DOCSLIB.ORG

Food Composition Data

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

Food composition data PRODUCTION, MANAGEMENT AND USE H. Greenfield and D.A.T. Southgate Second edition Food composition data Food composition data PRODUCTION, MANAGEMENT AND USE by H. Greenfield University of New South Wales, Sydney, Australia and D.A.T. Southgate Formerly of the Agricultural and Food Research Council Institute of Food Research, Norwich, United Kingdom Technical editors: B.A. Burlingame and U.R. Charrondiere Food and Agriculture Organization of the United Nations Rome 2003 Editing, design and production by the FAO Publishing Management Service The designations employed and the presentation of material in this information product do not imply the expression of any opinion whatsoever on the part of the Food and Agriculture Organization of the United Nations concerning the legal or development status of any country, territory, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. ISBN 92 5 104949 1 All rights reserved. Reproduction and dissemination of material in this information product for educational or other non-commercial purposes are authorized without any prior written permission from the copyright holders provided the source is fully acknowledged. Reproduction of material in this information product for resale or other commercial purposes is prohibited without written permission of the copyright holders. Applications for such permission should be addressed to the Chief, Publishing Management Service, Information Division, FAO, Viale delle Terme di Caracalla, 00100 Rome, Italy or by e-mail to [email protected] © FAO 2003 First edition published in 1992 by Elsevier Science Publishers Contents Foreword to the first edition vii Preface to the second edition ix Preface to the first edition xi Acknowledgements xii Introduction 1 Chapter 1 Food composition data and food composition databases 5 Chapter 2 Initiation and organization of a food composition programme 21 Chapter 3 Selection of foods 33 Chapter 4 Selection of nutrients and other components 47 Chapter 5 Sampling 63 Chapter 6 Choice of analytical methods and their evaluation 83 Chapter 7 Review of methods of analysis 97 Chapter 8 Assuring the quality of analytical data 149 Chapter 9 Conventions and modes of expression of food composition data 163 Chapter 10 Guidelines for the use of food composition data 171 Chapter 11 Quality considerations in the compilation of a food composition data base 187 Chapter 12 Current needs and future directions 199 Appendixes Appendix 1 INFOODS regional data centres 209 Appendix 2 Calculation of sample numbers 214 Appendix 3 Methods of preparation of foods for analysis 216 Appendix 4 Examples of procedures for the preparation of analytical samples 221 Appendix 5 Calculations of fatty acids in 100 g food and 100 g total fatty acids 223 Appendix 6 Calculation of the composition of dishes prepared from recipes 225 Appendix 7 Essential book list for food composition databases 226 Bibliography 229 Subject index 281 vii Foreword to the first edition About 20 years ago, there was a recognition in Europe that real benefits would flow from coordinating the manner in which food composition tables were produced in the various countries of Europe. Subsequent development of computerized nutritional databases has further highlighted the potential advantages of working together. Such cooperation could lead to improved quality and compatibility of the various European nutrient databases and the values within them. This realization was one of the driving forces behind the development of the EUROFOODS initiative in the 1980s when those people in Europe interested in data on food composition began working together. This initiative received further impetus with the establishment of the EUROFOODS-Enfant Concerted Action Project within the framework of the FLAIR (Food-Linked Agro-Industrial Research) Programme of the Commission of the European Communities. It was quickly recognized that the draft guidelines for the production, management and use of food composition data, which had been prepared under the aegis of INFOODS (International Network of Food Data Systems, a project of the United Nations University), would be especially applicable to the objectives of the Concerted Action. The guidelines have been written by two recognized experts. Many people associated with FLAIR EUROFOODS- Enfant have added constructive criticism and advice to that offered previously by those associated with INFOODS. Thus the guidelines are backed by a consensus in the community of those responsible for the production and use of food composition tables and nutrient databases. I am sure that the book will be regarded by those concerned with the production and use of nutritional compositional data as a lighthouse on