Hostname: page-component-586b7cd67f-dlnhk Total loading time: 0 Render date: 2024-11-24T14:08:28.642Z Has data issue: false hasContentIssue false

Undergraduate Material Research in a Land Grant HBCU to Sustain Local Farmers Communities

Published online by Cambridge University Press:  16 February 2015

Victoria V. Volkis
Affiliation:
Department of Natural Sciences, University of Maryland Eastern Shore, Princess Anne, MD 21853, USA
Deborah G. Sauder
Affiliation:
Department of Natural Sciences, University of Maryland Eastern Shore, Princess Anne, MD 21853, USA
Get access

Abstract

Land-Grant Universities including those that were developed under the second Morrill Act in 1890 have historically been a key resource for the best scientifically based information for agricultural production. The University of Maryland Eastern Shore (UMES) is situated on the Eastern Shore of Maryland, a critical area, with small farms and underserved farmers. This unique location serves as an interface between University specialty crop research and those farmers. While prices of crops such as corn and soy, which traditionally have been a major source of income for local farmers, have increased dramatically over the past years, small farms cannot generate enough income from these commodity crops alone, and a need alternatives for extra income. At UMES agricultural, chemical and material research specialists formed a special research and training cluster in which they work jointly on non-traditional and non-food related applications of specialty crops in the field of material research leading to non-traditional applications of such crops. Examples of such research are: (i) blending natural specialty crops extracts with polymers to develop natural and effective anti-foaling coating to prevent biofilm formation on objects including military ships, platforms etc.; (ii) using biocompatible polymeric chitosan-based blends as sorbents for reversible carbon dioxide capturing and controlled release in algae-growing reactors and in the process of transforming biomass into alcohol by fermentation to increase the effectiveness of biomass use. Only about 20% of students-researchers in the cluster are graduate students and the rest are undergraduates. The main focus is to provide undergraduate students with research experience as a powerful tool for their education and career development. Focus on students performing outstanding research through their undergraduate education is the main priority in UMES. Working on the material research projects described above, our material cluster has developed some educational practices for effectively involving undergraduate students into research. These practices include early involvement, the development of special workshops and training settings for fast project starts, working in small groups lead by more experienced students, picking projects that can be easily divided into small tasks suitable to undergraduate student’s schedules, and participation in scientific conferences for undergraduates and others. In this presentation we will review two material research projects for undergraduate students mentioned above and will show how our best practices are implemented in each of these projects.

Type
Articles
Copyright
Copyright © Materials Research Society 2015 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Boyer Commission on Educating Undergraduates in the Research University. Reinventing Undergraduate Education: A Blueprint for America’s Research Universities. Stony Brook, NY 1998.Google Scholar
Boyer Commission on Educating Undergraduates in the Research University. Reinventing Undergraduate Education: Three years after the Boyer report. Stony Brook, NY 2001.Google Scholar
Gregerman- Hathaway, RS, Nagda, BA, Gregerman, SR. The relationship of undergraduate research participation to graduate and professional educational pursuit: an empirical study. J. Coll. Stud. Dev. 2002 (43) 614:631.Google Scholar
Holme, TA. Providing Motivation for the General Chemistry Course through Early Introduction of Current Research Topics. J. Chem. Educ. 1994, 71(11), 919.CrossRefGoogle Scholar
Wink, DJ and Weaver, GC. Evaluation of the Center for Authentic Science Practice in Education (CASPiE) model of undergraduate research.Google Scholar
Goodwin, T, Holmes, B, Hoagland, KE. How To Get Started in Research. 2nd Ed. Washington, DC: Council on Undergraduate Research; 1999 Google Scholar
Pladziewicz, JP. Factors important to the maintenance of undergraduate research programs. J Chem Ed. 1984, 61, 515516 CrossRefGoogle Scholar
Burande, Bharati P.; Gogte, Bhalchandra B.. Natural Products Based Ecofriendly Antifouling Paints.Google Scholar
Acevedo, M. S.; Puentes, C.; Carreño, K.; Leóna, J. G.; Stupak, M.; García, M.; Pérez, M.; Blustein, G. Antifouling paints based on marine natural products from Colombian Caribbean. Int. Biodeterioration & Biodegradation. 2013, 83: 97104.CrossRefGoogle Scholar
Dyck, A. J.; Sumaila, U. R.. Economic impact of ocean fish population in the global fishery. Journal of Bioeconomics 2010, 12: 227243.CrossRefGoogle Scholar
Pérez, M.; García, M.; Sánchez, M.; Stupak, M., Mazzuca, M.; Palermo, J. A.; Blustein, G.. Effect of secochiliolide acid isolated from the Patagonian shrub Nardophyllum bryoides as active component in antifouling paints. Int. Biodeterioration & Biodegradation.2014, 89: 3744.CrossRefGoogle Scholar
Dafforn, K. A.; Lewis, J. A.; Johnston, E. I.. Antifouling strategies: History and regulation, ecological impacts and mitigation. Marine Pollution Bulletin 2011, 62: 453465 CrossRefGoogle ScholarPubMed
Namasivayam, S. K. R; Roy, E. A.. Anti Biofilm effect on Medicinal Plant Extracts Against Clinical Isolate of Biolfim of Escherichia Coli. International Journal of Pharmacy and Pharmaceutical Sciences 2013, 5(2). 486489 Google Scholar
Joshi, R. K. Chemical Composition, In Vitro Antimicrobial and Antioxidant Activities of the Essential Oils of Ocinum Gratissimum, O. Sanctum and their Major Constituents. Indian J Pharm Sci. 2013, 75(4); 457462 CrossRefGoogle Scholar
Aroh, B.; Ristvey, A.; Volkis, V. Manuscript in preparation.Google Scholar
Boxall, ABA, Conrad, AU & Reed, S 1998. Environmental problems from antifouling agents. Environment Agency R&D Technical Report P2F (97) 03 Google Scholar
Jiru, Fekadu, Kumar, Rajesha A., Isloor, Arun M., and Volkis, Victoria V., PMCE Preprints, 2012, P408Google Scholar