Work Cited  "Topics A-Z Index." All About Organic Foods. N.p., n.d. Web. 29 Apr. 2014 "Organic Information Resources. What Are They? Where Are They? How Can I Find Them?" Organic Information Resources. What Are They? Where Are They? How Can I Find Them? N.p., n.d. Web. 29 Apr. 2014. "Nutrition and Healthy Eating." Organic Foods: Are They Safer? More Nutritious? N.p., n.d. Web. 17 Apr. 2014. "Agricultural Marketing Service - National Organic Program." Agricultural Marketing Service - National Organic Program. N.p., n.d. Web. 19 Apr. 2014. "Organic Trade Association." Organic Trade Association. N.p., n.d. Web. 18 Apr. 2014. "Non-Organic Foods (Pesticides, Contaminated Sewage Sludge, Hormones)." Non-Organic Foods (Pesticides, Contaminated Sewage Sludge, Hormones). N.p., n.d. Web. 15 Apr. 2014. "Pesticide Residues from Non-Organic Foods Building Up in Our Bodies." Pesticide Residues from Non-Organic Foods Building Up in Our Bodies. N.p., n.d. Web. 15 Apr. 2014.
View full slide show




Sustainable Food Cues by Product Category CATEGORY SUSTAINABILITY CUES Produce local, organic Chocolate organic, fair trade, donation to charity Coffee local, organic, fair trade, shade grown Salad dressing organic, donation to charity Seafood wild Cereal organic Juice organic, indigenous support (e.g., Goji and Acai) Eggs local, free-range Bottled water natural sources, donation to charity Grains local, organic, environment cues Meat and poultry local, free-range, growth hormone-free, antibiotic-free Wine local, biodynamic Bread local, organic, artisanal Tea organic, fair trade Cheese local, organic, artisanal
View full slide show




Mechanistic Mechanistic Versus Versus Organic Organic Models Models
View full slide show




Measurement & selection of key ECs preferentially partitioned to the fetus in a real-life sewage sludge exposure model SHEEP - already completed with Wellcome Trust funding to PAF, SR, CC (P1,P2,P3) DEHP PCB101 PCB118 Real-life sewage-sludge exposure model Fetal ovary organotypic culture mechanistic model F0 SHEEP In-vivo focused EC exposure models F1 MOUSE SHEEP Windows of fetal sensitivity to exposure model F1 SHEEP (EC cocktail) Transgenerational effects F2/F3 SHEEP (EC cocktail) Mechanistic studies: MOUSE MOUSE (focused EC) Morphological, genomic, transcriptomic and proteomic investigation of exposed ovaries and mechanistic models SHEEP MOUSE Ovarian effects of inutero exposure F1 Imprinting/embryoni c development effects of in-utero exposure F1 Human fetal ex-vivo model F0 HUMAN SMOKING Linking animal model to human REEF TASKS F0,F1,F2, F3 Concepts/Data flow Flow of samples Generation studied REEF OUTPUT • • Mechanisms underpinning real-life chemical exposure effects on fetal development in the human female Identification/validation of sensitive markers for detection of EC action
View full slide show




