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Registro completo
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Biblioteca (s) : |
INIA Treinta y Tres. |
Fecha : |
03/01/2022 |
Actualizado : |
10/01/2022 |
Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
Autor : |
YUAN, S.; LINQUIST, B. A.; WILSON, L. T.; CASSMAN, K. G.; STUART, A. M.; PEDE, V.; SAITO, K.; AGUSTIANI, N.; ARISTYA, V. E.; KRISNADI, L. Y.; ZANON, A.J.; HEINEMANN, A. B.; CARRACELAS, G.; SUBASH, N.; BRAGMANAND, P. S.; LI, T.; PENG, S.; GRASSINI, P. |
Afiliación : |
SHEN YUAN, National Key Laboratory of Crop Genetic Improvement, Hubei Hongshan Laboratory, MARA Key Laboratory of Crop Ecophysiology and Farming System in the Middle Reaches of the Yangtze River, College of Plant Science and Technology, China.; BRUCE A. LINQUIST, Department of Plant Sciences, University of California-Davis, One Shields Ave., Davis, CA 95616, USA.; LLOYD T. WILSON, Texas A&M AgriLife Research Center, Beaumont, TX 77713, USA.; KENNETH G. CASSMAN, Department of Agronomy and Horticulture, University of Nebraska-Lincoln, Lincoln, NE 68588, USA.; ALEXANDER M. STUART, International Rice Research Institute, DAPO Box 7777 Metro Manila, Philippines.; VALERIEN PEDE, International Rice Research Institute, DAPO Box 7777 Metro Manila, Philippines.; KASUKI SAITO, Africa Rice Center (AfricaRice), 01 B.P. 2551, Bouake 01, Côte d’Ivoire.; NURWULAN AGUSTIANI, Indonesian Center for Rice Research, Sukamandi 41256, Indonesia.; VINA EKA ARISTYA, Assessment Institute of Agricultural Technology (AIAT) Central Java, Ungaran 50552, Indonesia.; LEONARDUS Y. KRISNADI, Assessment Institute of Agricultural Technology (AIAT) East Java, Malang 65152, Indonesia.; ALENCAR JUNIOR ZANON, Universidade Federal de Santa Maria, Avenida Roraima n° 1000, 97105-900 Santa Maria, Rio Grande do Sul, Brazil.; ALEXANDRE BRYAN HEINEMANN, EMBRAPA Arroz e Feijão, Zona Rural GO-462, Santo Antônio de Goiás, Goias 75375-000, Brazil.; JULIO GONZALO CARRACELAS GARRIDO, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; NATARAJA SUBASH, ICAR-Indian Institute of Farming Systems Research, Modipuram 250110 Uttar Pradesh, India.; POTHULA S. BRAHMANAND, ICAR-Indian Institute of Water Management, Bhubaneswar 751023 Odisha, India.; TAO LI, Applied GeoSolutions, DNDC Applications Research and Training, Durham, NH 03824, USA; 5APPLIED GEOSOLUTIONS, DNDC APPLICATIONS RESEARCH AND TRAINING, DURHAM, NH 03824, USA, Huazhong Agriculture University (HZAU), China.; PATRICIO GRASSINI, University of Nebraska - Lincoln. |
Título : |
Sustainable intensification for a larger global rice bowl. |
Fecha de publicación : |
2021 |
Fuente / Imprenta : |
Nature Communications, December 2021, Article number 7163. OPEN ACCESS. doi: https://doi.org/10.1038/s41467-021-27424-z |
Páginas : |
11 p. |
DOI : |
10.1038/s41467-021-27424-z |
Idioma : |
Inglés |
Notas : |
Article history: Received: 7 April 2021; Accepted: 17 November 2021; Published online 09 December 2021.
