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International Journal of Multimedia Computing, 2020, 1(3); doi: 10.38007/IJMC.2020.010305.

Dynamics and Countermeasures of Import and Export Trade of Animal-Derived Food

Author(s)

Jianli Guo

Corresponding Author:
Jianli Guo
Affiliation(s)

South University of Science and Technology of China, Guangdong, China

Abstract

In recent years, the process of economic globalization has continued to accelerate, and international trade has also achieved rapid development in China. Food exports have increasingly become a major force in China’s export trade, especially animal-derived food. For this reason, this article the dynamics of import and export trade of sexual foods were studied, and relevant countermeasures were proposed. This article mainly studies the development status of animal-derived food import and export trade and the structure of import-export products, and analyzes the main characteristics of China's animal-derived food import and export trade. The total import and export trade of animal-derived foods has been increasing in 2019. Among them, the increase in 2014-2015 was 3.5%, the increase in 2015-2016 was 0.6%, the increase in 2016-2017 was 12.1%, and the increase in 2018-2019 was 8.9 %. It shows that the import and export trade of animal-derived foods in China is optimistically rising. In addition, this paper also selects three indicators of market share, trade specialization index and explicit comparative advantage index to analyze the competitiveness of China's animal-derived food. The research results show that although China's current animal-derived the export trade competitiveness is not as good as some developed countries, but it has also been improving and has gradually narrowed the gap with developed countries.

Keywords

Animal-Derived Food, Import and Export Trade, Trade Dynamics, Competitiveness Analysis

Cite This Paper

Jianli Guo. Dynamics and Countermeasures of Import and Export Trade of Animal-Derived Food. International Journal of Multimedia Computing (2020), Vol. 1, Issue 3: 51-65. https://doi.org/10.38007/IJMC.2020.010305.

References

[1] Jian Zhou, & Longhua Ding. (2017). “Research on the Present Situation, Dilemma and Countermeasures of the Institutional Old-Age Care Model of " CMHC " * —Taking XinYu YinHe Park Elderly Service Center As an Exampl”, Open Journal of Social Sciences, 5(4), pp.68-84.

[2] Aimee I. Porter, Rebecca A. Erwin-Cohen, Nancy Twenhafel, Taylor Chance, & Luis DaSilva. (2017). “Characterization and Pathogenesis of Aerosolized Eastern Equine Encephalitis in the Common Marmoset (Callithrix Jacchus)”, Virology Journal, 14(1), pp.25. DOI: 10.1186/s12985-017-0687-7

[3] Tom N. McNeilly. (2017). “Global Food Security Via Efficient Livestock Production: Targeting Poor Animal Husbandry”, Veterinary Record, 180(11), pp.276-277. DOI: 10.1136/vr.j1236

[4] Rita-Marie Cain Reid. (2016). “The Chicken and the Egg - Animal Welfare, Food Safety and Federalism”, Food & Drug Law Journal, 71(1), pp.1-29.

[5] D. Russick, & P.E. Urriola. (2017).“Digestibility of Food Waste-Derived Animal Feed”, BioCycle, 58(9), pp.30-32.

[6] Xu Qin, Lijie Zhao, Qingqing Huang, Yiyun Liu, & Yetong Liu. (2017). “Rapid Multi-Residue Determination of Pesticides in Animal-Derived Food Via Modified Quechers Sample Preparation and GC/MS”, Food Analytical Methods, 11(24), pp.1493-1500.

[7] Paulien Adamse, Stefanie Schoss, Rob M. C. Theelen, & Ron L. A. P. Hoogenboom. (2016). “Levels of Dioxins and Dioxin-Like Pcbs in Food of Animal Origin in the Netherlands During the Period 2001-2011”, Food Additives & Contaminants Part A, 34(1), pp.78-92. DOI: 10.1080/19440049.2016.1252065

[8] Will, D. (2018). “Food Animal Abuse Not Widespread”, Canadian Veterinary Journal La Revue Veterinaire Canadienne, 59(1), pp.9.

[9] Parviz Shayan, Dhakam Al-taghlubee, Ali Misaghi, David Shayan, & Brigitte Eckert. (2018). “An Innovative Reverse Line Blot for Simultaneous Detection of Animal Species in Food”, European Food Research & Technology, 244(6), pp.1-7. DOI: 10.1007/s00217-018-3083-7

[10] Sarah L. Zieger, Silke Ammerschubert, Andrea Polle, & Stefan Scheu. (2017). “Root-Derived Carbon and Nitrogen from Beech and Ash Trees Differentially Fuel Soil Animal Food Webs of Deciduous Forests”, Plos One, 12(12), pp.e0189502.

[11] Franck L. B. Meijboom. (2017). “More than Just a Vet? Professional Integrity As an Answer to the Ethical Challenges Facing Veterinarians in Animal Food Production”, Food Ethics(4), pp.1-12.

[12] D. Al-Ramamneh. (2018).“Reduce Heat Stress in Broiler by Adding Onion”, Russian Agricultural Sciences, 44(1),pp. 92-96. DOI: 10.3103/S1068367418010160