an ocean with poor visibility, many hazards and shipwrecks. It will provide invaluable light not only for people in Europe but also for those on other continents across the oceans. Clive E. West Project Manager FLAIR EUROFOODS-Enfant Project Wageningen, February 1992 ix Preface to the second edition The first edition of this book was used extensively in training food composition analysts and compilers around the world, commencing with the first Food Composition training course held in Wageningen, the Netherlands, in October 1992. Five courses have been held subsequently in Wageningen and the course has also been transferred to developing regions including one each in Chile for LATINFOODS countries, Jamaica for CARICOMFOODS countries, Thailand for ASEANFOODS and SAARCFOODS countries, and three in South Africa for the countries of ECSAFOODS. The use of the book in the United Nations University/INFOODS training courses revealed that changes were required to update the text and figures, in particular to make the book more user-friendly on an international basis. Increasingly, as time went by, the huge explosion in methods of analysis meant that the book was becoming rapidly out-of-date. Further, the establishment of food composition programmes around the world increased the pool of experience available. However, revision was not feasible as a commercial project. Although some tertiary courses, largely in the industrialized countries, were able to draw on the book in teaching, the prohibitive cost of the first edition meant that purchases of the book were mainly for libraries rather than by individuals or for local food composition programmes. When the first edition became out of print, the copyright reverted to the original authors. In 2001, Dr Barbara Burlingame, the Director of INFOODS (Food and Agriculture Organization of the United Nations [FAO]), proposed a rescue package – which was taken up eagerly by the authors. The proposal was for the authors to revise and update the first edition in the light of the comments of trainees in the course over the previous decade, and to incorporate improved methods of analysis (while not excluding those older methods, which were still being used satisfactorily in those parts of the world where access to sophisticated and costly instrumentation was limited). It was also proposed that FAO make the print edition of the book available at an affordable price, oversee its translation into the main languages of the United Nations Organizations and, further, place the book on the FAO Web site for worldwide access. The authors were pleased to accept this proposal since the original concept of the book had always been wide availability at a price that placed it within the reach of students and workers, particularly those in developing countries. The second edition was largely prepared by means of electronic communication inter- spersed with occasional face-to-face meetings to establish the roles of the authors and FAO and identify the new or revised material to include. David Southgate worked from a very large literature database compiled by Heather Greenfield for the period 1990 to the present, together with his unparalleled experience in the compilation of the United Kingdom tables x Food composition data and discussions with trainees in courses held in the Netherlands and other parts of the world, to collate the first comprehensive draft of the revised edition, which included particular sections drafted by Heather Greenfield and inputs from members of the INFOODS mailing list. A meeting of the authors with Barbara Burlingame in Norwich, United Kingdom, made possible an extensive review of the text, particularly to incorporate elements required by FAO. The draft chapters were reviewed by experts and the final version for publication was prepared through a long process of careful checking and revision conducted by Heather Greenfield, Barbara Burlingame and Ruth Charrondiere (FAO), working in collaboration by e-mail correspondence and, where possible, consultation with all the original sources of information. Barbara Burlingame oversaw the preparation of the final text for publication in various formats at FAO. As in the first edition, the personal perspectives and prejudices of the authors doubtless show through. We believe that there is no a priori method of obtaining compositional data without analysis. The book recognizes that analytical facilities and resources are limited in virtually all countries and that, at the same time, there is a large amount of compositional data in the literature, in both published and unpublished sources and in other databases. It is essential to make proper use of this material. The book therefore devotes a considerable amount of attention to
Recommended publications
  • 3R Toolkit for the MICE Industry

