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Rolled Winter Rye–Hairy Vetch Cover Crops for Weed Control in No-till Pumpkin

Published online by Cambridge University Press:  22 April 2018

David Miville  and
Gilles D. Leroux
David Miville*
Affiliation:
Graduate Student, Département de Phytologie, Université Laval, Québec, QC, Canada
Gilles D. Leroux
Affiliation:
Professor, Département de Phytologie, Université Laval, Québec, QC, Canada
*
Author for correspondence: David Miville, Département de Phytologie, Université Laval, Québec, QC, Canada, G1V 0A6. (E-mail: [email protected])
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Abstract

Weed control is a challenging aspect of pumpkin production. Winter rye mulches may offer growers a means to manage weeds in pumpkin; however, rye degradation leads to an immobilization of soil nitrogen. Combining winter rye with a nitrogen fixing legume such as hairy vetch is an interesting option that may solve this problem. Twelve combinations including three hairy vetch seeding rates, two termination dates and the use or not of glyphosate before rolling cover crops were studied during the 2013 and 2014 growing seasons at the Laval University Agronomic Station in Saint-Augustin-de-Desmaures, Quebec, Canada to evaluate weed control and effects on pumpkin production. Adding hairy vetch to winter rye provided no benefits because of severe winterkill of the legume. Using glyphosate was necessary to prevent rye regrowth. Pumpkin growth was better and yields were higher than in the plots were no glyphosate was used. Mulches established at flowering (Zadoks 69) provided about 2,000 kg ha−1 more aboveground dry biomass than at early heading (Zadoks 51). This high biomass was essential in glyphosate treated plots in order to maintain excellent weed control throughout the growing season. When compared with the no-mulch weed-free control, yield in Zadoks 69+glyphosate treatment was lower in 2013 but comparable in 2014.

Keywords

Darren Robinson, University of GuelphGlyphosatewinter rye, Secale cereale L.hairy vetch, Vicia villosa Rothpumpkin, Cucurbita pepo L.Cold weathercucurbitsdirect seedingintegrated weed managementmulchroller-crimpertermination timing
Type
Weed Management-Other Crops/Areas
Information
Weed Technology , Volume 32 , Issue 3 , June 2018 , pp. 251 - 259
Copyright
© Weed Science Society of America, 2018 

