PD/A CRSP Data Analysis and Synthesis Team Publications

Oregon State University

Publications and Reports

Lannan, J.E., 1990. Farming and ranching an aquatic system. Food Reviews International, 6:293-298.

Lannan, J.E., G.A.E. Gall, J.E. Thorpe, C.E. Nash, and B.A. Ballachey, 1989. Genetic resource management of fish. Genome, 31:798-804.

Presentations

Bolte, J.P., S.S. Nath, P. Darakjian, and J.M. Kapetsky. Regional-scale analysis of aquaculture development potential. Poster presentation to the World Aquaculture Society Meeting at Bangkok, Thailand, February 1996.

Ernst, D.H. Computer tools for aquaculture management and design. Lecture presented to the Western Regional Aquaculture Expo at Sacramento, California, 1996.

Nath, S.S., J.P. Bolte, and D.H. Ernst. Decision support for pond aquaculture planning and management. Proceedings of Sustainable Aquaculture '95 at Honolulu, Hawaii, 11-14 June 1995.

Nath, S.S., J.P. Bolte, and D.H. Ernst. Simulation models and economic optimization techniques for pond aquaculture. Poster presentation to the World Aquaculture Society Meeting at Bangkok, Thailand, February 1996.

University of California, Davis

Theses

Culberson, S.D., 1993. Simplified model for prediction of temperature and dissolved oxygen in aquaculture ponds using reduced data inputs [M.S. Thesis]. Davis, California: University of California.

Giovannini, P., 1994. Water quality dynamics in aquaculture ponds: an investigation of photosynthetic production and efficiency variations [Ph.D. Dissertation]. Davis, California: University of California.

Publications and Reports

Culberson, S.D., and R.H. Piedrahita, 1993. Model for predicting dissolved oxygen levels in stratified ponds using reduced data inputs. In: Jaw-Kai Wang, (Editor). Techniques for Modern Aquaculture, American Society of Agricultural Engineers. Proceedings of an Aquacultural Engineering
Conference at Spokane, Washington, 21-23 June 1993, pp. 543-552.

Culberson, S.D., and R.H. Piedrahita, 1996. Aquaculture Pond Ecosystem Model: temperature and dissolved oxygen prediction, mechanism and application. Ecological Modelling, 89:231-258.

Eikebrokk, B., R.H. Piedrahita, and Y. Ulgenes, 1995. Rates of fish waste production and effluent discharge from a recirculating system (Biofish) under commercial conditions. Aquaculture Research, 26:589-599.

Fridley, R.B., R.H. Piedrahita, and T.M. Losordo, 1988. Challenges in aquacultural engineering. Agricultural Engineering, 69(4):12-15.

Giovannini, P., 1995. Aquaculture pond ecosystem model: temperature and dissolved oxygen prediction - mechanism and application. Ecological Modelling. In press.

Giovannini, P., and R.H. Piedrahita, 1988. Analysis and modeling of dissolved oxygen in warm water aquaculture ponds. American Society of Agricultural Engineers Paper Number 88-5004.

Giovannini, P., and R.H. Piedrahita, 1989. Analysis and modeling of diel pond dynamics. American Society of Agricultural Engineers Paper Number 89-7556.

Giovannini, P., and R.H. Piedrahita, 1990. Measuring primary production efficiency in aquacultural ponds. American Society of Agricultural Engineers Paper Number 90-7034.

Giovannini, P., and R.H. Piedrahita, 1991. Engineering of non-fed pond systems. Proceedings of WAS/ASAE sessions at World Aquaculture Society Meeting at San Juan, Puerto Rico, 16-20 June 1991: American Society of Agricultural Engineers, Saint Joseph, Michigan.

Giovannini, P., and R.H. Piedrahita, 1992. Modeling diel phytoplankton light sensitivity changes in aquaculture ponds. In review.

Giovannini, P., and R.H. Piedrahita, 1994. Modeling photosynthetic production optimization for aquaculture ponds. Aquacultural Engineering, 13:83-100.

