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Seed Germination, Seedling Emergence, and Response to Herbicides of Wild Bushbean (Macroptilium lathyroides)

Published online by Cambridge University Press:  20 January 2017

Bhagirath S. Chauhan*
Affiliation:
Crop and Environmental Sciences Division, International Rice Research Institute, Los Baños, Philippines
Ma Jenina De Leon
Affiliation:
Crop and Environmental Sciences Division, International Rice Research Institute, Los Baños, Philippines
*
Corresponding author's E-mail: [email protected]

Abstract

Experiments were conducted in laboratory and screenhouse to determine the effects of light, temperature, salt and water stress, seed burial depth, and amount of rice residue on seed germination and seedling emergence of wild bushbean and to evaluate the response of that weed to commonly available POST herbicides in the Philippines. Germination (81 to 85%) was not influenced by light; however, it was higher at 30/20 C (88%) than at 25/15 C (82%) and 35/25 C (80%) day/night temperatures. The sodium chloride and osmotic potential required for 50% inhibition of maximum germination were 149 mM and −0.28 MPa, respectively. Seedling emergence (81%) was similar for seeds placed on the soil surface and for seeds buried up to 4 cm deep. No seedlings emerged from a burial depth of 8 cm. Rice residue applied on the soil surface up to 8 t ha−1 did not affect seedling emergence (72 to 80%) of wild bushbean. The herbicide bentazon provided 100% control of wild bushbean when applied at the three- to five-leaf stages. However, to achieve 100% control by 2,4-D and metsulfuron-methyl + chlorimuron-ethyl, herbicides had to be applied at the three-leaf stage. The information gained from this study can help in developing components of integrated weed management programs for wild bushbean. A deep-tillage operation to bury weed seeds below their maximum depth of emergence and early application of an effective POST herbicide can help in managing this weed in rice fields.

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

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Footnotes

Current address: Principal Research Fellow, Queensland Alliance for Agriculture and Food Innovation (QAAFI), The University of Queensland, Toowoomba, Queensland, Australia.

