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M. Kukal, S. Irmak (2018)
U.S. Agro-Climate in 20th Century: Growing Degree Days, First and Last Frost, Growing Season Length, and Impacts on Crop YieldsScientific Reports, 8
G. Mehring, J. Stenger, H. Hatterman-Valenti (2016)
Weed Control with Cover Crops in Irrigated PotatoesAgronomy, 6
C. Mohler, J. Asdale (1993)
Response of weed emergence to rate of Vicia villosa Roth and Secale cereale L. residueWeed Research, 33
(2021)
Agrometeorological data using R‐software
A. Basche, M. DeLonge (2019)
Comparing infiltration rates in soils managed with conventional and alternative farming methods: A meta-analysisPLoS ONE, 14
N. Soltani, J. Dille, I. Burke, W. Everman, M. VanGessel, Vince Davis, P. Sikkema, Aaron Hager (2017)
Perspectives on Potential Soybean Yield Losses from Weeds in North AmericaWeed Technology, 31
M. Schulz, A. Marocco, V. Tabaglio, F. Macias, J. Molinillo (2013)
Benzoxazinoids in Rye Allelopathy - From Discovery to Application in Sustainable Weed Control and Organic FarmingJournal of Chemical Ecology, 39
Dane Scott (2011)
The Technological Fix Criticisms and the Agricultural Biotechnology DebateJournal of Agricultural and Environmental Ethics, 24
J. D. Doll (2001)
Knowing when to look for what: Weed emergence and flowering sequences in Wisconsin
Heidi Reed, H. Karsten, W. Curran, J. Tooker, S. Duiker (2019)
Planting Green Effects on Corn and Soybean ProductionAgronomy Journal
E. Bernstein, J. Posner, D. Stoltenberg, J. Hedtcke (2011)
Organically Managed No‐Tillage Rye–Soybean Systems: Agronomic, Economic, and Environmental AssessmentAgronomy Journal, 103
N. G. Creamer, M. A. Bennett, B. R. Stinner, J. Cardina, E. E Regnier (1996)
Mechanisms of weed suppression in cover crop‐based production systems, 31
H. Schomberg (2011)
Glyphosate-resistant Palmer amaranth: A threat to conservation tillageJournal of Soil and Water Conservation, 66
Erik Krueger, T. Ochsner, P. Porter, J. Baker (2011)
Winter Rye Cover Crop Management Influences on Soil Water, Soil Nitrate, and Corn DevelopmentAgronomy Journal, 103
J. Fernandez‐Cornejo, R. F. Nehring, C. Osteen, S. Wechsler, A. Martin, A. Vialou (2014)
Pesticide use in U.S. agriculture: 21 selected crops, 1960–2008
L. Vincent-Caboud, L. Vereecke, Erin Silva, J. Peigné (2019)
Cover Crop Effectiveness Varies in Cover Crop-Based Rotational Tillage Organic Soybean Systems Depending on Species and EnvironmentAgronomy
R. Werle, C. Burr, H. Blanco‐Canqui (2017)
Cereal rye cover crop suppresses winter annual weedsCanadian Journal of Plant Science, 98
J. D. DeVore, J. K. Norsworthy, K. R Brye (2013)
Influence of deep tillage, a rye cover crop, and various soybean production systems on palmer amaranth emergence in soybean, 27
Hanna Poffenbarger, S. Mirsky, R. Weil, J. Maul, M. Kramer, J. Spargo, M. Cavigelli (2015)
Biomass and Nitrogen Content of Hairy Vetch–Cereal Rye Cover Crop Mixtures as Influenced by Species ProportionsAgronomy Journal, 107
Michael Dunn, J. Ulrich-Schad, L. Prokopy, R. Myers, C. Watts, K. Scanlon (2016)
Perceptions and use of cover crops among early adopters: Findings from a national surveyJournal of Soil and Water Conservation, 71
Chloe MacLaren, J. Storkey, Alexander Menegat, H. Metcalfe, K. Dehnen‐Schmutz (2020)
An ecological future for weed science to sustain crop production and the environment. A reviewAgronomy for Sustainable Development, 40
Jaimie West, M. Ruark, K. Shelley (2020)
Sustainable intensification of corn silage cropping systems with winter ryeAgronomy for Sustainable Development, 40
Alwyn Williams, M. Wells, D. Dickey, Shuijin Hu, J. Maul, Daniel Raskin, S. Reberg-Horton, S. Mirsky (2018)
