Hostname: page-component-586b7cd67f-r5fsc Total loading time: 0 Render date: 2024-11-23T08:52:26.258Z Has data issue: false hasContentIssue false
  • English
  • Français

Ground water research, information, and policy needs: Strategies and priorities for extension

Published online by Cambridge University Press:  30 October 2009

Charles A. Francis
Charles A. Francis
Affiliation:
Professor of Agronomy and Extension Crops Specialist, University of Nebraska, Lincoln, NE 68583.
Get access

Abstract

The Cooperative Extension Services in many states have concentrated on educational publications and programs which describe the complexities of the hydrologic cycle and where pollutants can enter the system. Recognizing that farming is a prime source of nonpoint source pollution in some areas, extension programs have focused on alternative agricultural practices which can reduce that pollution. Both national and state extension services have published recommendations on increasing public awareness, developed linkages with research, and provided leadership in education about pollution problems and how to solve them. The current national task forces on extension priorities include “water quality” as one of eight key areas for future extension emphasis. Alternative farming practices which can help reduce the pollution levels from agriculture include careful soil sampling, interpretation of analyses, setting yield goals, and matching nutrient applications to crop needs. Modified methods of nutrient application can also help. Reduced tillage, crop rotations, increased use of legumes, and keeping cover on the land through a greater part of the year can all help. Reduced applications of pesticides and use of alternative pest control measures have potential to improve ground water quality. There are economic as well as environmental reasons to reduce chemical and fertilizer applications in agriculture. This is a critical time for producers and researchers to examine alternative practices which can help improve ground water quality for future generations.

Type
Articles
Information
American Journal of Alternative Agriculture , Volume 2 , Issue 1 , Winter 1987 , pp. 32 - 36
Copyright
Copyright © Cambridge University Press 1987

