Below is the uncorrected machine-read text of this chapter, intended to provide our own search engines and external engines with highly rich, chapter-representative searchable text of each book. Because it is UNCORRECTED material, please consider the following text as a useful but insufficient proxy for the authoritative book pages.
Appendix C Shifts in the Production and Employment of Baccalaureate Degree Graduates from United States Colleges of Agriculture and Natural Resources, 1990-2005, Background Paper by: Jeffrey L. Gilmore (U.S. Department of Agriculture [USDA]), Allan D. Goecker (Purdue University), Ella Smith (USDA), P. Gregory Smith (USDA) Contributors: Franklin E. Boteler (USDA), Jorge A. González (U. Puerto Rico-Mayagüez), Joe Hunnings (University of Vermont), Timothy P. Mack (Virginia Polytechnic Institute and State University), A. Dale Whittaker (Purdue University) Introduction This paper will highlight some of the major trends characterizing the milieu in which agricultural higher education has operated over the past 15 years, including an examination of the shifts in student demographics, graduation and degree patterns, employment opportunities, college structure and majors, the business and social environment, and consumer preferences. In order to better examine the current state of affairs, it might be helpful to This report draws heavily on material from national data collected by the U.S. Department of Education, the U.S. Department of Labor, the National Science Foundation, the U.S. Census Bureau, and the U.S. Department of Agriculture. The analyses and views expressed here, and any attendant errors or omissions, are the sole responsibility of the authors and do not represent the positions or policies of their employing agencies or the National Academy of Sciences. This paper has been updated from its original version to incorporate data made available since the 2006 Leadership Summit. The only changes are to add more recent data to several figures and update the text references to those data. 155
156 Appendix C first provide a quick review of agricultural higher education history and the involvement of the U.S. Department of Agriculture (USDA). The 1st Morrill Act of 1862 established the land-grant system to provide for a âpractical educationâ in agriculture and the mechanical arts for the common man. This was in stark contrast to the existing system of private colleges for the elites, which provided training for lawyers, physicians, and the clergy. In those days most people lived on farms, and the âAg Schoolâ was the core of the new land-grant colleges. Not coincidentally, 1862 also saw the establishment of the USDA as âThe Peoplesâ Departmentâ to serve rural America. Shifting forward 115 years to 1977, the situation had changed dramati- cally. The land-grant colleges, including the 1862 and 1890 institutions, had evolved into world-class universities, but colleges of agriculture were no longer the entire university, or even a core unit in many cases. Other public and private institutions, including community colleges, became involved in the education of students in the fields of agriculture though not at the same breadth and depth as the land-grant institutions. Leaders of Americaâs agri- cultural higher education programs requested Congress to transfer the lead federal role for facilitating agricultural higher education programs from the U.S. Office of Education to USDA. It was felt that agricultural and natural resources higher education programs could be conducted more effectively in concert with the USDAâs agricultural research and extension programs. As a result of these efforts, agricultural higher education program authority was transferred to the USDA in provisions of the 1977 Farm Bill. Since then, there have been a number of developments. In implementing congressional authorities and appropriations, USDA established a National Needs Graduate Fellowships program for scientific human capital develop- ment in 1984, and in 1990 USDA initiated the Higher Education Challenge Grants program to modernize food, agricultural, and natural resources curricula, improve instructional delivery systems, stimulate student recruit- ment and retention, encourage faculty development, and expand student experiential learning opportunities. In 1988, the USDA sponsored a national summit focusing on graduate education in agriculture. In April 1991, the National Research Councilâs Board on Agriculture held the first conference on higher education to âchart the comprehensive changes needed to meet the challenges of undergradu- ate professional education in agriculture.â Topics of papers and discussions included the core curriculum, diversity and multiculturalism, scientific liter- acy, undergraduate research, rewarding teaching excellence, globalism, cur- ricular innovation, agriculture as a science, and the science of agriculture.
