Agriculture Program

The proposed Agriculture Program is a four-year program that will provide students with the requisite knowledge and skills in the science and practice of agriculture for increased productivity. The curriculum spans the science of crop cultivation; animal rearing, health and disease control; fish production and management as well as the techniques for transmission of agricultural technologies and innovation to clienteles in diverse parts of the country. Concisely, the program comprises four

(4) major fields of study, namely: Crop Science; Animal Science; Agriculture Extension Education; and Aquaculture and Fisheries. In time, each of these will develop into a full-fledged department of its own in a College of Agriculture.

The Bachelor of Science in Agriculture (BSA) program aims to educate students in the scientific method, provide them with entrepreneurial skills, and prepare them to become globally competitive professionals with competencies in technical agriculture. It emphasizes the processes and techniques of identifying, diagnosing and analyzing problems and in designing, packaging and applying technologies needed in the development and conservation of the agricultural and food system resources.

Finally, the BSA program will prepare students for academic advancement and employment in agriculture and related fields. It will enable students to conduct business in the production, processing and marketing of plants, animals and other organisms utilized for food, fiber, recreation, biomedicine, industrial and other purposes within the context of integrated and sustainable agriculture resource systems. Graduates may find career opportunities in diverse areas of agriculture.

JUSTIFICATION

Undoubtedly, Liberia has enormous agricultural potential. Agriculture provided the mainstay of the economy throughout the Liberian conflict and accounts for over half of the GDP in the postwar period (compared to one-tenth in the late 1970s). The sector accounted for 42.2% of real GDP for 2008. A large proportion of the economically active population of Liberia is engaged either directly or indirectly in smallholder subsistence agriculture. amenable

However, several constraints are experienced by the sector, prominent among which are inadequate extension services and agricultural education. (Sector Scan: The Agriculture Sector in Liberia. 2017). These include the lack of hands-on and demonstration-based teaching and peer-to-peer learning, lack of professional development of teachers, lack of quality instructors and lack of production and technical skills among Liberian graduates in agriculture programs. (CAB International 2017. Building Agricultural Extension Capacity in Post-Conflict Settings (eds

P.E. McNamara and A. Moore)

To facilitate agricultural development in the nation, AME University deems it necessary to develop an agricultural program that is founded on four basic pillars: partnership with other institutions,

building human resource capacity, discovering new knowledge and skills, and transmitting new agricultural technologies to local clienteles for increased agricultural productivity.

Finally, the AMEU agriculture program will improve the national agricultural markets and collective food security, boost the management of natural resources, promote the professional development of quality agriculture instructors, foster entrepreneurship, and increase the requisite production and technical skills among graduates. Thus, the Program encompasses Crop Science, Animal Science, Extension Education, and Aquaculture and Fisheries.

Vision Statement

The Program is to be:

Top-quality, germane, and

Mission Statement

The Program is to educate students in the fundamental skills, knowledge, and practice of agriculture to prepare them for productivity, natural resources management, entrepreneurship, and for advancement in agriculture or related disciplines.

Goals

Upon completion of the program, the graduate will be able to:

Apply scientific method in conducting research and in solving agriculture-related problems;
Promote participation and social considerations in making agriculture-related decision;
Communicate reports professionally;
Demonstrate knowledge and skills for careers and advanced education in agriculture and /or related
Understand the concepts of agricultural productivity and sustainability in development;
Contribute to agricultural production and manpower development;
Promote agricultural innovations to various clients

Objectives

Upon completion of the program, the graduate will be able to:

Demonstrate basic knowledge and skills in agriculture;
Apply the scientific method in performing agricultural activities;
Develop conceptual understanding of areas in agriculture;
Communicate reports effectively through written and oral presentations to diverse audiences;
Contribute meaningfully to improve agricultural productivity

Strategic Action Plan

To achieve the Vision of the University, the implementation of the Agriculture Program will be guided by the following actions:

