Although any forthcoming actions from the US FDA are unknown, industry fully expects that improvements in product tracing will be necessary, and expects that industry itself (through the "demand" side) will enact requirements that may surpass regulatory mandates. A chief concern is uniform adoption, which will require outreach to and support from the global community as well as small firms that may lack the resources and education to keep up. Ultimately, an approach that is global, economical, scalable, and inclusive of firms of all sizes who handles all types of food products, will have the greatest likelihood of success. While the ability to rapidly link products across the supply chain serves as an ideal goal, there are still substantial concerns to be addressed, particularly regarding confidentiality of data, and who will have access to what information under what circumstances, which was woven into virtually every discussion topic. Who will spearhead the development of the visions is a question, but there was general agreement that a joint partnership which includes all stakeholders is a necessity.

Feeding the World Today and Tomorrow: The Importance of Food Science and Technology: An IFT Scientific Review.

by Philip E. Nelson, 2007 World Food Prize Laureate; Professor Emeritus, Food Science Dept., Purdue Univ. Just as society has evolved over time, our food system has also evolved over centuries into a global system of immense size and complexity. The commitment of food science and technology professionals to advancing the science of food, ensuring a safe and abundant food supply, and contributing to healthier people everywhere is integral to that evolution. Food scientists and technologists are versatile, interdisciplinary, and collaborative practitioners in a profession at the crossroads of scientific and technological developments. As the food system has drastically changed, from one centered around family food production on individual farms and home food preservation to the modern system of today, most people are not connected to their food nor are they familiar with agricultural production and food manufacturing designed for better food safety and quality. The Institute of Food Technologists-a nonprofit scientific society of individual members engaged in food science, food technology, and related professions in industry, academia, and government-has the mission to advance the science of food and the long-range vision to ensure a safe and abundant food supply contributing to healthier people everywhere. IFT convened a task force and called on contributing authors to develop this scientific review to inform the general public about the importance and benefits of food science and technology in IFT's efforts to feed a growing world. The main objective of this review is to serve as a foundational resource for public outreach and education and to address misperceptions and misinformation about processed foods. The intended audience includes those who desire to know more about the application of science and technology to meet society's food needs and those involved in public education and outreach. It is IFT's hope that the reader will gain a better understanding of the goals or purposes for various applications of science and technology in the food system, and an appreciation for the complexity of the modern food supply. Abstract: This Institute of Food Technologists scientific review describes the scientific and technological achievements that made possible the modern production-to-consumption food system capable of feeding nearly 7 billion people, and it also discusses the promising potential of ongoing technological advancements to enhance the food supply even further and to increase the health and wellness of the growing global population. This review begins with a historical perspective that summarizes the parallel developments of agriculture and food technology, from the beginnings of modern society to the present. A section on food manufacturing explains why food is processed and details various food processing methods that ensure food safety and preserve the quality of products. A section about potential solutions to future challenges briefly discusses ways in which scientists, the food industry, and policy makers are striving to improve the food supply for a healthier population and feed the future. Applications of science and technology within the food system have allowed production of foods in adequate quantities to meet the needs of society, as it has evolved. Today, our production-to-consumption food system is complex, and our food is largely safe, tasty, nutritious, abundant, diverse, convenient, and less costly and more readily accessible than ever before. Scientific and technological advancements must be accelerated and applied in developed and developing nations alike, if we are to feed a growing world population.