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Composting Invasive Plants in the Rio Grande River

Published online by Cambridge University Press:  20 January 2017

Erica J. Meier
Affiliation:
Department of Agriculture, Texas State University, 601 University Drive, San Marcos, TX 78666
Tina M. Waliczek*
Affiliation:
Department of Agriculture, Texas State University, 601 University Drive, San Marcos, TX 78666
Michael L. Abbott
Affiliation:
The Meadows Center for Water and the Environment (formerly Texas River Systems Institute), Texas State University, 601 University Drive, San Marcos, TX 78666
*
Corresponding author's E-mail: [email protected]

Abstract

The purpose of this study was to determine the effect of whole-plant composting on the viability of seeds and other propagules of the invasive plant species waterhyacinth, waterlettuce, hydrilla, and giant reed while producing a valuable compost product. Invasive species were subjected to preliminary germination and growth tests and oven mortality tests to evaluate whether species distribution was via seeds, vegetative propagules, or both, as well as whether the composting process had the potential, through the high temperatures obtained, to kill seeds and other propagules. Germination and growth tests determined the means by which invasive species spread. Oven tests determined the temperatures at which unscarified and scarified seeds and propagules were rendered inviable. Achieving temperatures of at least 57.2 C was necessary within constructed compost piles to effectively kill the plants without the danger of redistribution. In the field, the study successfully developed a large-scale composting operation using invasive plant species as the primary feedstock. Analysis of field-scale composting showed final materials were within satisfactory to ideal levels for samples analyzed by the U.S. Compost Council's Seal of Testing Assurance Program and were, therefore, a valuable compost product.