    3R Toolkit for the MICE Industry

    for the Meetings, Incentives, 3R Conventions & Toolkit Exhibitions Industry Supported by: CONTENTS 03 Introduction 04 Recommended 3R Practices Case Study on Singapore 09 International Building Week Case Study on Oracle 14 OpenWorld 19 Who to Contact ACKNOWLEDGEMENTS The MICE 3R Toolkit is an initiative of the MICE 3R taskforce comprising the National Environment Agency (NEA), the Singapore Tourism Board (STB) and members of the Singapore Association of Conference and Exhibition Organisers and Suppliers (SACEOS) to provide guidance on 3R initiatives for the MICE industry. A note of thanks to the following taskforce members for their invaluable contributions and support in producing this toolkit: Globibo Singapore Dr Felix Rimbach, Director of Research & Development Marina Bay Sands Pte Ltd Mr Kevin Teng, Executive Director of Sustainability Mr Roger Simons, Associate Director of Sustainability Reed Exhibitions Singapore Ms Louise Chua, Project Director of the Building & Energy Cluster Singapore Tourism Board Ms Keeva Lim, Lead Specialist of Conventions, Meetings & Incentive Travel Suntec Singapore Convention & Exhibition Centre Mr Daniel Ang, Senior Director of Operations Waste Management and Recycling Association of Singapore Mr Michael Ho, Vice Chairman Our thanks also go to Mr Paul Salinger, Vice President of Marketing of Oracle, and Ms Cressida Slote, Sustainability Project Manager of MeetGreen, for their assistance with the case study on Oracle OpenWorld. MICE 3R Toolkit 02 7.8 million tonnes of waste was generated in Singapore in 2016. If waste output continues to grow, more incineration plants will have to be built and Semakau Landfill will run out of space by 2035 or earlier. Resources such as water and energy are conserved when we reduce, reuse and recycle.
  • Draft Scope of the Risk Evaluation for Triphenyl Phosphate CASRN 115-86-6

    Draft Scope of the Risk Evaluation for Triphenyl Phosphate CASRN 115-86-6

    EPA Document# EPA-740-D-20-010 April 2020 United States Office of Chemical Safety and Environmental Protection Agency Pollution Prevention Draft Scope of the Risk Evaluation for Triphenyl Phosphate CASRN 115-86-6 April 2020 TABLE OF CONTENTS ACKNOWLEDGEMENTS ......................................................................................................................5 ABBREVIATIONS AND ACRONYMS ..................................................................................................6 EXECUTIVE SUMMARY .......................................................................................................................8 1 INTRODUCTION ............................................................................................................................11 2 SCOPE OF THE EVALUATION ...................................................................................................11 2.1 Reasonably Available Information ..............................................................................................11 Search of Gray Literature ...................................................................................................... 12 Search of Literature from Publicly Available Databases (Peer-Reviewed Literature) .......... 13 Search of TSCA Submissions ................................................................................................ 19 2.2 Conditions of Use ........................................................................................................................19 Categories
  • Aging Well: Building Better Diets Through Nutrient Density

    Aging Well: Building Better Diets Through Nutrient Density

    Aging Well: Building Better March 6, 2019 Diets Through Nutrient Density Speakers Michelle Tucker, MS, RD Gilles Stassart, CEC, CCA Senior Nutrition Scientist Corporate Chef, Convenience & General Mills Foodservice General Mills Slides will be available after the webinar Learning Objectives At the end of this webinar, the participant will be able to: •Recognize the role of nutrient density as a key principle of the Dietary Guidelines •Identify three reasons a dietary pattern based on nutrient density can improve nutrition quality for the aging adult •Give three examples of increasing nutrient density in a food or menu item in a healthcare setting Overview of Today’s Presentation 1. Brief Evolution of Nutrition Guidance 2. Getting Back to Basics: Nutrient Density 3. Nutrition Considerations for Older Adults 4. Putting it into Practice 5. Culinary Corner 6. Q&A What Does Choosing a Nutrient Dense Diet Look Like? Moving from here… To here. No sugar Dairy Free No fat Wheat Free High Fat/ Keto Low carb Evolution of Dietary Guidance Nutrition in the News Single Nutrients & Specific Foods Often Vilified: How did we get here? How do we move back to looking holistically at food & our diet? Recent Food & Health Survey shows Popularity of Diets Focusing on Single Nutrients A higher number of younger consumers (18 to 34) followed a specific eating pattern/diet Following Specific Eating Type of Eating Pattern Pattern Followed Intermittent fasting Paleo diet Gluten-free diet Low-carb diet 36% Mediterranean diet Followed a Whole 30 specific eating 16% pattern in the High-protein diet NET: Low-carb- past year related diets Vegetarian or vegan diet Weight-loss plan Cleanse DASH diet Ketogenic or high-fat diet Other 0% 10% 20% Q27: Have you followed any specific eating pattern or diet at any time in the past year? Select all that apply.
  • The Identification of Key Foods for Food Composition Research

