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BACHELOR’S OF ACUACULTURE
ENGINEERING |
| Department Chair |
M.C. Leticia Sánchez Estudillo |
| acui@angel.umar.mx |
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The aquaculture engineering graduate will be able to:
- Participate in interdisciplinary groups of the production sector to create better growth in the world.
- Create, operate and administer aquatic and fishery businesses in a sustainable way.
- Design, plan, carry out, direct, and evaluate the construction and management of acquatic systems.
- Participate in activities that promote aquatic development of the production sector.
- Participate in the formation and evaluation of projects involving investment in aquatic businesses.
- Collaborate in the planning of economic development of the fishing business.
- Offer scientific/technical assistance to the official, private, and social sectors of the fishing industry in order to bring about better management, use, conservation, and progress of marine resources.
- Carry out scientific research and projects of technological development that will foster aquatic and fishing development.
- Determine aquatic species that are potentially useful for cultivation and production.
- Generate results of aquatic and technological innovations that help solve problems come about due to social or production factors.
- Impart technical and scientific knowledge to organized groups.
- Establish links with the community, the private and production sectors, and government and civil institutions through the practice of his or her profession.
- Have the ability to manage the procedures of production of balanced meals.
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The graduate of Aquaculture Engineering will be able to:
- Work in the aquaculture businesses in the private and public sectors with the possibility starting up his/her own business.
- Participate in the development of projects in the production, government and public sectors.
- Continue his/her specialization in programs at the national or international level.
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FIRST SEMESTER
History of Philosophic Thought
Computers
Physics I: Mechanics
General Chemistry
Mathematics I: Differential and Integral Calculus |
SECOND SEMESTER
General Systems Theory
Biology
Physics II: Thermodynamics
Organic Chemistry
Mathematics II: Differential Equations and Vectorial Calculus |
THIRD SEMESTER
Physics III: Fluid Mechanics
Physiochemistry
Statistics
Developmental Biology
Introduction to Natural Resources Economics
Aquaculture |
FOURTH SEMESTER
Biochemistry
Biostatistics
Reproduction Biology
Accounting
Support farming I
Aquatic Systems Engineering I: Hydraulics |
FIFTH SEMESTER
Aquatic Chemistry
Multivariate Analysis
Physiology
Biology of Mollusks
Technical Drawing
Human Recourses Administration |
SIXTH SEMESTER
Microbiology
Mollusk Production
Single operations and processes
Numeric Analysis
Topography
Aquatic Ecology |
SEVENTH SEMESTER
Aquatic Business Administration
Health and Pathology of Aquatic Organisms
Fishing and Aquatics Legislation
Ground Mechanics
Population Ecology
Fish Biology |
EIGHTH SEMESTER
Formation and Evaluation of Aquaculture Projects
Fish Farming
Aquatic Systems Engineering II: Materials Resistance
Biochemistry of Food
Sanitary Engineering
General Genetics |
NINTH SEMESTER
Genetic Improvement
Biology of Crustaceans
Food Technology I
Thesis Seminar I
Elective |
TENTH SEMESTER
Crustacean Farming
Aquatic Systems Design
Aquatic Nutrition
Thesis Seminar II
Elective |
ELECTIVES
Exotic Species Farming
Aquatic Organisms Reproduction
Support farming II
Aquatic Fertilization
Larva Crustacean Farming
Scuba diving
Farming Systems of Recirculation Engineering
Experimental Design |
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Ciudad Universitaria, Puerto Ángel, Distrito de San Pedro Pochutla, Oax., México C.P. 70902
Ciudad Universitaria, Santa María Huatulco, Oax., México C.P. 70989
Ciudad Universitaria, Carretera Vía Sola de Vega, Puerto Escondido, San Pedro Mixtepec, Juquila, Oax., México C.P. 71980
Pino Suárez #509 Col. Centro, Oaxaca de Juárez, Oax., México C.P. 68000 |
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