Winter grazing does not affect soybean yield despite lower soil water content in a subtropical crop-livestock system
Commercial-scale integrated crop-livestock systems intensify land use by combining complementary agricultural enterprises and leveraging synergistic ecosystem services to achieve both productive and environmental outcomes. Although widely implemented in southern Brazil as an annual beef/soybean rota...
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| Published in | Agronomy for sustainable development Vol. 39; no. 2 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Paris
Springer Paris
01.04.2019
Springer Nature B.V Springer Verlag/EDP Sciences/INRA |
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| Abstract | Commercial-scale integrated crop-livestock systems intensify land use by combining complementary agricultural enterprises and leveraging synergistic ecosystem services to achieve both productive and environmental outcomes. Although widely implemented in southern Brazil as an annual beef/soybean rotation, tradeoffs such as competing soil water use between pasture and crop phases may result from seasonal grazing in this system. We compared soil water and plant physiological variables in the crop phase of an integrated annual beef-soybean system managed with no-till and best grazing practices with those of an ungrazed cover crop control as part of a long-term experiment in southern Brazil. A mixed black oat (
Avena strigosa
Schreb.) and Italian ryegrass (
Lolium multiflorum
Lam.) pasture was either grazed by beef cattle to 20-cm sward height or left as an ungrazed cover crop in the winter, and direct-planted to soybean (
Glycine max
[L.] Merr.) in the summer. Although soybean yields did not differ between grazed and ungrazed treatments, soil matric potential was on average 25% lower across depths and growth stages in plots that had been grazed during winter. Soybeans in grazed plots also exhibited up to 34% lower light-use efficiency and a 2-week slower time to physiological maturation than soybeans in plots that had not been previously grazed. These results describe for the first time the differential crop growing conditions and crop physiological responses created after 16 years of integration with grazing animals. As integrated crop-livestock systems grow in importance in commercial production settings, this research can inform adaptive management practices to ensure the sustainability of these systems into the future and under a variety of environmental conditions. |
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| AbstractList | Commercial-scale integrated crop-livestock systems intensify land use by combining complementary agricultural enterprises and leveraging synergistic ecosystem services to achieve both productive and environmental outcomes. Although widely implemented in southern Brazil as an annual beef/soybean rotation, tradeoffs such as competing soil water use between pasture and crop phases may result from seasonal grazing in this system. We compared soil water and plant physiological variables in the crop phase of an integrated annual beef-soybean system managed with no-till and best grazing practices with those of an ungrazed cover crop control as part of a long-term experiment in southern Brazil. A mixed black oat (Avena strigosa Schreb.) and Italian ryegrass (Lolium multiflorum Lam.) pasture was either grazed by beef cattle to 20-cm sward height or left as an ungrazed cover crop in the winter, and direct-planted to soybean (Glycine max [L.] Merr.) in the summer. Although soybean yields did not differ between grazed and ungrazed treatments, soil matric potential was on average 25% lower across depths and growth stages in plots that had been grazed during winter. Soybeans in grazed plots also exhibited up to 34% lower light-use efficiency and a 2-week slower time to physiological maturation than soybeans in plots that had not been previously grazed. These results describe for the first time the differential crop growing conditions and crop physiological responses created after 16 years of integration with grazing animals. As integrated crop-livestock systems grow in importance in commercial production settings, this research can inform adaptive management practices to ensure the sustainability of these systems into the future and under a variety of environmental conditions. AbstractCommercial-scale integrated crop-livestock systems intensify land use by