    The Identification of Key Foods for Food Composition Research

    JOURNAL OF FOOD COMPOSITION AND ANALYSIS (2002) 15, 183–194 doi:10.1006/jfca.2001.1046 Available online at http://www.idealibrary.comon ORIGINAL ARTICLE The Identification of Key Foods for Food Composition Research D. B. Haytowitz1, P. R. Pehrsson, and J. M. Holden Nutrient Data Laboratory, Beltsville Human Nutrition Research Center, Agricultural Research Service, U.S. Department of Agriculture, 10300 Baltimore Avenue, B-005, Rm. 307A, BARC-West Beltsville, MD 20705, U.S.A. Received January 3, 2001, and in revised formNovember16, 2001 The United States Department of Agriculture’s (USDA) National Food and Nutrient Analysis Program(NFNAP) was initiated to update existing component values and to add data on new foods and components to reflect today’s marketplace and needs for data. The USDA Nutrient Database for Standard Reference contains data for about 6040 foods for over 100 compounds. To develop a full nutrient profile for each food costs approximately $12 000 (six analytical samples  $2000 per sample). To determine food sampling priorities, the Nutrient Data Laboratory (NDL) has used the Key Foods approach to generate a list of 666 foods. This method utilizes existing nutrient profiles and nationally representative food consumption survey data collected by USDA in the Continuing Survey of Food Intakes by Individuals 1994–1996 (CSFII) and by The U.S. Department of Health and Human Services (USDHHS) in the National Health and Nutrition Examination Survey (NHANES). One premise of the project is that more samples will be collected and prepared for those foods which provide important amounts of nutrients of public health significance to the diet and not every sample will be analyzed for all the nutrients currently in NDL’s nutrient databases.
  • Guidelines on Food Fortification with Micronutrients

    Guidelines on Food Fortification with Micronutrients

    GUIDELINES ON FOOD FORTIFICATION FORTIFICATION FOOD ON GUIDELINES Interest in micronutrient malnutrition has increased greatly over the last few MICRONUTRIENTS WITH years. One of the main reasons is the realization that micronutrient malnutrition contributes substantially to the global burden of disease. Furthermore, although micronutrient malnutrition is more frequent and severe in the developing world and among disadvantaged populations, it also represents a public health problem in some industrialized countries. Measures to correct micronutrient deficiencies aim at ensuring consumption of a balanced diet that is adequate in every nutrient. Unfortunately, this is far from being achieved everywhere since it requires universal access to adequate food and appropriate dietary habits. Food fortification has the dual advantage of being able to deliver nutrients to large segments of the population without requiring radical changes in food consumption patterns. Drawing on several recent high quality publications and programme experience on the subject, information on food fortification has been critically analysed and then translated into scientifically sound guidelines for application in the field. The main purpose of these guidelines is to assist countries in the design and implementation of appropriate food fortification programmes. They are intended to be a resource for governments and agencies that are currently implementing or considering food fortification, and a source of information for scientists, technologists and the food industry. The guidelines are written from a nutrition and public health perspective, to provide practical guidance on how food fortification should be implemented, monitored and evaluated. They are primarily intended for nutrition-related public health programme managers, but should also be useful to all those working to control micronutrient malnutrition, including the food industry.
  • National Nutrient Database for Standard Reference, Release 26

