Hostname: page-component-78c5997874-dh8gc Total loading time: 0 Render date: 2024-11-20T00:20:41.095Z Has data issue: false hasContentIssue false

Factors Affecting Seed Germination of Cadillo (Urena lobata)

Published online by Cambridge University Press:  20 January 2017

Jingjing Wang
Affiliation:
Department of Agronomy, University of Florida, Gainesville, FL 32611
Jason Ferrell*
Affiliation:
Department of Agronomy, University of Florida, Gainesville, FL 32611
Gregory MacDonald
Affiliation:
Department of Agronomy, University of Florida, Gainesville, FL 32611
Brent Sellers
Affiliation:
Department of Agronomy, Range Cattle REC, University of Florida, Ona, FL 33865
*
Corresponding author's E-mail: [email protected]

Abstract

Cadillo is an invasive species commonly found in pastures, rangelands, and disturbed areas. It is becoming a significant problem weed in Florida pastures and natural areas. The objectives of this research were to determine effective techniques to break seed dormancy and the effect of light, temperature, pH, water stress, and depth of seed burial on Cadillo germination. Cadillo seeds had significant levels of innate dormancy imposed by a hard seed coat; chemical scarification was the most effective technique for removing dormancy. Seeds germinated from 15 to 40 C, with an optimal temperature of 28 C. Germination was unaffected by pH levels. Water stress below −0.2 MPa reduced seed germination. Cadillo germination was not light-dependent and seeds emerged from depths up to 9 cm, with the greatest occurring emergence near the soil surface. Considering that Cadillo seed can germinate under a wide range of environmental conditions, it is not surprising that it has become a serious invasive weed in Florida.

Type
Weed Biology and Ecology
Copyright
Copyright © Weed Science Society of America 