Correspondence author: pgrassini2@unl.edu; speng@mail.hzau.edu.cn |
Contenido : |
Future rice systems must produce more grain while minimizing the negative environmental impacts. A key question is how to orient agricultural research & development (R&D) programs at national to global scales to maximize the return on investment. Here we assess yield gap and resource-use efficiency (including water, pesticides, nitrogen, labor, energy, and associated global warming potential) across 32 rice cropping systems covering half of global rice harvested area. We show that achieving high yields and high resource-use efficiencies are not conflicting goals. Most cropping systems have room for increasing yield, resource-use efficiency, or both. In aggregate, current total rice production could be increased by 32%, and excess nitrogen almost eliminated, by focusing on a relatively small number of cropping systems with either large yield gaps or poor resource-use efficiencies. This study provides essential strategic insight on yield gap and resource-use efficiency for prioritizing national
and global agricultural R&D investments to ensure adequate rice supply while minimizing negative environmental impact in coming decades. |
Palabras claves : |
ARROZ; INTENSIFICACIÓN DE LA AGRICULTURA; INTENSIFICACIÓN SOSTENIBLE; RICE. |
Asunto categoría : |
A50 Investigación agraria |
URL : |
http://www.ainfo.inia.uy/digital/bitstream/item/16177/1/Nature-Communications-Yuan-.pdf
https://www.nature.com/articles/s41467-021-27424-z
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Marc : |
LEADER 02454naa a2200409 a 4500 001 1062624 005 2022-01-10 008 2021 bl uuuu u00u1 u #d 024 7 $a10.1038/s41467-021-27424-z$2DOI 100 1 $aYUAN, S. 245 $aSustainable intensification for a larger global rice bowl.$h[electronic resource] 260 $c2021 300 $a11 p. 500 $aArticle history: Received: 7 April 2021; Accepted: 17 November 2021; Published online 09 December 2021. Correspondence author: pgrassini2@unl.edu; speng@mail.hzau.edu.cn 520 $aFuture rice systems must produce more grain while minimizing the negative environmental impacts. A key question is how to orient agricultural research & development (R&D) programs at national to global scales to maximize the return on investment. Here we assess yield gap and resource-use efficiency (including water, pesticides, nitrogen, labor, energy, and associated global warming potential) across 32 rice cropping systems covering half of global rice harvested area. We show that achieving high yields and high resource-use efficiencies are not conflicting goals. Most cropping systems have room for increasing yield, resource-use efficiency, or both. In aggregate, current total rice production could be increased by 32%, and excess nitrogen almost eliminated, by focusing on a relatively small number of cropping systems with either large yield gaps or poor resource-use efficiencies. This study provides essential strategic insight on yield gap and resource-use efficiency for prioritizing national and global agricultural R&D investments to ensure adequate rice supply while minimizing negative environmental impact in coming decades. 653 $aARROZ 653 $aINTENSIFICACIÓN DE LA AGRICULTURA 653 $aINTENSIFICACIÓN SOSTENIBLE 653 $aRICE 700 1 $aLINQUIST, B. A. 700 1 $aWILSON, L. T. 700 1 $aCASSMAN, K. G. 700 1 $aSTUART, A. M. 700 1 $aPEDE, V. 700 1 $aSAITO, K. 700 1 $aAGUSTIANI, N. 700 1 $aARISTYA, V. E. 700 1 $aKRISNADI, L. Y. 700 1 $aZANON, A.J. 700 1 $aHEINEMANN, A. B. 700 1 $aCARRACELAS, G. 700 1 $aSUBASH, N. 700 1 $aBRAGMANAND, P. S. 700 1 $aLI, T. 700 1 $aPENG, S. 700 1 $aGRASSINI, P. 773 $tNature Communications, December 2021, Article number 7163. OPEN ACCESS. doi: https://doi.org/10.1038/s41467-021-27424-z
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INIA Treinta y Tres (TT) |
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| Acceso al texto completo restringido a Biblioteca INIA La Estanzuela. Por información adicional contacte bib_le@inia.org.uy. |
Registro completo
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Biblioteca (s) : |
INIA La Estanzuela. |
Fecha actual : |
23/09/2019 |
Actualizado : |
21/09/2020 |
Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
Circulación / Nivel : |
Internacional - -- |
Autor : |
GRAHMANN, K.; DITTERT, K.; VERHULST, N.; GOVAERTS, B.; BUERKERT, A. |
Afiliación : |