Developing a curriculum that considers the strengths of the faculty and other resources to meet the expectations of the national agriculture policy;
Encouraging diversity in recruitment of faculty across related disciplines in the University and externally;
Establishing collaborations with other agriculture programs nationally and internationally through faculty and student exchange and shared resources;
Promoting the program nationally and internationally through presence at local, national, and international conferences and symposia;
Organizing on-campus lecture series by inviting stakeholders in Agriculture to speak to students, faculty, staff, and the community;
Initiating recruitment of student body through formal recruiting activities (e.g. organized by the enrolment management office, );
Seeking external assessment of the program from peer institutions to make suggested improvements in accordance with the vision and mission statements;
Identifying and encouraging participation and leadership roles in active community service and formal programs for students, staff and faculty in Agriculture;
Encouraging faculty and staff development within the Program and related disciplines;
Assisting associated departments in developing partnerships with international universities or other agencies for curriculum and collaborative research effort;
Establishing formal assistance process for employment placement of graduating

Core Competencies The graduate will:

Understand the complexities of their specific concentrations in Agriculture;
Demonstrate knowledge and understanding of basic principles of agriculture;
Be able to apply knowledge and understanding of scientific principles in Agriculture;
Understand various aspects of national agricultural program;
Be able to effectively communicate innovations in agriculture to diverse

Career Opportunities for Graduates

Upon completion of the program, graduates will be prepared for entry-level positions in animal and plant production and management, extension services, fish farming enterprises, and teaching services. Specific positions include:

Agricultural Products Sales Representative
Animal/Plant Breeder
Crop Manager or Consultant
Crop Production Planning Manager
Extension Agent

Animal Nutritionist
Aquaculture Technician
College Agriculture Faculty

Farm Owner
Fish Hatchery Manager
Landscape Designers

· School Agriculture Teacher

Veterinarian

Admission Requirements

Students who intend to be admitted into the degree program in the BSA Program must satisfy the admission requirements of AME University and demonstrate adequate preparation for studies.

Duration of Program

A student with the required background is expected to complete the BSA Program in four (4) years. All students will take the required courses based on the pre-requisites. Those who will complete the proposed course loads in a given semester will follow the sequence of courses presented in the ensuing sections of the curriculum (Study Plan) and finish the requirements in four years. Students who may not complete certain courses in a given semester will be guided to continue the program logically. Such students might require more than four years for the completion of the program with the advice and consent of the Office of Admissions, Records, and Registration (OAR&R).

Graduation Requirement

To qualify for a Bachelor of Science degree in Agriculture (BSA), a candidate must have completed course work with a total number of credits in the range of 135 - 140 hours and should have passed all required courses with a minimum grade of “C” or GPA not less than 2.00.

Implementation of Curriculum

The BSA is organized for a four-year period with emphasis on classroom instruction and practical. The first two years of study will involve the completion of the general educational requirements of the University with few introductory core courses.

In the beginning of the program, students will be required to choose a major in one of the four (4) areas of study with the advice and consent of the academic program advisor. They will take courses according to the Plan of Study for each concentration or track.

Faculty Requirements

Qualifications of faculty to teach each course:
1. Faculty recruitment will be based on academic qualification and length of Preferably, faculty with a minimum of Master degree will be recruited to implement the curriculum.

Integration of faculty for research and teaching across disciplines:
Faculty from other colleges across the university will be encouraged to render part time service in the program.

Potential Faculty Profile for the Proposed Agriculture Program

NO.

NAME OF FACULTY

ACADEMIC QUALIFICATION

INSTITUTION

YEAR

Alvin S. Jueseah

PhD (Cand.) in Fisheries

Resource Econ

University of Iceland

Reykjavik, Iceland

August 2022

MSc in Fisheries and

Aquaculture Mangt & Econ

University of Tromso,

Norway

2012

BSc in Economics

University of Liberia

2009

Edward Boakai Perry

MSc in Regional Science

University of Liberia

2017

BSc in General Agriculture

University of Sierra

Leone

1989

AA in General Agriculture

Risk Junior College,

Liberia

1981

Gondah Moses Zolue

PhD in Soil Fertility and Environment Chemistry

Texas Tech University

– Texas Lubbock, USA

2020

MPhil in Soil Science

University of Ghana,

Legon

2013

BSc in General Agriculture

Cuttington University

2009

Edward S. Fatoma

MPH in Epidemiology

2022

BSc in General Agriculture

University of Liberia

2009

AA in Animal Husbandry

Cuttington University

1984

Helena Kerkulah Joyfe

MSc in Agribusiness Mangt.