Appendix C 157 USDA now invests over $100 million annually in higher education programs through 20 national initiatives that help support agricultural and natural resources colleges both within and outside the land-grant college system. During the past quarter-century, agricultural and natural resources curricula have been transformed to challenge and serve students with broadening professional interests and academic backgrounds. Facilities and equipment have been modernized to incorporate contemporary information technologies and biotechnologies. Increased emphasis is now being placed on active learning methodologies and experiential education, including undergraduate research, internships in the public and private sectors, and study abroad opportunities. Outstanding students have been attracted to graduate study in agricultural and natural resources via graduate fellowships, and faculty recognition programs for outstanding teaching have been initi- ated. In addition, many colleges have changed their identities from a focus limited to agriculture to one emphasizing a broader scope of study, while other colleges have entirely eliminated a reference to agriculture in their names. As the lead federal agency for agricultural and natural resources higher education programs, USDA has worked successfully with the nationâs colleges and universities to transform programs of study and generate gradu- ates with new and contemporary skills and attributes. It is against this backdrop that we examine the evolving characteristics of graduates having expertise in food, agricultural, and natural resources disciplines, and set this examination within the current context of changing professional opportunities to meet the human resources needs of employers. It is an exciting and rapidly shifting paradigm requiring careful analyses, visionary thinking, and decisive actions. Trends in Baccalaureate Degrees Awarded by Colleges of Agriculture and Natural Resources Significant growth in the number of agricultural and natural resources baccaÂlaureate degree recipients occurred in the United States between 1987 and 2007. In the 1987â88 Academic Year (AY), colleges and universities awarded 18,572 baccalaureate degrees in agricultural and natural resources disciplines compared to 33,680 in AY 2006â07. Much of the growth in degrees conferred, as reported by the National Center for Educational ÂStatistics, was realized in three areas of study, including Natural Resources Conservation and Research, Animal Sciences, and Agricultural Business and Management. Figure C-1 shows that 872 baccalaureate degrees were awarded in Natural Resources Conservation and Research in AY 1987â88 compared
158 Appendix C 7,000 6,000 Agricultural Business & Management Number of Graduates Agricultural Production 5,000 Applied Horticulture Animal Sciences 4,000 Food Science & Technology 3,000 Plant Sciences Natural Resources Conservation & Research 2,000 Forestry 1,000 0 87-88 91-92 95-96 99-00 03-04 06-07 Graduation Year FIGURE C-1â Number of baccalaureate degrees awarded in selected agricultural and natural resources fields of study, United States, 1989â2007. SOURCE: National Center for Education Statistics Completion Reports. [This figure has been updated to include data made available since the Leadership Summit.] to 6,276 in AY 2006â07. Animal Sciences baccalaureate degrees increased from 3,034 to 4,505 during this time, while Agricultural Business and ManageÂment degrees rose from 3,542 to 4,010. During the period between 1987 and 2007, baccalaureate degrees in Agricultural Production increased from 109 in AY 1987â88 to 177 in AY 2006â07. Applied Horticulture degrees rose from 356 to 688. Plant S  ciences degrees increased from 1,592 to 1,706 and Forestry degrees went up from 930 to 1,019. While there was significant expansion in the aggregate number of degrees awarded between 1987 and 2000, the number of degrees awarded after 2000 begins to stabilize. Agricultural and Natural Resources Baccalaureate Degrees as Compared to All Baccalaureate Degrees During the period between 1987 and 2007, the number of bacca laureate degrees awarded in agricultural and natural resources areas of study increased by 80 percent. In contrast to this, baccalaureate degrees awarded in all areas of study increased by only 60 percent (Figure C-2).