KATHRIN GRAHMANN, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay./Organic Plant Production and Agroecosystems Research in the Tropics and Subtropics, University of Kassel, Witzenhausen, Germany.; KLAUS DITTERT, Institute of Applied Plant Nutrition, University of Göttingen, Göttingen, Germany.; NELE VERHULST, International Maize and Wheat Improvement Center (CIMMYT), Mexico City, DF, Mexico.; BRAM GOVAERTS, International Maize and Wheat Improvement Center (CIMMYT), Mexico City, DF, Mexico.; ANDREAS BUERKERT, Organic Plant Production and Agroecosystems Research in the Tropics and Subtropics, University of Kassel, Witzenhausen, Germany. |
Título : |
15N Fertilizer recovery in different tillage-straw systems on a Vertisol in north-west Mexico. |
Fecha de publicación : |
2019 |
Fuente / Imprenta : |
Soil Use and Management, 1 September 2019, Volume 35, Issue 3, Pages 482-491. Doi: https://doi.org/10.1111/sum.12495 |
DOI : |
10.1111/sum.12495 |
Idioma : |
Inglés |
Notas : |
Article history: Received: 10 June 2018 | Revised: 12 January 2019 | Accepted: 21 January 2019. |
Contenido : |
AbstractTillage and residue retention affect nitrogen (N) dynamics and nutrient losses and therefore nitrogen use efficiency (NUE) and crop fertilizer use, however, there is little information about residual fertilizer effects on the subsequent crop. Micro- plots with 15N- labelled urea were established in 2014/2015 on a long- term experi-ment on a Vertisol in north- west Mexico. N fertilizer recovery (NFR) and the effects of residual fertilizer N for summer maize (Zea mays L.) and the subsequent wheat (Triticum durum L.) crop were studied in three tillage?straw management practices (CTB: conventionally tilled beds; PB- straw: permanent raised beds with residue retention; PB- burn: permanent raised beds with residue burning). Fertilizer 15N recovery rates for maize grain across all treatments were low with an average of 11%, but after wheat harvest total recovered 15N (15N in maize and wheat straw and grain, residual soil 15N) was over 50% for the PB- burn treatment. NFR was lowest in CTB after two cropping cycles (32%). Unaccounted N from applied fer-tilizer for the maize crop averaged 120 kg 15N ha?1 after wheat harvest. However, more than 20% of labelled 15N was found in the 0?90 cm soil profile in both PB treatments after wheat harvest, which highlights the need for long- term studies and continuous monitoring of the soil nutrient status to avoid over- application of min-eral N fertilizer. |
Palabras claves : |
15N LABELLED UREA; FERTILIZANTES NITROGENADOS; NITROGEN BALANCE; NITROGEN FERTILIZER RECOVERY; PERMANENT BEDS; WHEAT-MAIZE CROPPING SYSTEM. |
Thesagro : |
MAIZ; TRIGO. |
Asunto categoría : |
P35 Fertilidad del suelo |
Marc : |
LEADER 02462naa a2200289 a 4500 001 1060201 005 2020-09-21 008 2019 bl uuuu u00u1 u #d 024 7 $a10.1111/sum.12495$2DOI 100 1 $aGRAHMANN, K. 245 $a15N Fertilizer recovery in different tillage-straw systems on a Vertisol in north-west Mexico.$h[electronic resource] 260 $c2019 500 $aArticle history: Received: 10 June 2018 | Revised: 12 January 2019 | Accepted: 21 January 2019. 520 $aAbstractTillage and residue retention affect nitrogen (N) dynamics and nutrient losses and therefore nitrogen use efficiency (NUE) and crop fertilizer use, however, there is little information about residual fertilizer effects on the subsequent crop. Micro- plots with 15N- labelled urea were established in 2014/2015 on a long- term experi-ment on a Vertisol in north- west Mexico. N fertilizer recovery (NFR) and the effects of residual fertilizer N for summer maize (Zea mays L.) and the subsequent wheat (Triticum durum L.) crop were studied in three tillage?straw management practices (CTB: conventionally tilled beds; PB- straw: permanent raised beds with residue retention; PB- burn: permanent raised beds with residue burning). Fertilizer 15N recovery rates for maize grain across all treatments were low with an average of 11%, but after wheat harvest total recovered 15N (15N in maize and wheat straw and grain, residual soil 15N) was over 50% for the PB- burn treatment. NFR was lowest in CTB after two cropping cycles (32%). Unaccounted N from applied fer-tilizer for the maize crop averaged 120 kg 15N ha?1 after wheat harvest. However, more than 20% of labelled 15N was found in the 0?90 cm soil profile in both PB treatments after wheat harvest, which highlights the need for long- term studies and continuous monitoring of the soil nutrient status to avoid over- application of min-eral N fertilizer. 650 $aMAIZ 650 $aTRIGO 653 $a15N LABELLED UREA 653 $aFERTILIZANTES NITROGENADOS 653 $aNITROGEN BALANCE 653 $aNITROGEN FERTILIZER RECOVERY 653 $aPERMANENT BEDS 653 $aWHEAT-MAIZE CROPPING SYSTEM 700 1 $aDITTERT, K. 700 1 $aVERHULST, N. 700 1 $aGOVAERTS, B. 700 1 $aBUERKERT, A. 773 $tSoil Use and Management, 1 September 2019, Volume 35, Issue 3, Pages 482-491. Doi: https://doi.org/10.1111/sum.12495
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