Type
Research Article
Copyright
Copyright © Weed Science Society of America 

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References

Literature Cited

Barrett, SCH (1980) Sexual reproduction in Eichhornia crassipes (water hyacinth), II: seed production in natural populations. J Appl Ecol 17:101124 10.2307/2402966Google Scholar
Bryant, CB (1970) Aquatic weed harvesting: effects and costs. Hyacinth Control J 3739 Google Scholar
Chadwick, MJ, Obeid, M (1966) A comparative study of the growth of Eichhornia crassipes Solms. and Pistia stratiotes L. in water-culture. J Appl Ecol 54:563575 Google Scholar
Chilton, EW II, Durocher, PP (2009) Aquatic Vegetation Management in Texas: A Guidance Document. Austin, TX Department Inland Fisheries, Texas Parks and Wildlife Google Scholar
Cornwall, DA, Zoltek, , Patrinely, CD, Furman, T, IKim, J (1977) Nutrient removal by water hyacinths. J Water Pollut Control Fed 49:5765 Google Scholar
Dougherty, M (1999) Field guide to on-farm composting. Ithaca, NY Natural Resources Cooperative Extension, Agriculture, and Engineering Service NRAES114Google Scholar
Dray, FA Jr, Center, TD (1992) Biological control of Pistia stratiotes L. (waterlettuce) using Neohydronomus affinis Hustache (Coleoptera: Curculionidae). Vicksburg, MS U.S. Army Engineer Waterways Experiment Station Technical Rep. A-92-1Google Scholar
Everitt, JH, Yang, C, Alaniz, MA, Davis, MR, Nibling, FL, Deloach, CJ (2004) Canopy spectra of giant reed and associated vegetation. J of Range Manage 57:561569 Google Scholar
Faucette, B (2003) Impasse, evolution, or explosion? BioCycle 44:62 Google Scholar
Glenn, J, Goldstein, N (1999) Food residuals composting in the U.S. BioCycle 40:3036 Google Scholar
Hall, JB, Okali, DUU (1974) Phenology and productivity of Pistia stratiotes (L.) on the Volta Lake, Ghana. J Appl Ecol 11:709725 Google Scholar
Hodge, L (2004) Exotic aquatics… manna from heaven or weeds from hell? in Texas Fish and Game Magazine. Austin, TX Texas Parks and Wildlife Department. http://www.tpwd.state.tx.us/fishboat/fish/didyouknow/inland/exotic_aquatics.phtml. Accessed October 13, 2009Google Scholar
Hodge, L (2010) Texas under attack: invasive species are marching on Texas—but beneficial bugs are bracing for battle. in Texas Parks and Wildlife Magazine. Austin, TX Texas Parks and Wildlife Department Google Scholar
[IBWC] International Boundary and Water Commission (2008) Its mission, organization, and procedures for solution of boundary and water problems. El Paso, TX International Boundary and Water Commission. http://www.ibwc.state.gov/About_Us/About_Us.html. Accessed September 18, 2009Google Scholar
Jewell, WJ (1971) Aquatic weed decay: dissolved oxygen utilization and nitrogen and phosphorus regeneration. J Water Pollut Control Fed 43:14571467 Google Scholar
Khudamrongsawat, J, Tayyar, R, Holt, S (2004) Genetic diversity of giant reed (Arundo donax) in the Santa Ana River, California. Weed Sci 52:395405 10.1614/WS-03-120R1Google Scholar
Lal, C, Gopal, B (1993) Production and germination of seeds in Hydrilla verticillata . Aquat Bot 45:257261 Google Scholar
Masser, MP (2007) Impacts of invasive aquatic plants. Southwest Hydrol 6:2223, 33Google Scholar
McWilliams, J (2004) Arundo donax. Fire effects information system. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory. http://www.fs.fed.us/database/feis/plants/graminoid/arudon/all.html#FIRE. Accessed September 21, 2010Google Scholar
Moran, P (2010) Opportunity to Cooperate on Water Hyacinth Composting Project. Weslaco, TX Research Entomologist, Beneficial Insects Research Unit, U.S. Department of Agriculture-Agricultural Research Service. Available by request: Google Scholar
Montoya, JE, Waliczek, TM, Abbott, ML (2013) Large scale composting as a means of managing water hyacinth (Eichhornia crassipes). Invasive Plant Sci Manage 6:243249 Google Scholar
Mulcahy, DL (1975) The reproductive biology of Eichhornia crassipes (Pontederiaceae). Bull Torrey Bot Club 102:1821 Google Scholar
Netherland, M (1997) Turion ecology of hydrilla. J Aquat Plant Manage 35:110 Google Scholar
Owens, CS, Grodowitz, MJ, Nibling, F (2005) A Survey of the Invasive Aquatic and Riparian Plants of the lower Rio Grande. Vicksburg, MS Aquatic Plant Control Research Program, U.S. Army Corps of Engineers: Engineer Research and Development Center ERDC/EL TR 05–6. 117 pGoogle Scholar
Patil, VN, Dadlani, MV (2009) Tetrazolium test for seed viability and vigour. Pages 209241 in McDonald, MB, Kwon, FY, eds. Flower Seeds: Biology and Technology Handbook. Oxfordshire, UK. CABI Google Scholar
[PDEP] Pennsylvania Department of Environmental Protection (2010) How to Make Compost. http://www.dep.state.pa.us. Accessed: February 26, 2010Google Scholar
[PSU] Pennsylvania State University (2002) Compost Analysis: Sampling and Mailing Procedure. University Park, PA Agricultural Analytical Services Laboratory, Pennsylvania State University Google Scholar
Rogers, AR (1983) Composted Waterhyacinth as a Container Amendment. Unpublished thesis. Davis, CA University of California, Davis. 158 p.Google Scholar
Rynk, R, Van de Kamp, M, Wilson, GB, Singley, ME, Richard, TL, Kolega, JJ, Gouin, FR, Laliberty, L Jr, Kay, D, Murphy, DW, Hoitink, HAJ, Brinton, WF (1992) On-Farm Composting Handbook. Ithaca, NY Natural Resources, Agriculture, and Engineering Service NRAES Cooperative Extension Google Scholar
Stoffella, PJ, Kahn, BA (2001) Compost Utilization in Horticultural Cropping Systems. Boca Raton, FL CRC Google Scholar
[TIPPC] Texas Invasive Plant and Pest Council (2010) Invasives Database. http://www.TexasInvasives.org. Accessed: February 15, 2011Google Scholar
[USCC] U.S. Composting Council (2002) TMECC: Test Methods for the Examination of Composting and Compost [CD only]. Thompson, WH, Leege, PB, Millner, PD, Watson, ME, eds. Holbrook, NY U.S. Composting Council and U.S. Department of Agriculture Google Scholar
[USCC] U.S. Composting Council (2010) Compost and Its Benefits. http://www.compostingcouncil.org. Accessed: February 26, 2010Google Scholar
U.S. Congress (2006) Federal Noxious Weed Act of 1974. Pub. L. No. 93-629, 88 Stat. 2148 (Jan. 3, 1975). 7 U.S.C. 61 §2801–2814 pGoogle Scholar
Urdang, L, Flexner, SB (1984) The Random House Dictionary of the English Language. Unabridged edn. New York Random House Google Scholar
Vigness, DM, Odintz, M (2009) Rio Grande Valley, Handbook of Texas Online. Texas State Historical Association. http://www.tshaonline.org/handbook/online/article/rr1.html. Accessed November 23, 2009Google Scholar
Walker, P, Williams, D, Waliczek, TM (2006) An analysis of the horticulture industry as a potential value-added market for compost. Compost Sci Util 14:2331 Google Scholar
Weise, AF, Sweeten, JM, Bean, BW, Salisbury, CD, Chenault, EW (1998) High temperature composting of cattle feedlot manure kills weed seed. Appl Eng Agric 14:377380 Google Scholar
Weldon, LW, Blackburn, RD (1967) Water lettuce: nature, problem, and control. Weed Sci 15:59 10.2307/4041054Google Scholar
Wijte, AHBM, Mizutani, T, Motamed, ER, Merryfield, M, Miller, DE, Alexander, DE (2005) Temperature and endogenous factors cause seasonal patterns in rooting by stem fragments of the invasive giant reed, Arundo donax (Poaceae). Int J Plant Sci 166:507517 Google Scholar