Appendix C 159 Most of the growth in the number of agricultural and natural resources baccalaureate degrees occurred in the mid and late 1990s, and reflected steep enrollment increases experienced by the nationâs colleges of agricul- ture and natural resources in the late 1980s and early 1990s. (As previously noted, enrollments in these areas either remained stable or declined in recent years.) In comparison, baccalaureate degrees awarded in all fields of study in the United States continued to increase throughout the period from 1987 to 2007. Demographic Characteristics of Graduates in Agricultural and Natural Resources Fields of Study During the period from 1987 to 2007, the number of baccalaureate degrees in the agricultural and natural resources fields of study awarded to females rose significantly from 6,284 in AY 1987â88 to 16,262 in AY 2006â07. During the same period, baccalaureate degrees awarded to males increased from 12,288 in AY 1987â88 to 17,509 in AY 1999â2000, but declined to 17,418 by AY 2006â07. These data are depicted in Figure C-3. 200% 180% % growth all degrees 160% % growth agriculture degrees 140% Percentage Change 120% 100% 80% 60% 40% 20% 0% 87-88 91-92 95-96 99-00 03-04 06-07 Year Degree Awarded FIGURE C-2â Index of relative growth in bachelor degrees awarded in selected agri- cultural specialties compared to all bachelor degrees awarded at U.S. institutions, 1987â2007. SOURCE: National Center for Education Statistics Completion Reports. [This figure has been updated to include data made available since the Leadership Summit.]
160 Appendix C During the period from 1995 to 2007, there was relatively little change in the racial and ethnic characteristics of baccalaureate degree recipients in agricultural and natural resources programs of study. In AY 1995â96, a little over 87 percent of the graduates were White non-Hispanic compared to 81 percent in AY 2006â07. Black non-Hispanic graduates increased very little, from 2.9 to 3.2 percent, American Indian/Alaska Native from 0.7 to 0.8 percent, Asian or Pacific Islander from 2.4 to 4.4 percent, and Hispanic from 2.7 to 4.6 percent. As Figure C-4 shows, in AY 2003â04 a total of 1,089 agricultural and nat- ural resources baccalaureate degrees were awarded to Black non-Hispanics, 272 to American Indian/Alaska Native, 1,464 to Asian or Pacific Islander, and 1,547 to Hispanic populations. The remainder of the 27,281 degrees awarded went to White non-Hispanic students. While overall numbers have not changed much, a significant development is in the number of Hispanic graduates, which has increased and recently surpassed the number of Black non-Hispanics and Asian or Pacific Islanders. The number of nonresident aliens and American Indian/Alaska Natives has remained constant. 20,000 18,000 Males Females 16,000 Number of Graduates 14,000 12,000 10,000 8,000 6,000 4,000 2,000 0 1987- 1991- 1995- 1999- 2003- 2006- 1988 1992 1996 2000 2004 2007 Year of Graduation FIGURE C-3â Gender of baccalaureate degree recipients in selected agricultural and natural resources degree fields of study, United States, 1989â2007. SOURCE: National Center for Education Statistics Completion Reports. [This figure has been updated to include data made available since the Leadership Summit.]Â
Appendix C 161 1,800 1995-1996 1999-2000 2003-2004 2006-2007 1,600 1,400 1,200 Graduates 1,000 800 600 400 200 0 Nonresident alien Black non-Hispanic American Asian or Pacific Hispanic Race/ethnicity Indian/Alaska Native Islander unknown Ethnicity FIGURE C-4â Number of baccalaureate degrees awarded in agricultural and natural resources fields of study by selected ethic groupings, United States, 1995â2007. SOURCE: National Center for Education Statistics Completion Reports. [This figure has been updated to include data made available since the Leadership Summit.] As Table C-1 shows, somewhat greater variations in demographic char- acteristics are observed between the degree levels in agriculture, natural resources, and veterinary medicine specializations. TABLE C-1â Selected Demographic Characteristics of Graduates in Agriculture, Natural Resources, and Veterinary Medicine Fields of Study, United States, 2001â2002 Females Ethnic Minorities Non-U.S. Citizens Degree Level (%) (%) (%) Baccalaureate 53 16 â2 Masterâs 55 14 15 Doctor of Philosophy 41 17 35 Doctor of Veterinary Medicine 72 â9 â1 SOURCE: National Center for Education Statistics Completion Report 2001â2002.
