A system dynamics model to improving sustainable performance of the citrus farmers in Jordan Valley

[1]  B. Noche,et al.  A Multi-Objective Model to Find the Sustainable Location for Citrus Hub , 2022, Sustainability.

[2]  B. Noche,et al.  A Comparative Life Cycle Assessment: Polystyrene or Polypropylene Packaging Crates to Reduce Citrus Loss and Waste in Transportation? , 2022, Sustainability.

[3]  Monirul Islam Pavel,et al.  An econometric analysis of the potential emission reduction components in Indonesia , 2022, Cleaner Production Letters.

[4]  A. Ademosun,et al.  Citrus Peels Odyssey: From the Waste Bin to the Lab Bench to the Dining Table , 2022, Applied Food Research.

[5]  Accorsi Riccardo,et al.  Managing uncertain inventories, washing, and transportation of reusable containers in food retailer supply chains , 2022, Sustainable Production and Consumption.

[6]  R. Akkerman,et al.  Sustainable supply chain management practices in developing countries: An empirical study of Jordanian manufacturing companies , 2022, Cleaner Production Letters.

[7]  Li Xue,et al.  Quantifying supply chain food loss in China with primary data: A large-scale, field-survey based analysis for staple food, vegetables, and fruits , 2022, Resources, Conservation and Recycling.

[8]  Hafiz M.N. Iqbal,et al.  Integrated biorefinery approach to valorize citrus waste: A sustainable solution for resource recovery and environmental management. , 2022, Chemosphere.

[9]  A. H. Bateman,et al.  Supply chains (Scope 3) toward sustainable food systems: An analysis of food & beverage processing corporate greenhouse gas emissions disclosure , 2021, Cleaner Production Letters.

[10]  A. Gunasekaran,et al.  A systematic literature review of the agro-food supply chain: challenges, network design, and performance measurement perspectives , 2021, Sustainable Production and Consumption.

[11]  Chun Xia,et al.  Economic and environmental consequences' of postharvest loss across food supply Chain in the developing countries , 2021, Journal of Cleaner Production.

[12]  G. Gemar,et al.  From Quantifying to Managing Food Loss in the Agri-Food Industry Supply Chain , 2021, Foods.

[13]  Glenio Piran Dal’ Magro,et al.  Food loss and waste in the context of the circular economy: a systematic review , 2021 .

[14]  M. Giannakourou,et al.  Application of Processing and Packaging Hurdles for Fresh-Cut Fruits and Vegetables Preservation , 2021, Foods.

[15]  Emel Yontar,et al.  Sustainability assessment with structural equation modeling in fresh food supply chain management , 2021, Environmental Science and Pollution Research.

[16]  Md. Riazul Islam,et al.  Pest Risk Analysis and Management Practices for Increasing Profitability of Lemon Production , 2021 .

[17]  Reza Tavakkoli-Moghaddam,et al.  Developing a Bi-objective Mathematical Model to Design the Fish Closed-loop Supply Chain , 2021 .

[18]  Manzoor Ul Akram,et al.  Food loss and waste in food supply chains. A systematic literature review and framework development approach , 2021 .

[19]  F. Bimbo,et al.  Digitalization within food supply chains to prevent food waste. Drivers, barriers and collaboration practices , 2021 .

[20]  Nicholas Chileshe,et al.  Information sharing in reverse logistics supply chain of demolition waste: A systematic literature review , 2021 .

[21]  Soo Rin Kim,et al.  Recent advances in the biological valorization of citrus peel waste into fuels and chemicals. , 2021, Bioresource technology.

[22]  Yahia Zare Mehrjerdi,et al.  Food system sustainability investigation using system dynamics approach , 2020 .

[23]  Vanessa S.M. Magalhães,et al.  Using a methodological approach to model causes of food loss and waste in fruit and vegetable supply chains , 2020 .

[24]  A. Conte,et al.  Sustainable Use of Fruit and Vegetable By-Products to Enhance Food Packaging Performance , 2020, Foods.

[25]  Ernst Worrell,et al.  Sustainability of reusable packaging–Current situation and trends , 2020 .

[26]  Anita Abdi,et al.  Innovative approaches to design and address green supply chain network with simultaneous pick-up and split delivery , 2020 .

[27]  Raife Meltem Yetkin Özbük,et al.  Factors affecting food waste at the downstream entities of the supply chain: A critical review , 2020 .

[28]  L. Palou,et al.  Postharvest technology of citrus fruits , 2020 .

[29]  Mostafa Hajiaghaei-Keshteli,et al.  Determination of the optimal sales level of perishable goods in a two-echelon supply chain network , 2020, Comput. Ind. Eng..

[30]  R. J. Kuo,et al.  A many-objective gradient evolution algorithm for solving a green vehicle routing problem with time windows and time dependency for perishable products , 2020 .

[31]  Emad Roghanian,et al.  Addressing a set of meta-heuristics to solve a multi-objective model for closed-loop citrus supply chain considering CO2 emissions , 2019 .

[32]  Anas M. Atieh,et al.  Hybrid Integrations of Value Stream Mapping, Theory of Constraints and Simulation: Application to Wooden Furniture Industry , 2019, Processes.

[33]  Edward S. Spang,et al.  Food Loss and Waste: Measurement, Drivers, and Solutions , 2019, Annual Review of Environment and Resources.