University of Makerere Kampala, Uganda

2019

BBA in Management

University of Liberia

2013

Roland P. Varkpeh

MSc in Animal Science

University of Ghana, Legon

2013

BSc in General Agriculture

University of Liberia

2006

Glasgow B. Togba

MA in Fishing Policy

University of Wollongong Wollongong, New South Wales,

2012

			Australia
		BSc in Economics	University of Liberia	2001
8.	Eric T.S. Pattern	MSc in Fisheries & Marine Economics	Nha Trang University (NTU) Nha Trang City, Vietnam	2019
8.	Eric T.S. Pattern	BSc in Economics	University of Liberia	2012
9.	John F. Kanneh	MSc in Marine Ecosystem Mangy and climate change	Nha Trang University, Vietnam /University of Tromso, Norway	2018
9.	John F. Kanneh	BSc in General Forestry	University of Liberia	2012
10.	Dr. Sarwee Joe-Wia Faeflen	PhD in Soil Science	Southwest University Chongqing, China	2016
		MSc in Environmental Science	Southwest University Chongqing, China	2013
		BSc in Zoology	University of Liberia	2001

Advances in Aquaculture Hatchery Technology: Aquaculture Production of Meagre (Argyrosomus Regius): Hatchery Techniques, on Growing and Market (Woodhead ... in Food Science, Technology and Nutrition)
Agricultural Statistical Data Analysis Using Stata (Wiley) 1^st 2013 by George Boyhan 3- Agricultural Use of Groundwater: Towards Integration Between Agricultural Policy and

Water Resources Management (Economics, Energy and Environment) 1st Edition by Cesare Dosi

Agricultural Waste Management: First Step to Forest Protection in Sudan Paperback – June 1, 2016 by Shawgei Ismaeil

Biodiversity and Ecology of Aquatic Environments (Kindle Edition) by H.R. Singh 6- Crop Protection: Advances in Agricultural Science by Harley Wells
Diseases and Parasites of Tropical Fish, Symptoms and Treatment by Daniel Njoku

Essential Fish Biology: Diversity, Structure, and Function (Illustrated edition) by Derek Burton
Extension Teaching Methods and other Factors that Influence Adoption of Agricultural and Home Economics Practices by Meredith C Wilson
Feeding Tilapia in Intensive Culture: Fish Nutrition, Feed formulations, and Feed Biochemistry by Maghdy Gaber
Fish Genetics and Breeding (Hardcover) 2018 by T L S Samuel Moses 12- Fish Hatchery Management (Hardcover) by Gary Wedemeyer
Fish processing (2^nd edition) Paperback – February 13, 2022 by Gerardus Blokdyk

Fish Production Management and Export (Modern Livestock Farming Book 1) Kindle Edition by John Agonmuo
Food Processing, Biochemistry and Agriculture by Sara Diana Garduno Diaz 16- Fundamentals of Fish Taxonomy by K C Jayaram
Game Theory and Fisheries Management: Theory and Applications (1st ed.) 2020 Edition by Lone Grønbæk
Gender in Agriculture: Closing the Knowledge Gap 2014th Edition by Agnes R. Quisumbing 19- Group Dynamics and Team Interventions: Understanding and Improving Team Performance

1st Edition by Timothy M. Franz

Handbook of Agricultural Extension by ICAR

How the Ocean Works: An Introduction to Oceanography by Mark Denny

Introduction to Agricultural Economics (What's New in Trades & Technology) by John Penson
Introduction to Agricultural Engineering Technology: A Problem-Solving Approach 4th ed.