162 Appendix C Projected Average Annual Employment Opportunities and Available Graduates in Agricultural and Natural Resources During the past three decades, a series of five-year studies has been sponsored by the Higher Education Programs unit of the USDA Coopera- tive State Research, Education, and Extension Service. The purpose of these studies is to project and compare the number of qualified college graduates that are available to fill the expected number of employment opportunities requiring expertise in food, agricultural, and natural resources specialties. Summary data from the four most recent studies are presented in Figure C-5. These graphs are based upon analyses of Bureau of Labor S Â tatistics and Department of Education data, and show projected job open- ings in agricultural and natural resources occupations (broadly defined) compared to projected numbers of qualified graduates from 1990 to 2010. Strong U.S. economic conditions in the late 1990s, when the 2000â2005 projections were developed, contributed to the relatively higher number of projected employment opportunities during the period. Two sources of graduates with requisite expertise in agricultural and natural resources specialties have been utilized to project the average annual availability of qualified graduates charted in Figure C-5. âAgriculture degree recipientsâ are the baccalaureate, masterâs, doctoral, and doctor of veteri- nary medicine degree graduates generated by colleges of agriculture and natural resources, and by colleges of veterinary medicine. âAllied degree 57,785 60,000 55,000 52,030 48,793 47,918 50,000 45,000 16,177 Number 16,958 40,000 35,000 19,756 20,286 30,000 25,000 20,000 34,454 32,325 15,000 22,604 23,650 10,000 5,000 0 1990-1995 1995-2000 2000-2005 2005-2010 Year Agriculture Degree Recipients Allied Degree Recipients Job Openings FIGURE C-5â Projected average annual employment opportunities and available gradu- ates in agricultural and natural resources fields of study, United States, 1990â2010. SOURCE: U.S. Department of Labor Monthly Labor Review, February 2004, and National Center for Education Statistics Completion Reports.
Appendix C 163 recipientsâ are graduates of other academic units, including colleges of engineering, arts and sciences, and business schools, who are deemed to have the requisite expertise necessary to fill job openings in agricultural and natural resources occupations. It is important to note (as stated above) that graduates at all degree levels, not just baccalaureate degrees recipients, are included in the Figure C-5 analyses. Projected areas of employment strengths and weaknesses for 2005 to 2010 are discussed below. Management and business occupations: Strong employment oppor- tunities are expected for technical sales representatives, accountants and financial managers, market analysts, landscape managers, and international business specialists. Weaker employment opportunities are forecasted for sales and business representatives who provide services to farmers and ranchers, and grain and food animal merchandisers. Scientific and engineering occupations: Most employment opportuni- ties are expected for graduates with skills in precision agriculture, functional genomics and bioinformatics, forest science, plant and animal breeding, biomaterials engineering, food quality assurance, nanoÂtechnology, animal health and well-being, nutraceuticals development, and environmental s  cience. Expect relatively fewer opportunities for agricultural  machinery engineers, wildlife and range scientists, and veterinarians in general practice. Agricultural and forestry production occupations: Good job opportuni- ties are projected for producers of fruits and vegetables, growers of specialty crops that provide raw materials for medical and energy products, managers of specialized livestock operations, forest resources managers, growers of landscape plants and trees, managers of aquaculture operations, turf pro- ducers, organic farmers, and providers of outdoor recreation. However, as agricultural production units continue to consolidate, there will be fewer opportunities for producers of traditional commodities (e.g., wheat, corn, cotton, soybeans, cattle, and hogs). Education, communication, and governmental services occupations: Most opportunities are projected in plant and animal inspection, public health administration, biotechnology impact assessment, nutritional and health occupations geared to serve an aging population, outdoor recre- ation, food system security, consumer information technologies, and environÂ
164 Appendix C mental and land-use planning. More limited opportunities will be found for farm and ranch advisors, and government farm service agents. Results of the most recent study are available at <http://faeis.usda. gov/supplydemand/2005-2010/>. Some significant assumptions regarding socioeconomic forces and anticipated technological advancements must be factored into the model to project employment opportunities for graduates. What follows is a dis- cussion of the four factors that were considered to be most important when generating the projections for 2005â2010. The factors are: (1) Consumers and their preferences dictate that products and services derived from agricultural and forest raw materials must help them maintain contemporary lifestyles. Population growth, changing ethnic and age demo- graphics, and evolving food and health literacy strongly influence both what is produced and the expertise required to meet consumer demands. (2) The evolving business structures that support the U.S. food system continue to be influenced by globalization and consolidation. Expertise needs will evolve and create a need for graduates with excellent business skills, international understanding, and leadership qualities. Graduates must deal with increasing market uncertainty, risk analysis, petroleum dependence, niche business opportunities, and global food production and distribution systems. (3) New developments in science and technology are being driven by changes in biosecurity, the expanding global population, health concerns, shrinking natural resources, and climate change. Emerging biotechnologies and nanotechnologies are powerful tools to increase food system efficiency. Other scientific developments will help us maintain our renewable natural resources. All of these require graduates with basic science skills and the ability to solve problems with scientific applications. (4) Public policy choices and accountability will affect the market for graduates who can provide public services, including education, Â natural resource utilization, food assistance, recreation, and financial support. P Â ublic concerns regarding diet and health, food safety, and the environment dictate the number and kinds of graduates needed to manage regulatory programs and provide services to assist producers and others working in the food and natural resource system.