[34]  Sabine Limbourg,et al.  How can food loss and waste management achieve sustainable development goals? , 2019, Journal of Cleaner Production.

[35]  S. F. Sidique,et al.  The Evaluation of Several Alternative Policies’ Impact on The Mandarin (Citrus Reticulata) Industry in Indonesia: A System Dynamics Analysis , 2019, Agro Ekonomi.

[36]  Luca Ruini,et al.  Reusing Food Waste in Food Manufacturing Companies: The Case of the Tomato-Sauce Supply Chain , 2019, Sustainability.

[37]  S. Rahimifard,et al.  Opportunities for waste valorisation in the food industry – A case study with four UK food manufacturers , 2019, Journal of Cleaner Production.

[38]  C. K. M. Lee,et al.  A system dynamics model for evaluating food waste management in Hong Kong, China , 2018, Journal of Material Cycles and Waste Management.

[39]  S. M. Zimbone,et al.  Valorisation of citrus processing waste: A review. , 2018, Waste management.

[40]  Carlos Martin-Rios,et al.  Food waste management innovations in the foodservice industry. , 2018, Waste management.

[41]  Mohammad Mahdi Paydar,et al.  A bi-objective optimization for citrus closed-loop supply chain using Pareto-based algorithms , 2018, Appl. Soft Comput..

[42]  S. Hasan,et al.  Waste Not, Want Not: A Case Study on Food Waste in Restaurants of Lahore, Pakistan , 2018, Journal of Food Products Marketing.

[43]  Marco Bortolini,et al.  Bi-objective design of fresh food supply chain networks with reusable and disposable packaging containers , 2018 .

[44]  Karin Dobernig,et al.  Food waste matters - A systematic review of household food waste practices and their policy implications , 2018 .

[45]  Roma Mitra Debnath,et al.  Modelling the drivers for sustainable agri-food waste management , 2018 .

[46]  Emanuele Lugato,et al.  Cost of agricultural productivity loss due to soil erosion in the European Union: From direct cost evaluation approaches to the use of macroeconomic models , 2018 .

[47]  Wilson Adarme Jaimes,et al.  Dynamic Impact of the Structure of the Supply Chain of Perishable Foods on Logistics Performance and Food Security , 2017 .

[48]  Mohammad Mahdi Paydar,et al.  An Integrated Approach for Collection Center Selection in Reverse Logistics , 2017 .

[49]  L. Sirieix,et al.  Understanding the antecedents of consumers' attitudes towards doggy bags in restaurants: Concern about food waste, culture, norms and emotions , 2017 .

[50]  Mário Otávio Batalha,et al.  Integrated planning model for citrus agribusiness system using systems dynamics , 2016, Comput. Electron. Agric..

[51]  C. Priefer,et al.  Food waste prevention in Europe – A cause-driven approach to identify the most relevant leverage points for action , 2016 .

[52]  Jing Li,et al.  The replenishment policy of agri-products with stochastic demand in integrated agricultural supply chains , 2016, Expert Syst. Appl..

[53]  Beate Richter,et al.  Approaches of the German food industry for addressing the issue of food losses. , 2016, Waste management.

[54]  Xin Shen,et al.  System Dynamic Analysis on Operation Modes of Agri-food Supply Chain , 2016 .

[55]  V Oliveira,et al.  Hospital food waste and environmental and economic indicators--A Portuguese case study. , 2015, Waste management.

[56]  Ludovica Principato,et al.  Household food waste behaviour in EU-27 countries: A multilevel analysis , 2015 .

[57]  Nina Langen,et al.  Cutting Food Waste through Cooperation along the Food Supply Chain , 2015 .

[58]  I. I. Ibeawuchi,et al.  Fruit and Vegetable Crop Production in Nigeria: The Gains, Challenges and The Way Forward , 2015 .

[59]  Lisa M. Ellram,et al.  Causes of waste across multi-tier supply networks: Cases in the UK food sector , 2014 .

[60]  S. Cholette,et al.  Economic and environmental assessment of reusable plastic containers: A food catering supply chain case study , 2014 .

[61]  Per-Anders Hansson,et al.  Waste of organic and conventional meat and dairy products—A case study from Swedish retail , 2014 .

[62]  Pankaj Dutta,et al.  A system dynamics framework for integrated reverse supply chain with three way recovery and product exchange policy , 2013, Comput. Ind. Eng..

[63]  N. Viswanadham,et al.  The Supply Chain Ecosystem Framework , 2013 .

[64]  S. Garg,et al.  A system dynamic framework for identifying demand gaps in Indian processed food sector , 2013 .

[65]  M. Kummu,et al.  Lost food, wasted resources: global food supply chain losses and their impacts on freshwater, cropland, and fertiliser use. , 2012, The Science of the total environment.

[66]  R. Kassali,et al.  Effect of rural transportation system on agricultural productivity in Oyo State, Nigeria , 2012 .

[67]  Carlo Vezzoli,et al.  A Comparative Life Cycle Assessment of Disposable and Reusable Packaging for the Distribution of Italian Fruit and Vegetables , 2011 .

[68]  G. Verde,et al.  The use of kaolin to control Ceratitis capitata in organic citrus groves , 2011 .

[69]  D. Sterman,et al.  Misperceptions of Feedback in a Dynamic Decision Making Experiment , 1989 .