2018 by Harry L. Field

Introduction to Aquaculture by Brendan Marshall

Introduction To Fishery: Aquaculture (Fisheries) Made Easy (Kindle Edition) by Benson Bright
Introduction to Limnology 1st Edition by Stanley Dodson

Mass Communication in Agricultural Extension (Hardcover) by Dileep Kumar 28- Methods of Teaching Agriculture (3rd Edition) by H. Newcomb
Psychology and Adult Learning: The Role of Theory in Informing Practice (4th edition) by Mark Tennant
Recent Trends in Monitoring, Control and Surveillance Systems For Capture Fisheries (FAO Fisheries Technical Papers) by Food and Agriculture Organization of the United Nations
Research Methodology in Extension Education (Hardcover) 2016 by S. Kadian & Moti Lal Meena Dangi, Dileep Kumar
Rural Poverty, Empowerment and Sustainable Livelihoods (Routledge Revivals) 1st Edition by Joseph Mullen
Rural Sociology and Agricultural Extension in Developing Countries by Machiadikwe Agbarevo
Rural Wealth Creation (Routledge Textbooks in Environmental and Agricultural Economics) 1st Edition John L. Pender (Editor), Bruce Weber (Editor), Thomas G. Johnson

Statistical Methods in Agriculture and Experimental Biology, 3^rd edition (Texts in Statistical Science) 3rd Edition by Roger Mead
Stepping-Stones to Improve Upon Functioning of Participatory Agricultural Extension Programs: Farmer Field Schools in Uganda
The Conversion to Sustainable Agriculture: Principles, Processes, and Practices (Advances in Agroecology) by Stephen R.
The Efficient Pond Management Handbook (Paperback) 2013 by Ryan McCaw

The Politics of Aquaculture: Sustainability Interdependence, Territory and Regulation in Fish Farming (Routledge Studies in Environmental Policy) 1st Edition by Caitriona Carter
Water Resource Management: A Casebook in Law and Public Policy (University Casebook Series) 7th Edition
Wetland Ecology: Principles and Conservation (2nd edition) by Paul Kennedy

Youth Perception on Contribution of Agribusiness to Development: Entrepreneurship in Agribusiness for Poverty Alleviation, 2021

I. Monitoring and Evaluation

Each track will have a Track Coordinator (TC) who will be responsible to:

Supervise the implementation of the program track or concentration;
Collaborate with other TC’s and faculty;
Analyze return forms from track evaluation questionnaires, annually;
Confer with other faculty members about the course syllabi of each track; and
Analyze examination results and students’ feedback to make recommendations to the chairman or coordinator of the

Evaluations

Assessment reports will be used to assist in revising curriculum and to modify instructional approaches.

Student Evaluation

The following is recommended to assess students’ progress: Lecture Grades 80% of total Semester grades Practical Activities 20% of total Semester grades

Breakdown of Lecture and Practical Activities Grades

Lecture Grades		Practical
Item	% tage	Item	% tage
Attendance	5	Attendance	5
Assignments	5	Reports of Practical	15
Quizzes	10	Midterm	25
Tests	20	Final Practical Exam	35
Midterm	25	Practical Portfolio	20
Final Exam	35
Total	100	Total	100

Note: AME University policy on student evaluation will supersede the policy above.

Grading Scale:

A 90 – 100%

B 80 – 89%

C 70 – 79 %

D 60 – 69 %

F below 60%

SCOPE AND SEQUENCE OF PROGRAM

Bachelor of Science in Crop Science

Required Credit Hours for Graduation – 139 Credits

General Requirements – 31 Credits

Course Code	Course Title	Cr. Hrs
COSC 101	Computer Concepts	3
COSC 102	Computer Application	3
ENGL 101	Freshman English I	3
ENGL 102	Freshman English II	3
ENGL 201	Sophomore English I	3
ENGL 204	Technical English	3
GEOG 101	Introduction to Geography	3
MATH 107	Pre-Calculus	4
MATH 108	Math for Decision-making	4
PHED 101/ ROTC 101	Physical Education I / Military Science I	1
PHED 102/ ROTC 102	Physical Education II / Military Science II	1