    National Nutrient Database for Standard Reference, Release 26

    Composition of Foods Raw, Processed, Prepared USDA National Nutrient Database for Standard Reference, Release 26 Documentation and User Guide August 2013 Slightly Revised, November 2013 U.S. Department of Agriculture Agricultural Research Service Beltsville Human Nutrition Research Center Nutrient Data Laboratory 10300 Baltimore Avenue Building 005, Room 107, BARC-West Beltsville, Maryland 20705 Suggested Citation: U.S. Department of Agriculture, Agricultural Research Service. 2013. USDA National Nutrient Database for Standard Reference, Release 26. Nutrient Data Laboratory Home Page, http://www.ars.usda.gov/ba/bhnrc/ndl Disclaimers: Mention of trade names, commercial products, or companies in this publication is solely for the purpose of providing specific information and does not imply recommendation or endorsement by the U.S. Department of Agriculture over others not mentioned. The U.S. Department of Agriculture (USDA) prohibits discrimination in all its programs and activities on the basis of race, color, national origin, age, disability, and where applicable, sex, marital status, familial status, parental status, religion, sexual orientation, genetic information, political beliefs, reprisal, or because all or part of an individual's income is derived from any public assistance program. (Not all prohibited bases apply to all programs.) Persons with disabilities who require alternative means for communication of program information (Braille, large print, audiotape, etc.) should contact USDA's TARGET Center at (202) 720-2600 (voice and TDD). To file a complaint of discrimination, write to USDA, Director, Office of Civil Rights, 1400 Independence Avenue, S.W., Washington, D.C. 20250-9410, or call (800) 795-3272 (voice) or (202) 720-6382 (TDD). USDA is an equal opportunity provider and employer.
  • LANGUAL in the European Context/ 17 December 1991 / Page 1 LANG

    LANGUAL in the European Context/ 17 December 1991 / Page 1 LANG

    LANGUAL in the European Context/ 17 December 1991 / page 1 LANG UAL in the European Context Why do we need relevant food data interchange? Foods are involved in all major human activities: - health and science, in the context of food correlated diseases such as cancer or diabetes, or malnutrition in developing countries; - trade and economy, with increasing international exchange of commodities; - regulation and politics, which depend on food hygiene, agricultural policy and trade control; - social behavior and human sciences, as food is not only a way to survive but also a source of pleasure and involve_d in many social or religious habits. Unfortunately, we are-not always able to understand and compare nutritional status for different countries or-people, due to the fact that there is no scientific method for describing foods. Natural lan:guage is often inadequate and even misleading to those who are not closely acquainted with the local language and culture.· The situation is further--confused by homonyms, synonyms, identical brand names for different products, and culinary or technological terms.1 Significant food description Is equally of increasing importance due to labelling regulations.2 Since September 24, 1990, nutritional labelling is regulated at the European level, following similar legislation in the USA and Canada.3 A normalized method of describing foods will be necessary, as the obligation of nutritional labelling will have an effect on international trade. Thus, there is a veritable need for an international food language. In this context, the CODATA (Committee on Data for Science and Technology) task group on "Systematic Nomenclature for Foods in Numeric Data Banks" was created in order to : provide an international system by which foods can be described for databases and especially for nutritional databases; design procedures for collecting information on food composition and data interchange; standardize methods of data processing to obtain certified values from aggregated data; establish guidelines for database structure.
  • Nutrient and Chemical Contaminant Levels in Five Marine Fish Species from Angola—The EAF-Nansen Programme

    Nutrient and Chemical Contaminant Levels in Five Marine Fish Species from Angola—The EAF-Nansen Programme