Appendix C 165 Important Factors Affecting Future Agricultural and Natural Resources Graduates Many factors are impacting higher education institutions as they offer academic programs to prepare future graduates in the agricultural and n  atural resources sciences. The factors that are especially important include the racial and ethnic characteristics of Kâ12 students, student and Âfamily misconceptions about agriculture careers, and the changing skill sets employers seek. These factors are discussed below. Figure C-6 indicates the demographic trends in the racial and ethnic composition of students in U.S. public schools. A steady increase in the percentage of minority students over the last 30 years is shown (22 percent in 1972 compared to 39 percent in 2002) with the percentage of Hispanic students increasing from 6 percent to 18 percent over the same time period. While agricultural and natural resources higher education programs have been working to attract more minority students, there have only been very small increases in minority baccalaureate degree recipients from 1995 to 2004. Diversity continues to be a major opportunity and challenge to col- leges of agriculture and natural resources. 100 90 White Non Hispanic Black Non Hispanic Hispanic Other Total Minorities 80 70 Percentage 60 50 40 30 20 10 0 1972 1982 1992 2002 Year FIGURE C-6â Racial/ethnic distribution of public schools, grades Kâ12, United States, 1972â2002. SOURCE: US Department of Commerce, Census Bureau, Current Population Survey, 1972â2004.
166 Appendix C TABLE C-2â Main Concerns Affecting U.S. High School Students in Selecting Agricultural Sciences as a Career Major Main Concern Percentage Misconception or Image about Agricultural Sciences 41 Lack of Knowledge about Employment Opportunities 33 Lack of Knowledge about Fields of Study 22 Perceived Relevance/Importance to Future Career 22 Students Lack Fundamental Knowledge in Mathematics and Sciences 11 Peer Pressure/Family Against Agricultural Sciences Studies â7 SOURCE: Gonzalez 2006. In 2005, academic program administrators in colleges of agriculture and natural resources evaluated the factors affecting student choice to seek admission and matriculate. Results of the survey are presented in Table C-2. These data suggest that colleges of agriculture and natural resources continue to be challenged in helping potential students better understand the academic and career opportunities in these fields. In addition, there appears to be continuing reason for concern regarding the publicâs per- ception of the images associated with agricultural and natural resources programs of study. Table C-3 presents the skills that agribusiness employers have identified as the ones most important for new college graduates. Colleges of agricul- ture and natural resources must continually update courses and curricula to meet changing expectations in the employment arena. Portfolios of faculty and academic resources may or may not be positioned to offer academic programs capable of generating graduates with the high-priority skills and preparation that employers seek. Evolving Higher Education Programs in Agricultural and Natural Resources Agricultural and natural resources colleges have responded to these con- cerns by consolidating and realigning their offerings with other programs, and by changing their names and structure. For example, at the 58 traditional 1862 land-grant institutions, 49 have an agricultural college. Of these, 12 are named the âCollege of Agricultureâ while 37 have names encompassing agriculture along with something else, most commonly natural resources, life sciences, environmental sciences, food sciences, biological sciences, or family and consumer sciences. These changes are reflected at non-land-grant