College Requirement – 41 Credits

Course Code	Course Title	Cr. Hrs
AGRI 101	Introduction to Agriculture	3
AGRI 201	Introd to Rural Sociology and Gender in Agriculture	3
AGRI 204	Agricultural Economics	3

AGRI 205	Agroclimatology	3
AGRI 206	Introduction to Soil Science	3
AGRI 301	Agricultural Statistics and Experimental Design	3
AGRI 305	Introduction to Entrepreneurship	3
AGRI 401	Agriculture Policy of Liberia	3
BIOL 103	General Biology I	3
BIOL 104	General Biology II	3
CHEM 101	General Chemistry I	4
CHEM 102	General Chemistry II	4
PHYS 103	Fundamental of Physics I	3

Core Requirement – 58 Credits

Course Code	Course Title	Cr. Hrs
AGCS 201	Introduction to Crop Science	3
AGCS 202	Introduction to Plant Anatomy and Physiology	3
AGCS 204	Soil Fertility and Nutrient Management	3
AGCS 301	Principles of Crop Production	3
AGCS 302	Plant Pathology	3
AGCS 304	Crop Genetics and Breeding	3
AGCS 306	Seminar in Crop Science	1
AGCS 307	Introduction to Food Science & Technology	3
AGCS 308	Introduction to Farm Machinery and Uses	3
AGCS 309	Agriculture and Climate Change	3
AGCS 310	Horticultural Crop Production	3

AGCS 401	Introduction to Tropical Tree Crop Production	3
AGCS 402	Tropical Field Crops Production	3
AGCS 404	Soil Survey and Land Evaluation	3
AGCS 405	Agri Production Econ and Farm Management	3
AGCS 406	Introduction to Rice Production	3
AGCS 407	Internship and Field Experience	3
AGCS 408	Post-harvest Management	3
AGCS 409	Agriculture Research Methods	3
AGCS 410	Agriculture Research Project / Thesis	3

Electives – 9 Credits

Course Code	Course Title	Cr. Hrs
First Semester Junior Year Electives (Select only one course)
AGCS 311	Introduction to Weed Science	3
AGCS 313	Introduction to Non-Timber Forest Products	3
Second Semester Junior Year Electives (Select only one course)
AGCS 314	Principles of Forestry	3
AGCS 316	Principles of Crop Protection	3
First Semester Senior Year Electives (Select only one course)
AGCS 411	Agricultural Entomology	3
AGCS 413	Introduction to Horticulture Landscaping	3

Study Plan

First Semester Freshman Year

Course Code	Course Title	Cr. Hrs
AGRI 101	Introduction to Agriculture	3
BIOL 103	General Biology I	3
Chem 101	General Chemistry	4
ENGL 101	Freshman English I	3
MATH 107	Pre-Calculus	4
PHED 101 / ROTC 101	Physical Education I/ Military Science I	1
Total Credit Hours		18

Course No.	Course Title	Cr. Hr
AGCS 201	Introduction to Crop Science	3
AGRI 201	Introduction to Rural Sociology and Gender	3
AGRI 205	Agroclimatology	3
COSC 101	Computer Concepts	3
ENGL 201	Sophomore English I	3
PHYS 103	Fundamentals of Physics	3
	Total Credit Hours	18

First Semester / Sophomore Year

Course Code	Course Title	Cr. Hrs
AGCS 202	Plant Anatomy and Physiology	3
AGCS 204	Soil Fertility and Nutrient Management	3
AGRI 204	Agricultural Economics	3
AGRI 206	Introduction to Soil Science	3
COSC 102	Computer Applications	3
ENGL 204	Technical Writing	3
Total Credits		18