    foods Article Nutrient and Chemical Contaminant Levels in Five Marine Fish Species from Angola—The EAF-Nansen Programme Amalie Moxness Reksten 1,* , Avelina M. Joao Correia Victor 2 , Edia Baptista Nascimento Neves 2, Sofie Myhre Christiansen 1, Molly Ahern 3 , Abimbola Uzomah 4, Anne-Katrine Lundebye 1, Jeppe Kolding 5 and Marian Kjellevold 1 1 Seafood, Nutrition and Environmental State, Institute of Marine Research, P.O. Box 2029, Nordnes, 5817 Bergen, Norway; sofi[email protected] (S.M.C.); [email protected] (A.-K.L.); [email protected] (M.K.) 2 Quality Control Department of Fisheries Products, National Institute of Fisheries and Marine Research, P.O. Box 2901, Luanda, Angola; [email protected] (A.M.J.C.V.); [email protected] (E.B.N.N.) 3 Fisheries and Aquaculture Division, Food and Agriculture Organization of the United Nations (FAO), 00153 Rome, Italy; [email protected] 4 Department of Food Science and Technology, Federal University of Technology, P.M.B. 1526, Owerri 460114, Nigeria; [email protected] 5 Department of Biological Sciences, University of Bergen, P.O. Box 7803, 5020 Bergen, Norway; [email protected] * Correspondence: [email protected]; Tel.: +47-975-83-296 Received: 2 April 2020; Accepted: 9 May 2020; Published: 14 May 2020 Abstract: Fish is a rich source of several important nutrients and an important part of the otherwise plant-dominated diet present in Angola. However, fish may also be a source of contaminants. The aim of this study was to analyse the nutrient contents and the levels of chemical contaminants, including arsenic, cadmium, mercury, and lead, in five commonly consumed marine fish species sampled during a survey with the research vessel Dr.
  • Persistent Organic Pollutants

    Persistent Organic Pollutants

    PERSISTENT ORGANIC POLLUTANTS An Assessment Report on: DDT-Aldrin-Dieldrin-Endrin-Chlordane Heptachlor-Hexachlorobenzene Mirex-Toxaphene Polychlorinated Biphenyls Dioxins and Furans Prepared by: L. Ritter, K.R. Solomon, J. Forget Canadian Network of Toxicology Centres 620 Gordon Street Guelph ON Canada and M. Stemeroff and C.O'Leary Deloitte and Touche Consulting Group 98 Macdonell St., Guelph ON Canada For: The International Programme on Chemical Safety (IPCS) within the framework of the Inter-Organization Programme for the Sound Management of Chemicals (IOMC) This report is produced for the International Programme on Chemical Safety (IPCS). The work is carried out within the framework of the Inter-Organization Programme for the Sound Management of Chemicals (IOMC). The report does not necessarily represent the decisions or the stated policy of the United Nations Environment Programme, the International Labour Organisation, or the World Health Organization. The International Programme on Chemical Safety (IPCS) is a joint venture of the United Nations Environment Programme, the International Labour Organisation, and the World Health Organization. The main objective of the IPCS is to carry out and disseminate evaluations of the effects of chemicals on human health and the quality of the environment. Supporting activities include the development of epidemiological, experimental laboratory, and risk-assessment methods that could produce internationally comparable results, and the development of human resources in the field of chemical safety. Other activities carried out by the IPCS include the development of know-how for coping with chemical accidents, strengthening capabilities for prevention of an response to chemical accidents and their follow-up, coordination of laboratory testing and epidemiological studies, and promotion of research on the mechanisms of the biological action of chemicals.
  • Focus on Nutrient Dense Foods and Beverages

    Focus on Nutrient Dense Foods and Beverages

    COOPERATIVE EXTENSION SERVICE • UNIVERSITY OF KENTUCKY COLLEGE OF AGRICULTURE, LEXINGTON, KY, 40546 FCS3-559 Making Healthy Lifestyle Choices Focus on Nutrient-Dense Foods and Beverages Ingrid Adams, Department of Nutrition and Food Science ach day we are bombarded with a range of food choices—chips, vegetables, candy, and ice cream. We decide whether we should have doughnuts and coffee for breakfast or oatmeal with blueberries? ShouldE we have pizza or a tossed salad for lunch? Many of us eat whatever we Nutrient-dense foods have more want and make food decisions nutrients per calorie than foods with little thought about how that are not nutrient dense. foods benefit our bodies. The Nutrient-dense foods contain a Healthy Eating Index is a tool small portion of their calories developed by the Center for Nu- from fat, sugar, or refined grains trition Policy and Promotion to and have more vitamins, miner- assess the nutritional quality of als, and protein. the diet of Americans. Informa- tion gathered from this docu- Why is Nutrient-Dense When we make ment shows that approximately Food the Best Choice? 74 percent of Americans need to We all need a certain amount nutrient-dense improve their diets. of calories and nutrients each choices we get the Even though many of us do not day in order to be healthy. The always choose the healthiest amount of calories and nutri- nutrients we need foods, we generally have good ents needed are based on our intentions. Often we do not have age, sex, activity level, and how without consuming the time, money, or skills that healthy we are.
  • Alcohol? Is It a Nutrient? 2