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

Literature Cited

Adjei, M. B. and Rechcigl, J. E. 2004. Interactive effect of lime and nitrogen on bahiagrass pasture. Soil Crop Sci. Soc. Florida Proc. 63:5256.Google Scholar
Baskin, C. C. and Baskin, J. M. 1998. Seeds: Ecology, Biogeography and Evolution of Dormancy and Germination. San Diego, CA Academic Press. 666 p.Google Scholar
Benvenuti, S. and Macchia, M. 1995. Effects of hypoxia on buried weed seeds germination. Weed Res. 35:343351.CrossRefGoogle Scholar
Benvenuti, S. and Macchia, M. 1997. Phytochrome-meditated germination of Datura stramonium L. seeds after seed burial. Weed Res. 38:199205.Google Scholar
Bewley, J. D. and Black, M. 1994. Seeds: Physiology of Development and Germination. Second ed. New York Plenum Publishing. 445 p.CrossRefGoogle Scholar
Bradford, K. J. 1990. A water relations analysis of seed germination rates. Plant Physiol. 94:840849.Google Scholar
Crocker, W. 1906. Role of seed coats in delayed germination. Bot. Gaz. 44:375380.CrossRefGoogle Scholar
Evans, C. E. and Eitherington, J. R. 1990. The effect of soil water potential on seed germination of some British plants. New Phytol. 115:539548.CrossRefGoogle ScholarPubMed
Fagundes, M. H. 2003. Sementes de Juta e Malva: Algumas Observacoes. Brazil Companhia Nacional de Abastecimento. http://www.conab.gov/br/politica_agricola/Conjunturasemnal/Especiais/SEMENTES20JUTAMALVA.doc. Accessed: November 12, 2007.Google Scholar
Ferrell, J. A., Mullahey, J. J., Langeland, K. A., and Kline, W. N. 2006. Control of tropical soda apple (Solanum viarum) with aminopyralid. Weed Technol. 20:453457.Google Scholar
FLERPC 2007. Florida Exotic Pest Plant Council's 2007 list of invasive plant species. Wildland Weeds. 10:1316.Google Scholar
Foley, M. E. 2001. Seed dormancy: an update on terminology, physiological genetics, and quantitative trait loci regulating germinability. Weed Sci. 49:305317.Google Scholar
Forest Research Institute of Malaysia 2003. Plant Information: Urena lobata Griff., pulut-pulut, Malvaceae. Forest Research Institue of Malaysia, Kuala Lumpur, Malaysia. http://www.frim.gov.my/tu/Urena.htm. Accessed: November 12, 2007.Google Scholar
Francis, J. K. 2003. Urena lobata L. Malvaceae. US Department of Agriculture, Forest Service, International Institute of Tropical Forestry, Jardin Botanico Sur, 1201 Calle Ceiba, San Juan PR 00926-1119, in cooperation with the University of Puerto Rico, Rio Piedras, PR 00936-4984. http://www.fs.fed.us/global/iitf/pdf/shrubs/Urena20lobata.pdf. Accessed: November 12, 2007.Google Scholar
Freedman, R. 1998. Famine Foods: Malvaceae. Purdue University, Purdue, IN. http://www.hort.purdue.edu/newcrop/faminefoods/ff_families/MALVACEAE.html. Accessed: November 12, 2007.Google Scholar
Fryxell, P. A. 2001. Malvaceae Juss. Pages 12931322. in Stevens, W. D., Ulloa-U, C., Pool, A., and Montiel, O. M. Flora de Nicaragua. Monographs in Systemic Botany 85 (2). St. Louis, MO Missouri Botanical Garden.Google Scholar
Harris, P. J. C. 1981a. Seed viability, dormancy, and field emergence of Urena lobata L. in Sierra Leone. Trop. Agric. 58:205213.Google Scholar
Harris, P. J. C. 1981b. Value of laboratory germination and viability tests in predicting field emergence of Urena lobata L. Field Crop Res. 4:237245.Google Scholar
Harris, P. J. C. 1985. Seed production of Urena lobata in Sierra Leone: effect of harvest date on yield. Trop. Agric. 62:229232.Google Scholar
Harris, P. J. C. and Brewah, Y. 1986. Seed production of Urena lobata in Sierra Leone: effect of sowing data. Trop. Agric. 63:3032.Google Scholar
Kirby, R. H. 1963. Vegetable Fibres: Botany, Cultivation and Utilization. London Leonard Hill. 464 p.Google Scholar
Lusher, W. R. 2007. University of Florida, Gainesville, 32611. http://fawn.ifas.ufl.edu/. Accessed: November 12, 2007.Google Scholar
MacDonald, G. E., Brecke, B. J., and Shilling, D. G. 1992. Factors affecting germination of dogfennel (Euparotium capillifolium) and yankeeweed (Eupatorium compositifolium). Weed Sci. 40:424428.Google Scholar
Mann, R. K., Rieck, C. E., and Witt, W. W. 1981. Germination and emergence of burcucumber (Sicyos angulatus). Weed Sci. 29:8386.Google Scholar
Moore, R. P. 1985. ed Handbook on Tetrazolium Testing. Zurich, Switzerland International Seed Testing Association. 99 p.Google Scholar
Smith, C. A., Shaw, D. R., and Newsom, L. J. 1992. Arrow leaf sida (Sida rhombifolia) and prickly sida (Sida spinosa): germination and emergence. Weed Res. 32:103109.Google Scholar
Susko, D. J., Mueller, J. P., and Spears, J. F. 1999. Influence of environmental factors on germination and emergence of Pueraria lobata . Weed Sci. 47:585588.Google Scholar
[USDA] United States Department of Agriculture Natural Resources Conservation Service 2007. Plant Profile for Urena lobata L. Casearweed. http://plants.usda.gov/java/profilesymbolURLO. Accessed: August 12, 2008.Google Scholar
Teuton, T. C., Brecke, B. J., Unruh, J. B., MacDonald, G. E., Miller, G. L., and Ducar, J. T. 2004. Factors affecting seed germination of tropical signalgrass (Urochloa subquadripara). Weed Sci. 52:376381.CrossRefGoogle Scholar
Watanabe, H., Kusagaya, Y., and Saigusa, M. 2002. Environmental factors affecting germination of apple of Peru. Weed Sci. 50:152156.Google Scholar
Woolley, J. T. and Stoller, F. W. 1978. Light penetration and light-induced seed germination in soil. Plant Physiol. 61:597600.Google Scholar