Second Semester Freshman Year

Course Code	Course Title	Cr. Hrs
BIOL 104	General Biology II	3
CHEM 102	General Chemistry II	4
ENGL 102	Freshman English II	3
GEOG 101	Introduction to Geography	3
MATH 108	Math for Decision-making	4
PHED 102 / ROTC 102	Physical Education / Military Science II	1
Total Credits		18

Second Semester Sophomore Year

15 Second Semester Junior Year

Course Code	Course Title	Cr. Hrs
AGCS 302	Plant Pathology	3
AGCS 304	Crop Genetics and Breeding	3
AGCS 306	Seminar in Crop Science	1
AGCS 308	Introduction to Farm Machinery and Uses	3
AGCS 310	Horticultural Crop Production	3
Elective		3
Total Credits		16

First Semester Junior Year

Course Code	Course Title	Cr. Hrs
AGCS 301	Principles of Crop Production	3
AGCS 307	Introduction to Food Science & Technology	3
AGCS 309	Agriculture and Climate Change	3
AGRI 301	Agricultural Statistics & Experimental Design	3
AGRI 305	Introduction to Entrepreneurship	3
Elective		3
Total Credits		18

First Semester Senior Year Second Semester Senior Year

Crop Science Course Descriptions

AGCS 201 Introduction to Crop Science: 3 Credits

This course introduces the student to the principles and practices crop science, plant crops, factors that influence crop growth and development, and the application of agronomic principles to crop production. Topics include basic concepts of crop science; economic and nutritional importance of crop plants; origin, classification, and geographic distribution of agronomic crops of Liberia; major food crops of the world and leading producers/exporters; environmental factors that influence crops; cultural practices under various climatic and soil conditions; importance of legumes in crop rotation; crop morphology and identification; special problems in crop production (e.g. rice production); plant growth regulation and development; essential elements and plant nutrition; cropping systems and practices; harvesting, storage, and marketing practices; crop breeding and improvement; integrated pest management.

AGCS 202 Plant Anatomy and Physiology 3 Credits

This course introduces students to the structure and functions of flowering plants. Topics include plant cell and tissue types; plant organs: root structure, functions, and systems; stem structure, functions and modifications; leaf structure, functions, types, and modifications; flower morphology, pollination and pollen structure; fruits and fruit classification; primary and secondary growth; photosynthesis; plant-water relations and internal transport: factors that affect water and mineral absorption, osmotic potential, water movement in plant; types, process, and role of transpiration; basic concept of translocation; mechanism of phloem translocation; regulation of plant growth and development; plant responses to light, gravity, and other environmental factors; flower, fruit, and seed development; senescence and dormancy.

AGCS 203 (Open number, for future course development)

AGCS 204 Soil Fertility and Plant Nutrient Management 3 Credits

This course introduces the student to the principles of soil fertility, plant nutrition and nutrient management. It discusses the nutrient elements and their interactions in plants and the soils. Topics include concepts of soil fertility; edaphic factors; soil productivity; nutrient cycle and nutrient flow in plants; essential plant nutrients; uptake forms, functions and deficiency symptoms of essential nutrient elements; functions and deficiency symptoms of secondary nutrient elements; functions and deficiency symptoms of micronutrients in plants; nutrients interactions in plants and soils; availability of nutrients; transformations and availability of nutrients in soils; formation and management of acid soils and calcareous soils, formation and management of salt-affected soils; soil fertility evaluation; microorganisms and decomposition in soil; importance of pH in plant nutrition; classification of fertilizers; methods of fertilizer applications; integrated plant nutrient management (IPNM).

AGCS 301 Principles of Crop Production 3 Credits

This course provides students with an understanding of the basic crop production including cropping systems, tillage practices, plant pests and management, and crop harvest and storage. Topics include basic concepts of crop production; plant growth and development; variety selection, seedbed preparation and planting of grain crops; harvest and storage of grain crops; integrated pest management (IPM); principles of rice production; principles of horticultural crop production.