combining complementary agricultural enterprises and leveraging synergistic ecosystem services to achieve both productive and environmental outcomes. Although widely implemented in southern Brazil as an annual beef/soybean rotation, tradeoffs such as competing soil water use between pasture and crop phases may result from seasonal grazing in this system. We compared soil water and plant physiological variables in the crop phase of an integrated annual beef-soybean system managed with no-till and best grazing practices with those of an ungrazed cover crop control as part of a long-term experiment in southern Brazil. A mixed black oat (Avena strigosa Schreb.) and Italian ryegrass (Lolium multiflorum Lam.) pasture was either grazed by beef cattle to 20-cm sward height or left as an ungrazed cover crop in the winter, and direct-planted to soybean (Glycine max [L.] Merr.) in the summer. Although soybean yields did not differ between grazed and ungrazed treatments, soil matric potential was on average 25% lower across depths and growth stages in plots that had been grazed during winter. Soybeans in grazed plots also exhibited up to 34% lower light-use efficiency and a 2-week slower time to physiological maturation than soybeans in plots that had not been previously grazed. These results describe for the first time the differential crop growing conditions and crop physiological responses created after 16 years of integration with grazing animals. As integrated crop-livestock systems grow in importance in commercial production settings, this research can inform adaptive management practices to ensure the sustainability of these systems into the future and under a variety of environmental conditions. Commercial-scale integrated crop-livestock systems intensify land use by combining complementary agricultural enterprises and leveraging synergistic ecosystem services to achieve both productive and environmental outcomes. Although widely implemented in southern Brazil as an annual beef/soybean rotation, tradeoffs such as competing soil water use between pasture and crop phases may result from seasonal grazing in this system. We compared soil water and plant physiological variables in the crop phase of an integrated annual beef-soybean system managed with no-till and best grazing practices with those of an ungrazed cover crop control as part of a long-term experiment in southern Brazil. A mixed black oat ( Avena strigosa Schreb.) and Italian ryegrass ( Lolium multiflorum Lam.) pasture was either grazed by beef cattle to 20-cm sward height or left as an ungrazed cover crop in the winter, and direct-planted to soybean ( Glycine max [L.] Merr.) in the summer. Although soybean yields did not differ between grazed and ungrazed treatments, soil matric potential was on average 25% lower across depths and growth stages in plots that had been grazed during winter. Soybeans in grazed plots also exhibited up to 34% lower light-use efficiency and a 2-week slower time to physiological maturation than soybeans in plots that had not been previously grazed. These results describe for the first time the differential crop growing conditions and crop physiological responses created after 16 years of integration with grazing animals. As integrated crop-livestock systems grow in importance in commercial production settings, this research can inform adaptive management practices to ensure the sustainability of these systems into the future and under a variety of environmental conditions. |
| ArticleNumber | 26 |
| Author | Martins, Amanda Posselt Gaudin, Amélie C. M. Anghinoni, Ibanor Nunes, Pedro A. de A. Bergamaschi, Homero Carvalho, Paulo C. de F. Peterson, Caitlin A. |
| Author_xml | – sequence: 1 givenname: Caitlin A. surname: Peterson fullname: Peterson, Caitlin A. organization: Department of Plant Sciences, University of California-Davis – sequence: 2 givenname: Pedro A. de A. surname: Nunes fullname: Nunes, Pedro A. de A. organization: Department of Forage Plants and Agrometeorology, Federal University of Rio Grande do Sul – sequence: 3 givenname: Amanda Posselt surname: Martins fullname: Martins, Amanda Posselt organization: Department of Soil Science, Federal University of Rio Grande do Sul – sequence: 4 givenname: Homero surname: Bergamaschi fullname: Bergamaschi, Homero organization: Department of Forage Plants and Agrometeorology, Federal University of Rio Grande do Sul – sequence: 5 givenname: Ibanor surname: Anghinoni fullname: Anghinoni, Ibanor organization: Department of Soil Science, Federal University of Rio Grande do Sul – sequence: 6 givenname: Paulo C. de F. surname: Carvalho fullname: Carvalho, Paulo C. de F. organization: Department of Forage Plants and Agrometeorology, Federal University of Rio Grande do Sul – sequence: 7 givenname: Amélie C. M. surname: Gaudin fullname: Gaudin, Amélie C. M. email: agaudin@ucdavis.edu organization: Department of Plant Sciences, University of California-Davis |