Establishing the relationship of soil nitrogen immobilization to cereal rye residues in a mulched systemPlant and Soil, 426
H. Blanco‐Canqui, T. Shaver, J. Lindquist, C. Shapiro, R. Elmore, C. Francis, G. Hergert (2015)
Cover Crops and Ecosystem Services: Insights from Studies in Temperate SoilsAgronomy Journal, 107
Maxwel Oliveira, L. Butts, R. Werle (2019)
Assessment of Cover Crop Management Strategies in Nebraska, USAgriculture
B. Baraibar, Mitchell Hunter, M. Schipanski, Abbe Hamilton, D. Mortensen (2017)
Weed Suppression in Cover Crop Monocultures and MixturesWeed Science, 66
Jess Bunchek, J. Wallace, W. Curran, D. Mortensen, M. VanGessel, Barbara Scott (2020)
Alternative Performance Targets for Integrating Cover Crops as a Proactive Herbicide-Resistance Management ToolWeed Science, 68
Cody Cornelius, K. Bradley (2017)
Influence of Various Cover Crop Species on Winter and Summer Annual Weed Emergence in SoybeanWeed Technology, 31
O. Osipitan, J. Dille, Y. Assefa, S. Knezevic (2018)
Cover Crop for Early Season Weed Suppression in Crops: Systematic Review and Meta‐AnalysisAgronomy Journal
P. Thornton, M. Thornton, Ben Mayer, Yaxing Wei, R. Devarakonda, R. Vose, R. Cook (2016)
Daymet: Daily Surface Weather Data on a 1-km Grid for North America, Version 3
C. Rice, G. Cai, J. Teasdale (2012)
Concentrations and allelopathic effects of benzoxazinoid compounds in soil treated with rye (Secale cereale) cover crop.Journal of agricultural and food chemistry, 60 18
R. Thapa, S. Mirsky, K. Tully (2018)
Cover Crops Reduce Nitrate Leaching in Agroecosystems:A Global Meta-Analysis.Journal of environmental quality, 47 6
Trenton Stanger, J. Lauer (2008)
Corn Grain Yield Response to Crop Rotation and Nitrogen over 35 YearsAgronomy Journal, 100
J. Teasdale, C. Mohler (1993)
Light transmittance, soil temperature, and soil moisture under residue of hairy vetch and ryeAgronomy Journal, 85
J. P. Barnes, A. R Putnam (1983)
Rye residues contribute weed suppression in no‐tillage cropping systems, 9
A fall‐established cereal rye (Secale cereale L.) cover crop has potential to provide weed suppression in fields that will be planted with corn (Zea mays L.) and/or soybean [Glycine max (L.) Merr.], reducing the selection pressure for herbicide resistance as part of an integrated weed management approach. However, biomass from an overwintering cover crop can be limited in areas with prolonged cool‐spring growing conditions, like in the Upper Midwest region of the United States. This study was conducted to determine if a cereal rye cover crop grown in Wisconsin and terminated at the time of crop planting could provide effective levels of early‐season weed suppression in corn–soybean systems practicing no‐till soil management. Cover crop biomass, weed biomass, and weed density were assessed at two Wisconsin locations (eight site‐crop‐years total; four site‐years of each corn and soybean) in 2019 and 2020. Cereal rye biomass production at the time of crop planting ranged from 290–1,480 kg ha–1. Overall, no‐till management with a cover crop reduced weed density by 31% and reduced weed biomass by 61% compared with no‐till without a cover crop. These results indicate that the use of a cereal rye cover crop in the Upper Midwest has potential to reduce the exclusive reliance on spring burndown herbicides in no‐till, but limited spring cover crop biomass in this region may diminish the weed‐suppressive effects from this management practice compared with other parts of the United States where higher amounts of cover crop biomass can be achieved at crop planting time.
"Agrosystems, Geosciences & Environment" – Wiley
Published: Jan 1, 2022
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