AGCS 302 Plant Pathology 3 Credits

This course introduces students to the nature of diseases in plants, including their causal agent, etiology, epidemiology, and management or control. Topics include basic concepts of plant pathology; history of plant pathology; economic importance of plant diseases; causes of plant diseases; morphology, ecology, and classification of plant pathogens: plant pathogenic viruses; plant pathogenic bacteria; plant pathogenic fungi and fungal-like organisms; nematodes; parasitic plants; noninfectious plant diseases; major factors involved in plant disease development; basic concepts of plant disease diagnosis; principles of plant disease management; symptoms, mode of infection, disease cycle and management of representative diseases of field and horticultural crops: rusts and smuts; diseases of aerial plant parts; soilborne diseases; vascular diseases; wood decay and post- harvest diseases.

AGCS 303 (Open number, for future course development)

AGCS 304 - Crop Genetics & Breeding: 3 Credits This course introduces the basic genetic principles important for plant breeding, and selection methodology for self- and cross-pollinated crops. It examines the application of genetic principles to plant improvement. Topics include the basic concepts of genetics; mendelian genetics; chromosomal basis of heredity; gene linkage; population genetics; sources of variation in nature; methods of estimating heritability; genetic diversity; parent selection; breeding methods for self-pollinated crops; backcross method; types of cultivars; breeding methods for cross-pollinated crops; mutation breeding; heterosis; breeding for pest resistance; genetically modified organisms in agriculture; molecular markers and their role in plant breeding.

AGCS 305 (Open number, for future course development)

AGCS 306 – Seminar in Crop Science 1 Credit This course prepares students to examine and present scientific and technical reports. It enables students to identify and analyze contemporary issues in crop science. It involves how to search for information in the library, collate information into an organized unit, present to a group of fellow students and analyze and evaluate peer presentations. Students will review at least two research reports in Crop Science and organize presentations for faculty and other students. Topics include library research methods, paper organization and content; problem analysis; method of oral delivery; importance of an introduction, summary, visual aids, and clarity of a report.

AGCS 307 Introduction to Food Science & Technology: 3 Credits This course introduces students to the principles of food science and technology. It covers the concepts of food science including food composition, deterioration, safety, and processing. Topics include basic concepts of food science; components of food: water, carbohydrates, protein, lipid; food components and human body; food components and health; food deterioration and spoilage; physical, chemical and biochemical changes of food; overview of food microbiology; food safety; food processing and preservation; food packaging; food regulations.

AGCS 308 – Introduction to Farm Machinery and Uses 3 Credits

This course introduces students to farm field equipment used for agricultural production with special emphasis on mechanization. Equipment for study includes tractors, tillage, seeding, chemical application, forage harvesting, and grain harvesting equipment. Topics include sources of farm power and mechanization; scope of farm mechanization; selection of farm machines; operation and field performance of machines; types of implements; economics of field operation; tillage:

Agriculture

JUSTIFICATION

P.E. McNamara and A. Moore)

Vision Statement

Mission Statement

Goals

Objectives

Strategic Action Plan

Core Competencies The graduate will:

Career Opportunities for Graduates

· School Agriculture Teacher

Admission Requirements

Duration of Program

Graduation Requirement

Implementation of Curriculum

Faculty Requirements

Potential Faculty Profile for the Proposed Agriculture Program

Recommended Textbooks

I. Monitoring and Evaluation

Evaluations

Student Evaluation

SCOPE AND SEQUENCE OF PROGRAM

Study Plan

First Semester / Sophomore Year

Second Semester Sophomore Year

First Semester Junior Year

Crop Science Course Descriptions

AGCS 201 Introduction to Crop Science: 3 Credits

AGCS 202 Plant Anatomy and Physiology 3 Credits

AGCS 203 (Open number, for future course development)

AGCS 301 Principles of Crop Production 3 Credits

AGCS 302 Plant Pathology 3 Credits

AGCS 303 (Open number, for future course development)

AGCS 305 (Open number, for future course development)

AGCS 308 – Introduction to Farm Machinery and Uses 3 Credits