Grace, G., and R. H. Piedrahita, 1989. Carbon dioxide removal in packed column aerators. American Society of Agricultural Engineers Paper number 89-7556.

Grace, G., and R.H. Piedrahita, 1994. Carbon dioxide control. In: M. Timmons and T.M. Losordo (Editors), Engineering Design and Management of Aquaculture Water Reuse Systems. Elsevier, Amsterdam, pp. 209-234.

Grace, G., and R.H. Piedrahita, June 1993. Carbon dioxide control with a packed column aerator. Proceedings of American Society of Agricultural Engineers, Techniques for Modern Aquaculture, at Spokane, Washington, 21-23 June, 1993, pp. 496-505.

Losordo, T.M., and R.H. Piedrahita, 1990. Modelling temperature variation and thermal stratification in shallow aquaculture ponds. Ecological Modeling, 54:189-226.

Lu, Z., and R.H. Piedrahita, June 1993. Nitrifying characteristics of a high rate packed column. In: Techniques in Modern Aquaculture, Proceedings of American Society of Agricultural Engineers, pp. 345-351.

Piedrahita, R.H., 1989. Simulation of short-term management actions to prevent oxygen depletion in ponds. American Society of Agricultural Engineers Paper Number 89-7555.

Piedrahita, R.H., 1990. Aquaculture: Engineering and construction. In: Y.H. Hui (Editor), Wiley Encyclopedia of Food Science and Technology, Wiley and Sons, New York, pp. 117-126.

Piedrahita, R.H., 1990. Calibration and validation of TAP, an aquaculture pond water quality model. Aquacultural Engineering, 9:75-96.

Piedrahita, R.H., 1990. Detritus based aquaculture systems. Food Reviews International, 6(3):317-331.

Piedrahita, R.H., 1991. Engineering aspects of warmwater hatchery design. Proceedings of WAS/ASAE sessions at World Aquaculture Society Meeting at San Juan, Puerto Rico. American Society of Agricultural Engineers, Saint Joseph, Michigan, pp. 85-100.

Piedrahita, R.H., 1991. Modeling water quality in aquaculture ecosystems. In: D.E. Brune and J.R. Tomasso (Editors), Aquaculture and Water Quality. World Aquaculture Society, Baton Rouge, Louisiana, pp. 322-362.

Piedrahita, R.H., 1991. Simulation of short-term management actions to prevent oxygen depletion in ponds. Journal of the World Aquaculture Society, 22(3):157-166.

Piedrahita, R.H., and A. Seland, 1995. Calculation of pH in fresh and sea water aquaculture systems. Aquaculture Engineering, 14:331-346.

Piedrahita, R.H., and D.E. Brune, 1989. Aquacultural engineering: Aquatic habitat commands innovative thrusts. Agricultural Engineering, 70(1):30-32.

Piedrahita, R.H., and J.K. Wang, 1988. Engineering in aquaculture, an overview. Proceedings of the Joint U.S. India International Symposium on Aquaculture Research Needs for the Year 2000 at New Delhi, India.

Piedrahita, R.H., and J.M. Ebeling, 1993. Automated data acquisition and control in aquaculture ponds. American Fisheries Society. In press.

Piedrahita, R.H., and P. Giovannini, 1991. Fertilized non-fed pond systems. Aquaculture Systems Engineering. Proceedings of the World Aquaculture Society of the American Society of Agricultural Engineers, World Aquaculture Society Meeting, 16-20 June 1991 at San Juan, Puerto Rico: ASAE Publication 02-91, pp. 1-14.

Piedrahita, R.H., Z. Lu, and D. Jamu, 1996. Dissolved oxygen modeling in tropical aquaculture ponds under the Pond Dynamics/Aquaculture Collaborative Research Support Program. Presented at the World Aquaculture Society Meeting, Bangkok, Thailand.

