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Registro completo
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Biblioteca (s) : |
INIA La Estanzuela. |
Fecha : |
21/02/2014 |
Actualizado : |
22/02/2014 |
Autor : |
Hycka, M. |
Título : |
Veza común : su cultivo y utilización |
Fecha de publicación : |
1967 |
Fuente / Imprenta : |
Zaragoza (España): Estación Experimental de Aula Dei, 1967. |
Páginas : |
79p. |
Idioma : |
Español |
Thesagro : |
ALMACENAMIENTO DE SEMILLAS; APLICACION DE ABONOS; COMPOSICION QUIMICA; DATOS DE PRODUCCION; ENFERMEDADES DE LAS PLANTAS; ENSILAJE; ESPACIAMIENTO; ESPAÑA; FACTORES CLIMATICOS; FACTORES EDAFICOS; FECHA DE SIEMBRA; FIJACION DEL NITROGENO; FITOMEJORAMIENTO; HENIFICACION; MANEJO DEL CULTIVO; MANEJO DEL SUELO; METODOS DE MEJORAMIENTO GENETICO; PIENSOS; PLAGAS DE PLANTAS; PRODUCCION DE PIENSOS; PRODUCCION DE SEMILLAS; RECOLECCION; RENDIMIENTO DE CULTIVOS; ROTACION DE CULTIVOS; SIEMBRA; VALOR NUTRITIVO; VARIEDADES; VICIA SATIVA. |
Asunto categoría : |
-- |
Marc : |
LEADER 01249nam a2200445 a 4500 001 1038492 005 2014-02-22 008 1967 bl uuuu u00u1 u #d 100 1 $aHYCKA, M. 245 $aVeza común$bsu cultivo y utilización 260 $aZaragoza (España): Estación Experimental de Aula Dei$c1967 300 $a79p. 650 $aALMACENAMIENTO DE SEMILLAS 650 $aAPLICACION DE ABONOS 650 $aCOMPOSICION QUIMICA 650 $aDATOS DE PRODUCCION 650 $aENFERMEDADES DE LAS PLANTAS 650 $aENSILAJE 650 $aESPACIAMIENTO 650 $aESPAÑA 650 $aFACTORES CLIMATICOS 650 $aFACTORES EDAFICOS 650 $aFECHA DE SIEMBRA 650 $aFIJACION DEL NITROGENO 650 $aFITOMEJORAMIENTO 650 $aHENIFICACION 650 $aMANEJO DEL CULTIVO 650 $aMANEJO DEL SUELO 650 $aMETODOS DE MEJORAMIENTO GENETICO 650 $aPIENSOS 650 $aPLAGAS DE PLANTAS 650 $aPRODUCCION DE PIENSOS 650 $aPRODUCCION DE SEMILLAS 650 $aRECOLECCION 650 $aRENDIMIENTO DE CULTIVOS 650 $aROTACION DE CULTIVOS 650 $aSIEMBRA 650 $aVALOR NUTRITIVO 650 $aVARIEDADES 650 $aVICIA SATIVA
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Registro completo
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Biblioteca (s) : |
INIA Treinta y Tres. |
Fecha actual : |
16/08/2021 |
Actualizado : |
19/08/2021 |
Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
Circulación / Nivel : |
-- - -- |
Autor : |
MACEDO, I.; PRAVIA, V.; CASTILLO, J.; TERRA, J.A. |
Afiliación : |
IGNACIO MACEDO YAPOR, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; MARIA VIRGINIA PRAVIA NIN, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; EMILSE JESUS CASTILLO VELAZQUEZ, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; JOSÉ ALFREDO TERRA FERNÁNDEZ, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay. |
Título : |
Soil organic matter in physical fractions after intensification of irrigated rice-pasture rotation systems. |
Fecha de publicación : |
2021 |
Fuente / Imprenta : |
Soil and Tillage Research, September 2021, Volume 213, Article number 105160, Pages 1-10. Doi: https://doi.org/10.1016/j.still.2021.105160 |
DOI : |
10.1016/j.still.2021.105160 |
Idioma : |
Inglés |
Notas : |
Article history: Received 3 March 2021, Revised 26 July 2021, Accepted 30 July 2021, Available online 12 August 2021.