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References

Barnes, JP, Putnam, AR (1987) Role of benzoxazinones in allelopathy by rye (Secale cereale L.). J Chem Ecol 13:889906 Google Scholar
Bodnar, J, Fitts, M (2000) Culture de la Citrouille et de la Courge. http://www.omafra.gov.on.ca/french/crops/facts/00-032.htm. Accessed: January 24, 2017Google Scholar
Carr, PM, Horsley, RD, Gunderson, JJ, Winch, TJ, Martin, GB (2013) Weed growth and crop performance following hairy vetch, rye, and wheat cover crops in a cool semiarid region. Org Agric 3:149161 Google Scholar
Clark, AJ, Decker, AM, Meisinger, JJ (1994) Seeding rate and kill date effects on hairy vetch-cereal rye cover crop mixtures for corn production. Agron J 86:10651070 Google Scholar
Clark, AJ, Decker, AM, Meisinger, JJ, McIntosh, MS (1997) Kill date of vetch, rye, and a vetch-rye mixture: I. Cover crop and corn nitrogen. Agron J 89:427434 Google Scholar
Creamer, NG, Dabney, SM (2002) Killing cover crops mechanically: Review of recent literature and assessment of new research results. Am J Altern Agric 17:3240 Google Scholar
Duiker, SW, Curran, WS (2005) Rye cover crop management for corn production in the northern mid-atlantic region. Agron J 97:14131418 Google Scholar
Forcella, F, Eklund, J, Peterson, D (2015) Rolled–crimped winter rye cover effects on hand-weeding times and fruit yield and quality of cucurbits. Int J Veg Sci 21:386396 Google Scholar
Hayes, A, Verhallen, A, Taylor, T (2005) Cultures Couvre-sol: Le Seigle. http://www.omafra.gov.on.ca/french/crops/facts/cover_crops01/rye.htm. Accessed: January 24, 2017Google Scholar
Kemble, JM, Sikora, EJ, Zehnder, GW, Bauske, E (2000) Guide to Commercial Pumpkin and Winter Squash Production. Auburn, AL: Alabama Cooperative Extension System. http://www.aces.edu/pubs/docs/A/ANR-1041/ANR-1041.pdf. Accessed: January 24, 2017Google Scholar
Kuo, S, Jellum, EJ (2002) Influence of winter cover crop and residue management on soil nitrogen availability and corn. Agron J 94:501508 Google Scholar
La France, D (2010) La Culture Biologique des Légumes. 2nd edn. Austin, QC: Éditions Berger A.C. Inc. 525 pGoogle Scholar
McClurg, CA, Reiners, S, Riggs, DIM, Rouse, R (2003) Cultural practices. Pages 2842 in Riggs DIM, ed. Pumpkin Production Guide. NRAES-123. Ithaca, NY: Natural Resource, Agriculture, and Engineering Service Google Scholar
Mirsky, SB, Curran, WS, Mortensen, DA, Ryan, MR, Shumway, DL (2009) Control of cereal rye with a roller/crimper as influenced by cover crop phenology. Agron J 101:15891596 Google Scholar
Mirsky, SB, Curran, WS, Mortenseny, DM, Ryany, MR, Shumway, DL (2011) Timing of cover-crop management effects on weed suppression in no-till planted soybean using a roller-crimper. Weed Sci 59:380389 Google Scholar
Mischler, R, Duiker, SW, Curran, WS, Wilson, D (2010a) Hairy vetch management for no-till organic corn production. Agron J 102:355362 Google Scholar
Mischler, RA, Curran, WS, Duiker, SW, Hyde, JA (2010b) Use of a rolled-rye cover crop for weed suppression in no-till soybeans. Weed Technol 24:253261 Google Scholar
Pellerin, A (2010) Chapitre 12: Les grilles de référence. Pages 359471 in Parent LE, Gagné G, eds. Guide de Référence en Fertilisation 2e édition. Québec, Canada: Centre de Référence en Agriculture et Agroalimentaire du Québec Google Scholar
Poffenbarger, HJ, Mirsky, SB, Weil, RR, Maul, JE, Kramer, M, Spargo, JT, Cavigelli, MA (2015) Biomass and nitrogen content of hairy vetch–cereal rye cover crop mixtures as influenced by species proportions. Agron J 107:20692082 Google Scholar
Riggs, DIM (2003) Weed management. Pages 4851 in Riggs DIM, ed. Pumpkin Production Guide. NRAES-123. Ithaca, NY: Natural Resource, Agriculture, and Engineering Service Google Scholar
Robert, L (2017) Le Seigle d’Automne: Culture de Couverture, Fourragère, Plante-abri et Céréalière. http://www.mapaq.gouv.qc.ca/fr/Regions/monteregie/articles/production/Pages/Seigle_automne.aspx. Accessed: August 11, 2017Google Scholar
Rosecrance, RC, McCarty, GW, Shelton, DR, Teasdale, JR (2000) Denitrification and N mineralization from hairy vetch (Vicia villosa Roth) and rye (Secale cereale L.) cover crop monoculture and bicultures. Plant Soil 227:283290 Google Scholar
Ryan, MR, Curran, WS, Grantham, AM, Hunsberger, LK, Mirsky, SB, Mortensen, DA, Nord, EA, Wilson, DO (2011a) Effects of seeding rate and poultry litter on weed suppression from a rolled cereal rye cover crop. Weed Sci 59:438444 Google Scholar
Ryan, MR, Mirsky, SB, Mortensen, DA, Teasdale, JR, Curran, WS (2011b) Potential synergistic effects of cereal rye biomass and soybean planting density on weed suppression. Weed Sci 59:238246 CrossRefGoogle Scholar
Sarrantonio, M (1994) Northeast Cover Crop Handbook. Kutztown, PA: Rodale Institute. 118 pGoogle Scholar
Snapp, SS, Borden, H (2005) Enhanced nitrogen mineralization in mowed or glyphosate treated cover crops compared to direct incorporation. Plant Soil 270:101112 Google Scholar
Spargo, JT, Cavigelli, MA, Mirsky, SB, Meisinger, JJ, Ackroyd, VJ (2016) Organic supplemental nitrogen sources for field corn production after a hairy vetch cover crop. Agron J 108:19922002 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
Verhallen, A, Hayes, A, Taylor, T (2005) Cultures Couvre Sol: La Vesce Velue. http://www.omafra.gov.on.ca/french/crops/facts/cover_crops01/hairyvetch.htm. Accessed: January 24, 2017Google Scholar
Webster, TM, Simmons, DB, Culpepper, AS, Grey, TL, Bridges, DC, Scully, BT (2016) Factors affecting potential for Palmer amaranth (Amaranthus palmeri) suppression by winter rye in Georgia, USA. Field Crops Res 192:103109 CrossRefGoogle Scholar
Wells, MS, Reberg-Horton, SC, Mirsky, SB (2016) Planting date impacts on soil water management, plant growth, and weeds in cover-crop-based no-till corn production. Agron J 108:162170 Google Scholar
Wells, MS, Reberg-Horton, SC, Smith, AN, Grossman, JM (2013) The reduction of plant-available nitrogen by cover crop mulches and subsequent effects on soybean performance and weed interference. Agron J 105:539545 Google Scholar
Zadoks, JC, Chang, TT, Konzak, CF (1974) A decimal code for the growth stages of cereals. Weed Res 14:415421 Google Scholar