Residual Plots Residuals Versus Day Residuals Versus Day (response is Sat) (response is Long) Residuals Versus Day (response is Lat) 0.0003 0.000075 0.50 0.0002 0.000050 0.0001 0.00 0.000025 Residual Residual Residual 0.25 0.000000 -0.000025 -0.25 0.0000 -0.0001 -0.0002 -0.0003 -0.0004 -0.000050 -0.50 -0.0005 1.0 1.5 2.0 Day 2.5 3.0 1.0 1.5 2.0 Day Residuals Versus Time Residuals Versus Time (response is Sat) (response is Long) 2.5 3.0 1.0 2.0 Day 2.5 3.0 1.5 2.0 2.5 3.0 Residuals Versus Time (response is Lat) 0.0003 0.000075 0.50 1.5 0.0002 0.000050 0.0001 0.00 0.000025 Residual Residual Residual 0.25 0.000000 -0.000025 -0.25 0.0000 -0.0001 -0.0002 -0.0003 -0.0004 -0.000050 -0.50 -0.0005 0.0 0.5 1.0 Time 1.5 2.0 0.0 0.5 1.0 Time Residuals Versus Device Residuals Versus Device (response is Sat) (response is Long) 1.5 2.0 0.0 1.0 Time Residuals Versus Device (response is Lat) 0.0003 0.000075 0.50 0.5 0.0002 0.000050 0.0001 0.00 0.000025 Residual Residual Residual 0.25 0.000000 -0.000025 -0.25 0.0000 -0.0001 -0.0002 -0.0003 -0.0004 -0.000050 -0.50 -0.0005 1.0 1.5 2.0 Device 2.5 3.0 1.0 1.5 2.0 Device 2.5 3.0 1.0 1.5 2.0 Device Slide 12 of 15
View full slide show




Pesticides • Consumer Concerns  Organically Grown Crops • Produce and market organic crops • USDA labeling for organic foods – 100% organic ingredients may claim 100% organic and use seal – 95% organic ingredients may claim organic and use seal – 70% organic ingredients may list up to three ingredients on the front of the package – Less than 70% organic ingredients may list them on the side panel but not make claims on the front of the package © 2008 Thomson - Wadsworth
View full slide show




GREEN & BLACK’S ORGANIC CHOCOLATE • INGREDIENTS: organic Bittersweet Chocolate (Organic chocolate. Organic Raw Sugar Cane, Organic Cococa Butter, Soy Lecithin, Organic Vanilla Extract) Organic Coffee, Organic Whole Milk Powder
View full slide show




UML Introduction Use Case Activity Class Object Sequence Communication Timing Interaction Overview Composite Structure Component Package State Machine Deployment CS 325 Lesson Three System Engineering Page 5 • Models interactions between the software system and the “outside world” • Models sequential and parallel activities taking place within the software system • Models the software systems classes as well as their relationships with each other • Models instances of classes, usually as a means of clarifying the class itself • Models the sequence of interactions between system objects when the order is important • Models the means by which objects within the software system interact • Models the change in state of system objects over time, usually in response to external events • Models “big picture” system interactions by tying together Sequence, Communication, Timing Diagrams • Models how objects work together inside a class to help achieve system goals • Models the reusable, replaceable classes and subsystems within the software system • Models logically related groups of classes into organized structures • Models the state of system objects and the transitions that may cause the state to change • Models physical configuration of software and hardware that will comprise system’s implementation
View full slide show




Mechanistic versus Organic Systems Mechanistic systems Highly centralized organizations in which decision-making authority rests with top management. Organic systems Decentralized organizations that push decision making to the lowest levels of the organization in an effort to respond more effectively to environmental change.
View full slide show




Mechanistic & Organic Designs • Mechanistic: tallness in hierarchy, specialization, centralization in authority, formalization. Work best under stable conditions • Organic: flatness, generalization, decentralization flexibility Best fit dynamic conditions and complex technology
View full slide show




Mechanistic vs. Organic Designs Structure Dimension Mechanistic Organic Stability Change unlikely Change likely Specialization Many specialists Many generalists Formal rules Rigid rules Considerable flexibility Authority Centralized in a few top people Decentralized, diffused throughout the organization Table 12-2
View full slide show




Slide 14.6 Mechanistic and Organic Organizations  Mechanistic organization  Characterized by a reliance on formal rules and regulations, centralization of decision making, narrowly defined job responsibilities, and a rigid hierarchy of authority  Organic organization  Characterized by low to moderate use of formal rules and regulations, decentralized and shared decision making, broadly defined job responsibilities, and a flexible authority structure with fewer levels in the hierarchy Chapter 14: Designing Organizati 8
View full slide show