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

1.Agronomy Department, University of Nebraska. 1987. Sustainable agriculture… wise and profitable use of our resources in Nebraska. Coop. Ext. Serv., University of Nebraska, Lincoln. 221 pp.Google Scholar
2.Bishop, R. 1986. The groundwater challenge. The Aquifer, Nebraska Groundwater Foundation (P. O. Box 2558, Lincoln, NE 68502), Vol. 2 (1): 23.Google Scholar
3. Cooperative Extension Service, Chesapeake Basin. 1985. Best management practices for nutrient uses in the Chesapeake Basin. Univ. Maryland, Bull. 308, 8pp.Google Scholar
4.Cooperative Extension Service, Michigan State University. 1986. Public information and education program to reduce nonpoint source pollution in Michigan. Nonpoint Source Water Quality Committee, Coop. Ext. Serv., Michigan State Univ. 27 pp.Google Scholar
5. Cooperative Extension Service, University of Wisconsin. 1986. How to develop extension education on groundwater: a guide to agent programming. Soil and Water Mgt. Programs, Univ. Wisconsin. 13 pp.Google Scholar
6.Dickey, E., Harlan, P., and Vokal, D.. 1981. Crop residue management for water erosion control. Coop. Extension Service, Univ. Nebraska, NebGuide G81-554. 4 pp.Google Scholar
7.Dickey, E., Harlan, P., Vokal, D., and Kisling-Crouch, C. J.. 1982. Effects of agricultural runoff on Nebraska water quality. Coop. Ext. Serv., Univ. Nebraska, NebGuide G82-586. 4 pp.Google Scholar
8.Environmental Protection Agency. 1984. Groundwater protection strategy. Office of Ground-Water Protection, U.S. E.P.A. 56 pp. plus attachments.Google Scholar
9.Extension Committee on Organization and Policy. (undated). Groundwater education: a challenge for the Cooperative Extension System. Univ. Arizona, Tucson. 15 pp.Google Scholar
10.Extension Committee on Organization and Policy. 1986. Report on the ECOP/ES national priorities policy task force (revised). Unpublished.Google Scholar
11.Extension Service, USDA. 1986. Developing a state plan of work for water quality education. Water Programs Steering Committee, EC/USDA. 22 pp.Google Scholar
12.Hallberg, G. R. 1985a. Agricultural chemical, and groundwater quality in Iowa: Status report 1985. Coop. Ext. Serv., Iowa State Univ., Ames, CE-2158q. 11 pp.Google Scholar
13.Hallberg, G. R. 1985b. Groundwater quality and agricultural chemicals: a perspective from Iowa. Proc. North Central Weed Control Conf., 40:130147.Google Scholar
14.Hallberg, G. R. 1986. Nitrates in groundwater in Iowa. Proc. Nitrogen and Groundwater Conf., Iowa Fertilizer and Chemical Assoc., Ames, Iowa. 36 pp.Google Scholar
15.Hallberg, G. R., Libra, R. D., and Hayes, B. E.. 1985. Nonpoint source contamination of ground water in Karst-Carbonate aquifers in Iowa. Proc. Perspectives on Nonpoint Source Pollution Conf., Kansas City, Missouri. Publ. by U.S. Environ. Prot. Agency, EPA 440/5-8-001. pp. 109114.Google Scholar
16.Hergert, G. W. 1977. Irrigation water quality criteria. Coop. Ext. Serv., Univ. of Nebraska, NebGuide G77-328. 4 pp.Google Scholar
17.Institute for Alternative Agriculture. 1984. Alternative Agriculture: An Introduction and Overview. Proc. First Annual Scientific Symposium, Washington, DC. 49 pp.Google Scholar
18.Jackson, G., and Webendorfer, B. (eds.). 1983a. Nitrate, groundwater, and livestock health. Crop Extension Programs, Univ. of Wisconsin, 63217. 4 pp.Google Scholar
19.Jackson, G., and Webendorfer, B. (eds.). 1983b. Pesticides in groundwater: how they get there, what happens to them, how to keep them out. Coop. Ext. Programs, Univ. Wisconsin, G3213. 6 pp.Google Scholar
20.Knudsen, D. 1984. Testing irrigation water. Coop. Ext. Serv., Univ. Nebraska, NebGuide G84-719. 2 pp.Google Scholar
21.Lucas, R., and Warncke, D.. 1985. Managing organic soils to reduce nonpoint pollution. Coop. Ext. Serv., Michigan State Univ., Ext. Bull. WQ03. 4 pp.Google Scholar
22.Magette, W. L. 1984. Agricultural nonpoint source pollution, Maryland Dept. Agr., Bay Fact Sheet 2. 3 pp.Google Scholar
23.Magette, W. L., and Weismiller, R. A.. 1984. Agriculture and the bay. Maryland Dept. Agr. Bay Fact Sheet. 4 pp.Google Scholar
24.Magette, W. L., and Weismiller, R. A., 1985. Nutrient management for water quality protection. Maryland Dept. Agr. Bay Fact Sheet 3. 4 pp.Google Scholar
25.Maryland State Soil Conservation Committee. Undated. Baybook: a guide to reducing water pollution at home. Citizens Program for Chesapeake Bay (6600 York Rd., Baltimore, MD 21212). 32 pp.Google Scholar
26.Meints, V. W., and Vitosh, M. L.. 1986. Nitrogen fertilizer management for efficient crop production and water quality preservation. Coop. Ext. Serv., Michigan State Univ., Ext. Bull. WQ07. 4 pp.Google Scholar
27.Merrill, R. E., Bullock, E. F., and Smith, E. H.. 1983. Farming and water quality: a handbook for the San Joaquin River Basin. U.S. Environ. Protection Agency, Region IX, California. 48 pp.Google Scholar
28.Ordonez, M. T. 1985. Water conservation in the home. Coop. Ext. Serv., Univ. Maryland. Ground Water 2. 4 pp.Google Scholar
29.Papendick, R. I. 1984. Alternative agriculture systems: benefits to soil and water resources. Proc. Alternative Agriculture: An Introduction and Overview. First Ann. Scientific Symposium, Inst. Alt. Agr., Washington, DC. pp. 16.Google Scholar
30.Pitt, D. G. 1986. Land use policy: a key to ground water management. Coop. Ext. Serv., Univ. Maryland, Ground Water 6. 3 pp.Google Scholar
31.Robertson, L. S., and Christenson, D. R.. 1985. Phosphorus: pollutant and essential plant food element. Coop. Ext. Serv., Michigan State Univ., Ext. Bull WQ05. 3 pp.Google Scholar
32.State of Nebraska. 1984. A forum: State water quality regulation. Unpublished. 43 pp.Google Scholar
33.Swader, F., Sweeten, J. M., and Konyha, M. E.. 1985. Extension education: opportunities in groundwater. Proc. Amer. Soc. Agr. Engineers, Winter Meeting, Chicago, Illinois. 10 pp.Google Scholar
34.Taylor, J. W. (ed.). Undated. Groundwater — Wisconsin's buried treasure. Supplement to Wisconsin Natural Resources Magazine. Geol. and Natural History Survey, Univ. Wisconsin. 31 pp.Google Scholar
35.Tschirley, F. 1985. Managing pesticides to avoid surface and groundwater contamination. Coop. Ext. Serv., Michigan State Univ., Ext. Bull WQ04. 2 pp.Google Scholar
36.University of Nebraska. 1984. Nitrogen and irrigation management: Hall County water quality special report. Coop. Ext. Serv., Inst. Agr. Nat. Res., Univ. Neb. 22 pp. plus appendices.Google Scholar
37.Vitosh, M. L. 1985. Nitrogen management strategies for corn producers. Coop. Ext. Serv., Michigan State Univ., Ext. Bull. WQ06. 5 pp.Google Scholar
38.Yonkers, D. H. 1984. Groundwater study guide. Wisconsin Dept. Natural Resources, Publ. 19–8500. 12 pp.Google Scholar
39.Young, K., and Mancl, K.. 1985. Nitrate: its effect on families and livestock. Ext. Serv. Penn. State Univ., Special Circular 308. 7 pp.Google Scholar