Presentations

Batterson, T., and R.H. Piedrahita, 1994. Current trends, interests and concerns related to aquacultural wastes and their treatment in the United States. Proceedings of the European Inland Fisheries Advisory Commission (EIFAC)/Food and Agriculture Organization (FAO) Workshop on Economics of Waste Water Management at Stirling, Scotland, June 1994.

Brune, D.E., C.M. Drcho, and R.H. Piedrahita, Pond oxygen dynamics: design and management strategies. Presented to the Aquaculture Meeting at Orlando, Florida, May 1992: Paper No. AQUA-92-101, American Society of Agricultural Engineers.

Culberson, S.D., and R.H. Piedrahita, 1992. Modification of stratified temperature model to accommodate reduced data inputs: Identifying critical requirements. Presented to Aquaculture '92 International Conference, 21-25 May 1992 at Orlando, Florida: Paper No. AQUA-92-102.

Piedrahita, R.H. Managing environmental impacts in aquaculture. Presented at the United States-Japan Natural Resources (UJRN) Aquaculture Panel at Kyoto, Japan, November 1992.

Piedrahita, R.H., and G. Grace, Removal of carbon dioxide and intensive aquaculture systems. Presented to the World Aquaculture Society Meeting at Halifax, Nova Scotia, June 1990.

Piedrahita, R.H., and G. Grace,, Carbon dioxide removal for intensive aquaculture. Paper presented to the Workshop on Recirculating Aquaculture Systems at Baton Rouge, Louisiana, September 1991.

Szyper, J.P., R.H. Piedrahita and P. Giovannini, Requirements for maximizing bloom stability and net oxygen production in earthen ponds. Poster paper presented to World Aquaculture Society Meeting at Torremolinos, Spain, May 1993.

Whitman, M. H. and R. H. Piedrahita, 1989. Water quality requirements of Pacific oysters (Crassostrea gigas) in holding systems. Presented to the World Aquaculture Society Meeting at Los Angeles, February 1989, 12 pp.

University of Hawaii

Publications and Reports

Szyper, J.P., L.Z. Rosenfeld, R.H. Piedrahita, and P. Giovannini, 1992. Diel cycles of planktonic respiration rates in briefly-incubated water samples from a fertile earthen pond. Limnology and Oceanography, 37(6):1193-1201.

Presentations

Szyper, J.P., R.H. Piedrahita and P. Giovannini, Requirements for maximizing bloom stability and net oxygen production in earthen ponds. Poster paper presented to the World Aquaculture Society Meeting at Torremolinos, Spain, May 1993.

University of Michigan

Publications and Reports

Chang, W., and H. Ouyang, 1988. Dynamics of dissolved oxygen and vertical circulation in fish ponds. Aquaculture, 74:263-276.

Chang, William, 1989. Estimates of hypolimnetic oxygen deficits in ponds. Aquaculture and Fisheries Management, 20:163:172.

Chang, William, 1989. Integrated lake farming to manage fish and environment in the large shallow lakes in China. Aquaculture and Fisheries Management, 20:441-452.

Springborn, R. R., A. L. Jensen, and W.Y.B. Chang, A multivariate approach for examining Tilapia nilotica growth in aquaculture experiment using Von Bertalanffy's growth solution (submitted).

Springborn, R. R., A. L. Jensen, and W.Y.B. Chang. Application of the initial value solution of Von Bertalanffy's solution to Tilapia nilotica growth in aquaculture experiment. Aquaculture (submitted).

Springborn, R.R., A.L. Jensen, and W.Y.B. Chang, 1994. A variable growth rate modification of Von Bertalanffy's equation for aquaculture. Aquaculture and Fisheries Management, 25:259-267.

Springborn, R.R., A.L. Jensen, W.Y.B. Chang, and C. Engle, 1992. Optimum harvest time in aquaculture: An application of economic principles to a Nile tilapia, Oreochromis niloticus (L.), growth model. Aquaculture and Fisheries Management, 23:639-647.