    Alcohol? Is It a Nutrient? 2

    © Jones and Bartlett Publishers, LLC. NOT FOR SALE OR DISTRIBUTION CHAPTER 8 THINK About It 1. In a word or two, how would you describe alcohol? Is it a nutrient? 2. Compared with beer, what’s your Alcohol impression of the alcohol content of wine? How about compared with vodka? 3. Have you ever thought of alcohol as a poison? 4. After a night of drinking and carousing, your friend awakens with a splitting headache and asks you for a pain reliever. What would you recommend? Visit nutrition.jbpub.com 76633_ch08_5589.indd 309 1/20/10 11:06:50 AM Quick Bite © Jones and Bartlett Publishers, LLC. NOT FOR SALE OR DISTRIBUTION 310 CHAPTER 8 ALCOHOL hink about alcohol. What image comes to mind: Champagne toasts? Quick Bite Elegant gourmet dining? Hearty family meals in the European country- T side? Or do you think of wild parties? Or sick, out-of-control drunks? Preferred Beverages Violence? Car accidents? Broken homes? No other food or beverage has the Beer is the national beverage of Ger- power to elicit such strong, disparate images—images that reflect both the many and Britain. Wine is the national healthfulness of alcohol in moderation, the devastation of excess, and the beverage of Greece and Italy. political, social, and moral issues surrounding alcohol. Alcohol has a long and checkered history. More drug than food, alco- holic beverages produce druglike effects in the body while providing little, if any, nutrient value other than energy. Yet it still is important to consider alcohol in the study of nutrition. Alcohol is common to the diets of many people.
  • Food Waste Reduction and Recycling Resource

    Food Waste Reduction and Recycling Resource

    Food Waste Reduction and Recycling Resource Kit CONTENTS INTRODUCTION HOW MUCH FOOD WASTE DO WE GENERATE? GROW FOOD 3 In 2018, Singapore generated 763 million kg of food waste. Food wastage happens when we buy, order or cook more than we can eat. BUY AND STORE FOOD PROPERLY 7 ORDER FOOD 12 REDISTRIBUTE FOOD 16 What’s the big deal? Singapore is a small country with limited space. At the current rate we are producing waste, Semakau Landfill will be filled up by 2035 if we do not take steps to reduce waste.1 The resources and labour RECYCLE FOOD WASTE used to produce the food also go to waste, along with hard-earned 20 money we use to buy food. ROLES & RESPONSIBILITIES ROLES & RESPONSIBILITIES 26 1 National Environment Agency – http://www.nea.gov.sg/energy-waste/waste-management/waste-statistics-and-overall-recycling MODULE 1: GROW FOOD LET’S NOT BE WASTEFUL BACKGROUND Together we can cultivate strong environmental ownership in schools and work towards a Zero Waste Nation. Growing food takes time, hard work and resources. Wasting food means we are wasting these resources! This kit aims to help schools get started. You will find resources, including instructions on how to make game sets, to encourage students to reduce food waste. THINGS YOU CAN DO Activity 1: Growing food takes time, hard work and resources Objective: To help students appreciate the time, resources and hard work required to grow food. FOOD MANAGEMENT CYCLE Duration: 20 minutes What you need: • Activity sheet (found on page 6). • 1 “paddy field” and 8 “rice stalks” with answers on the bottom of each stalk.