Appendix C 167 TABLE C-3â Skill Sets and Abilities that Agribusiness Employees Seek in New College Graduates Skill Sets and Abilities Ratinga Interpersonal Communication Skills 5.00 Critical Thinking Skills 4.92 Writing Skills 4.36 Computer Skills 4.27 Cultural/Gender Awareness/Sensitivity 4.08 Quantitative Analysis Skills 4.07 Knowledge of Business Management 4.00 Oral Presentation Skills 4.00 Knowledge of Accounting and Finance 3.62 Intern/Co-op Work Experience 3.29 Knowledge of Macroeconomics, International Trade 3.08 Broad-based Knowledge in Liberal Arts 2.75 International Experience 2.75 Foreign Language Skills 2.56 Production Ag Experience 2.36 aRated on scale of 1 to 5, where 1 is unimportant and 5 is absolutely essential. SOURCE: Adapted from Boland and Akridge 2006. institutions as well. Names are trending toward the life sciences, and as a consequence, the public image of âagricultureâ is broadening. Along with the name changes for colleges of agriculture, departments within the colleges also are shifting. The traditional food, agricultural sciences, and natural resources disciplines now also include biology, rangeland, statis- tics, communications, fisheries, parks and recreation, human development, and landscape architecture. Associate deans for academic programs at the 1862 land-grant institutions have recently projected the following majors as having the most growth potential: pre-veterinary science, equine/Âcompanion animal science, agricultural biotechnology, food science/food safety/Ânutrition, turf/landscape/urban horticulture, natural resources/environmental science, agribusiness, and families/communities/consumer sciences. In contrast to the above fields of study, other traditional majors are projected to decline, including soil and crop science, entomology, animal science (meat animal), and plant pathology. Closing Thoughts What can we expect for the future? One recent study solicited responses to this very question. Results from that study suggest that agricultureâs future will be filled with a host of new and emerging disciplines, including genomics;
168 Appendix C genetics; molecular biology; computational biology; biological Âengineering/ manufacturing; biosecurity; wellness; food/health interaction; human/animal interaction; animal behavior/wellbeing; renewable energy/resources; bio- based products; biosensors; biorenewable engineering; Â climate change; spatial sciences; water conservation, management, and Âpolicy; sustainable agriculture; land-use planning/policy; landscape restoration and design; human/environmental interaction; international/Âintercultural (agriculture/ business); entrepreneurship; food production policy; health/Âscience informa- tion and decision making; production/management/ecology of GMOs; and science/risk communication. These emerging fields clearly reflect several societal changesâfrom producer to consumer, rural to suburban, and uninformed to educated. It appears, more and more, that âagricultureâ is being defined as an area of basic sciences applied to wellness and sustainability. Is this our future? Will the land-grant institutions still be positioned to provide for a âpractical edu- cation in agriculture and the mechanical arts for the common man?â Or, is this mission obsolete? We must not just âwait and seeâ but, rather, we must define and engineer the future we need and desire. Hopefully, the National Academy of Sciences Leadership Summit will do just that. BIBLIOGRAPHY Boteler, Franklin E. July 2006. Response to Recommendations of the National Food and Agri- business Management Commission. Presentation at the American Agricultural Economics Association Meeting. Long Beach, California. Goecker, Allan D., Jeffrey L. Gilmore, Ella Smith, and P. Gregory Smith. March 2005. Employ- ment Opportunities for College Graduates in the U.S. Food, Agricultural, and Natural Resources System, 2005-2010. Purdue University College of Agriculture, West Lafayette, Indiana. Gonzalez, Jorge A. August 2006. Agricultural Programs: Are They Able to Adapt for the Future? CSREES Faculty Fellow presentation at USDA. Washington, D.C. Mack, Timothy P. November 2005. Lessons Learned about Agriculture by Doing FAEIS. Pre- sentation at the NASULGC Annual Meeting, Academic Programs Section Workshop. Washington, D.C. NASULGC. September 2005. Directory: Deans and Directors of Academic Programs in Schools and Colleges of Agriculture, Agriculture and Life Sciences, or Agriculture and Natural Resources. Washington, D.C. Whittaker, A. Dale. November 2005. Trends in University Preparation for Agriculture and the Life Sciences. Presentation at the NASULGC Annual Meeting, Academic Programs Section Workshop. Washington, D.C.