References

Literature Cited

Awan, TH, Chauhan, BS, Cruz, PCS (2014) Influence of environmental factors on the germination of Urena lobata L. and its response to herbicides. PLoS ONE. 9 (3):e90305 DOI:10.1371/journal.pone.0090305Google Scholar
Baskin, CC, Baskin, JM (1998) Seeds: Ecology, Biogeography, and Evolution of Dormancy and Germination. San Diego, CA Academic. 666 pGoogle Scholar
Benvenuti, S (2003) Soil texture involvement in germination and emergence of buried weed seeds. Agron J. 95:191198 Google Scholar
Bhowmik, PC (1997) Weed biology: importance to weed management. Weed Sci. 45:349356 Google Scholar
Buhler, DD, Mester, TC, Kohler, KA (1996) The effect of maize residues and tillage on emergence of Setaria faberi, Abutilon theophrasti, Amaranthus retroflexus and Chenopodium album . Weed Res. 36:153165 Google Scholar
Chauhan, BS (2013) Seed germination ecology of feather lovegrass [Eragrostis tenella (L.) Beauv. ex Roemer & J.A. Schultes]. PLoS ONE. 8:e79398 DOI:10.1371/journal.pone.0079398Google Scholar
Chauhan, BS, Abugho, SB (2012a) Effect of growth stage on the efficacy of postemergence herbicides on four weed species of direct-seeded rice. Sci World J. 2012:123071 DOI:10.1100/2012/123071Google Scholar
Chauhan, BS, Abugho, SB (2012b) Threelobe morningglory (Ipomoea triloba) germination and response to herbicides. Weed Sci. 60:199204 Google Scholar
Chauhan, BS, Abugho, SB (2013) Effect of crop residue on seedling emergence and growth of selected weed species in a sprinkler-irrigated zero-till dry-seeded rice system. Weed Sci. 61:403409 Google Scholar
Chauhan, BS, Johnson, DE (2008a) Influence of environmental factors on seed germination and seedling emergence of eclipta (Eclipta prostrata) in a tropical environment. Weed Sci. 56:383388 Google Scholar
Chauhan, BS, Johnson, DE (2008b) Seed germination and seedling emergence of giant sensitiveplant (Mimosa invisa). Weed Sci. 56:244248 Google Scholar
Chauhan, BS, Johnson, DE (2009) Ecological studies on Cyperus difformis, C. iria and Fimbristylis miliacea: three troublesome annual sedge weeds of rice. Ann Appl Biol. 155:103112 Google Scholar
Chauhan, BS, Johnson, DE (2010) The role of seed ecology in improving weed management strategies in the tropics. Adv Agron. 105:221262 Google Scholar
Chauhan, BS, Prabhjyot-Kaur, Mahajan, G, Randhawa, RK, Singh, H, Kang, MS (2014) Global warming and its possible impact on agriculture in India. Adv Agron. 123:65121 Google Scholar
Cotton, CRC (2012) WEEDpak, Weed ID and Information. http://www.cottoncrc.org.au/industry/Publications/Weeds. Accessed March 4, 2014Google Scholar
Crisraudo, A, Gresta, F, Luciani, F, Resticcia, A (2007) Effects of after-harvest period and environmental factors on seed dormancy of Amaranthus species. Weed Res. 47:327334 Google Scholar
Ebrahimi, E, Eslami, SV (2012) Effect of environmental factors on seed germination and seedling emergence of invasive Ceratocarpus arenarius . Weed Res. 52:5059 Google Scholar
Ghorbani, R, Seel, W, Leifert, C (1999) Effects of environmental factors on germination and emergence of Amaranthus retroflexus . Weed Sci. 47:505510 Google Scholar
Lafitte, HR, Ismail, A, Bennett, J (2006) Abiotic stress tolerance in tropical rice: progress and future prospects. Oryza. 43:171186 Google Scholar
Moody, K (1989) Weeds Reported in Rice in South and Southeast Asia. Los Baños, Philippines International Rice Research Institute. 442 pGoogle Scholar
Opeña, J, Chauhan, BS, Baltazar, AM (2014) Seed germination ecology of Echinochloa glabrescens and its implication for management in rice (Oryza sativa L.). PLoS ONE. 9(3):e92261 DOI:10.1371/journal.pone.0092261Google Scholar
Pandey, S, Velasco, L (2005) Trends in crop establishment methods in Asia and research issues. Pages 178181 in Toriyama, K, Heong, KL, Hardy, B, eds. Rice Is Life: Scientific Perspectives for the 21st Century. Los Baños, Philippines International Rice Research Institute; and Tsukuba, Japan: Japan International Research Center for Agricultural Sciences Google Scholar
Singh, S, Singh, M (2004) Effect of growth stage on trifloxysulfuron and glyphosate efficacy in twelve weed species of citrus groves. Weed Technol. 18:10311036 Google Scholar
Smith, CA, Shaw, DR, Newsom, LJ (1992) Arrowleaf sida (Sida rhombifolia) and prickly sida (Sida spinosa): germination and emergence. Weed Res. 32:103109 Google Scholar
Teasdale, JR, Beste, CE, Potts, WE (1991) Response of weeds to tillage and cover crop residue. Weed Sci. 39:195199 Google Scholar
Teasdale, JR, Mohler, CL (1993) Light transmittance, soil temperature, and soil moisture under residue of hairy vetch and rye. Agron J. 85:673680 Google Scholar
Thompson, S (1988) Range expansion by alien weeds in the coastal farmlands of Guyana. J Biogeogr. 15:109118 Google Scholar
Tuong, TP, Bouman, BAM, Mortimer, AM (2003) Rice production in water-scarce environments. Pages 5367 in Kijne, JW, Baker, R, Molden, D, eds. Water Productivity in Agriculture: Limits and Opportunities for Improvements. Wallingford, U.K. CABI Google Scholar