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| Cites_doi | 10.2136/sssaj2005.0117 10.1590/S0100-06832010000400033 10.1038/nature04742 10.5194/bg-12-4149-2015 10.1093/jas/sky085 10.1590/S0100-204X2016000800010 10.1016/j.still.2011.02.003 10.1034/j.1399-3054.2001.1120208.x 10.1007/S00442-0 10.1590/S0100-204X2011001000026 10.1016/j.jhydrol.2008.04.016 10.1590/S0100-06832010000100008 10.1111/gcb.14070 10.1016/j.gloenvcha.2006.04.002 10.1016/j.agsy.2017.05.003 10.1016/j.agee.2013.12.003 10.1038/nature10452 10.1016/j.agee.2014.05.012 10.1071/EA00062 10.1016/j.eja.2013.09.013 10.1590/S0100-204X2011001000020 10.2134/agronj2006.0139 10.1088/1748-9326/10/2/024007 10.1016/j.still.2014.07.019 |
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| Keywords | Normalized difference vegetation index Soil water Leaf water potential Crop physiology Soybean Photochemical reflectance index Integrated crop-livestock systems Glycine max |
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| References | Martins, Costa, Anghinoni (CR16) 2014; 195 Puma, Bose, Chon, Cook (CR21) 2015; 10 Fulkerson, Donaghy (CR11) 2001; 41 Peters, Durner (CR19) 2008; 356 Chávez, Escobar, Anghinoni, Carvalho, Meurer (CR6) 2011; 46 Martins, Costa, Anghinoni (CR17) 2016; 51 Souza, Costa, Anghinoni (CR25) 2010; 34 Martins, Anghinoni, Costa (CR15) 2014; 144 Silva, Smyth, Raper, Carter, Rufty (CR24) 2001; 112 Mott, Lucas (CR18) 1952 Gamon, Kovalchuck, Wong, Harris, Garrity (CR12) 2015; 12 Garrett, Niles, Gil (CR13) 2017; 155 Carvalho, Peterson, Nunes, Martins, de Souza Filho, Bertolazi, Kunrath, de Moraes, Anghinoni (CR4) 2018; 96 Cecagno, Costa SEVG de, Kunrath (CR5) 2017; 1 Porcar-Castell, Garcia-plazaola, Nichol (CR20) 2012; 170 Conte, Flores, Cassol, Anghinoni, Carvalho, Levien, Wesp (CR8) 2011; 46 Kunrath, Cadenazzi, Brambilla, Anghinoni, Moraes, Barro, Carvalho (CR14) 2014; 57 Russelle, Entz, Franzluebbers (CR22) 2007; 99 Folke (CR10) 2006; 16 CR3 Saxton, Rawls (CR23) 2006; 70 CR7 Assmann, Anghinoni, Martins, Costa, Cecagno, Carlos, Carvalho (CR1) 2014; 190 Foley, Ramankutty, Brauman, Cassidy, Gerber, Johnston, Mueller, O’Connell, Ray, West, Balzer, Bennett, Carpenter, Hill, Monfreda, Polasky, Rockström, Sheehan, Siebert, Tilman, Zaks (CR9) 2011; 478 Souza, Costa, Anghinoni (CR26) 2010; 34 Wilson, Strickland, Hutchings, Bianchi, Flory (CR28) 2018; 24 Bell, Kirkegaard, Swan, Hunt, Huth, Fettell (CR2) 2011; 113 Tilman, Reich, Knops (CR27) 2006; 441 JA Gamon (573_CR12) 2015; 12 573_CR7 D Cecagno (573_CR5) 2017; 1 Michael J Puma (573_CR21) 2015; 10 Paulo César de Faccio Carvalho (573_CR4) 2018; 96 A Porcar-Castell (573_CR20) 2012; 170 573_CR3 WJ Fulkerson (573_CR11) 2001; 41 CH Wilson (573_CR28) 2018; 24 JA Foley (573_CR9) 2011; 478 AP Martins (573_CR17) 2016; 51 A Peters (573_CR19) 2008; 356 IR Silva (573_CR24) 2001; 112 ED d Souza (573_CR26) 2010; 34 KE Saxton (573_CR23) 2006; 70 AP Martins (573_CR15) 2014; 144 LW Bell (573_CR2) 2011; 113 MP Russelle (573_CR22) 2007; 99 AP Martins (573_CR16) 2014; 195 R Garrett (573_CR13) 2017; 155 ED d Souza (573_CR25) 2010; 34 LF Chávez (573_CR6) 2011; 46 D Tilman (573_CR27) 2006; 441 O Conte (573_CR8) 2011; 46 TR Kunrath (573_CR14) 2014; 57 C Folke (573_CR10) 2006; 16 G Mott (573_CR18) 1952 JM Assmann (573_CR1) 2014; 190 |
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| SubjectTerms | Adaptive management Adaptive systems Agricultural ecosystems Agricultural practices Agriculture Agronomy Beef Beef cattle Biomedical and Life Sciences Cover crops Crop rotation Crops Ecosystem services Environmental conditions Glycine max Grazing Land use Life Sciences Livestock Moisture content Pasture Physiological responses Physiology Research Article Soil Science & Conservation Soil treatment Soil water Soybeans Sustainable Development Water content Water use Winter |
| Title | Winter grazing does not affect soybean yield despite lower soil water content in a subtropical crop-livestock system |
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