E-mail address: macedoyapor@gmail.com (I. Macedo). |
Contenido : |
Crop-pasture systems improve soil quality, but their intensification through the increase of the frequency of annual crops may reduce it. We evaluated the impacts of six no-till rice rotations systems on soil quality after five years in a field scale long term experiment established on a site with a 30 years old stabilized rice-pasture rotation. Rotations included: continuous rice (ContRc); rice-soybean (Rc-Sy); rice-soybean-rice-sorghum (Rc-Sy-Sg); rice-soybean-pasture (Rc-Sy-Past); and rice-pasture, with short (Rc-SPast) and long-term pastures (Rc-LPast). Cover crops were included in winter between cash crops. All rotation phases coexisted and were replicated three times in space. Soil quality indicators included: soil organic carbon and total nitrogen contents in bulk soil (TSOC and TN, respectively) and in particulate (>53 μm, POM-C and POM-N) and mineral associated soil organic matter fractions (<53 μm, MAOM-C and MAOM-N). Soil cores were collected at 0−5 cm and 5−15 cm soils depths (results presented at 0−5 and 0−15 cm depths). Additionally, soil samples were taken up to 60 cm soil depth every 15 cm for TSOC and TN. After five years, no differences were observed in TSOC (29.3 Mg C ha−1) or TN (3.16 Mg N ha−1) between rotations in the first 0−15 cm as well as for each layer and in the aggregated 0−60 cm of soil. Neither POM-C nor POM-N contents were different between treatments that had perennial pastures in the rotation. However, Rc-LPast had 18 and 19 % greater POM-C and POM-N respectively than the average of Rc-Sy and Rc-Sy-Sg, (6.06 Mg C ha−1 and 0.48 Mg N ha−1, 0−15 cm depth). Meanwhile, the POM-C represented 23.6 % of TSOC in Rc-LPast, but in rotations that replaced pastures (Rc-Sy and Rc-Sy-Sg) represented only 20 %. For soils in temperate zones, under a stable rice-pasture rotation, there are intensification alternatives which preserved TSOC in the midterm. However, the reduction in the particulate fractions observed in the rice rotations that substituted perennial pastures with other crops, suggests that TSOC may be more vulnerable to losses in the long term. MenosCrop-pasture systems improve soil quality, but their intensification through the increase of the frequency of annual crops may reduce it. We evaluated the impacts of six no-till rice rotations systems on soil quality after five years in a field scale long term experiment established on a site with a 30 years old stabilized rice-pasture rotation. Rotations included: continuous rice (ContRc); rice-soybean (Rc-Sy); rice-soybean-rice-sorghum (Rc-Sy-Sg); rice-soybean-pasture (Rc-Sy-Past); and rice-pasture, with short (Rc-SPast) and long-term pastures (Rc-LPast). Cover crops were included in winter between cash crops. All rotation phases coexisted and were replicated three times in space. Soil quality indicators included: soil organic carbon and total nitrogen contents in bulk soil (TSOC and TN, respectively) and in particulate (>53 μm, POM-C and POM-N) and mineral associated soil organic matter fractions (<53 μm, MAOM-C and MAOM-N). Soil cores were collected at 0−5 cm and 5−15 cm soils depths (results presented at 0−5 and 0−15 cm depths). Additionally, soil samples were taken up to 60 cm soil depth every 15 cm for TSOC and TN. After five years, no differences were observed in TSOC (29.3 Mg C ha−1) or TN (3.16 Mg N ha−1) between rotations in the first 0−15 cm as well as for each layer and in the aggregated 0−60 cm of soil. Neither POM-C nor POM-N contents were different between treatments that had perennial pastures in the ... Presentar Todo |
Palabras claves : |
ARROZ; FLOODED SOILS; RICE; ROTACIONES; ROTACIONES ARROZ-PASTURAS; SOIL CARBON SEQUESTRATION; SOIL HEALTH; SUSTAINABLE INTENSIFICATION; URUGUAY. |
Asunto categoría : |
P30 Ciencia del suelo y manejo del suelo |
Marc : |
LEADER 03272naa a2200289 a 4500 001 1062350 005 2021-08-19 008 2021 bl uuuu u00u1 u #d 024 7 $a10.1016/j.still.2021.105160$2DOI 100 1 $aMACEDO, I. 245 $aSoil organic matter in physical fractions after intensification of irrigated rice-pasture rotation systems.$h[electronic resource] 260 $c2021 500 $aArticle history: Received 3 March 2021, Revised 26 July 2021, Accepted 30 July 2021, Available online 12 August 2021. E-mail address: macedoyapor@gmail.com (I. Macedo). 520 $aCrop-pasture systems improve soil quality, but their intensification through the increase of the frequency of annual crops may reduce it. We evaluated the impacts of six no-till rice rotations systems on soil quality after five years in a field scale long term experiment established on a site with a 30 years old stabilized rice-pasture rotation. Rotations included: continuous rice (ContRc); rice-soybean (Rc-Sy); rice-soybean-rice-sorghum (Rc-Sy-Sg); rice-soybean-pasture (Rc-Sy-Past); and rice-pasture, with short (Rc-SPast) and long-term pastures (Rc-LPast). Cover crops were included in winter between cash crops. All rotation phases coexisted and were replicated three times in space. Soil quality indicators included: soil organic carbon and total nitrogen contents in bulk soil (TSOC and TN, respectively) and in particulate (>53 μm, POM-C and POM-N) and mineral associated soil organic matter fractions (<53 μm, MAOM-C and MAOM-N). Soil cores were collected at 0−5 cm and 5−15 cm soils depths (results presented at 0−5 and 0−15 cm depths). Additionally, soil samples were taken up to 60 cm soil depth every 15 cm for TSOC and TN. After five years, no differences were observed in TSOC (29.3 Mg C ha−1) or TN (3.16 Mg N ha−1) between rotations in the first 0−15 cm as well as for each layer and in the aggregated 0−60 cm of soil. Neither POM-C nor POM-N contents were different between treatments that had perennial pastures in the rotation. However, Rc-LPast had 18 and 19 % greater POM-C and POM-N respectively than the average of Rc-Sy and Rc-Sy-Sg, (6.06 Mg C ha−1 and 0.48 Mg N ha−1, 0−15 cm depth). Meanwhile, the POM-C represented 23.6 % of TSOC in Rc-LPast, but in rotations that replaced pastures (Rc-Sy and Rc-Sy-Sg) represented only 20 %. For soils in temperate zones, under a stable rice-pasture rotation, there are intensification alternatives which preserved TSOC in the midterm. However, the reduction in the particulate fractions observed in the rice rotations that substituted perennial pastures with other crops, suggests that TSOC may be more vulnerable to losses in the long term. 653 $aARROZ 653 $aFLOODED SOILS 653 $aRICE 653 $aROTACIONES 653 $aROTACIONES ARROZ-PASTURAS 653 $aSOIL CARBON SEQUESTRATION 653 $aSOIL HEALTH 653 $aSUSTAINABLE INTENSIFICATION 653 $aURUGUAY 700 1 $aPRAVIA, V. 700 1 $aCASTILLO, J. 700 1 $aTERRA, J.A. 773 $tSoil and Tillage Research, September 2021, Volume 213, Article number 105160, Pages 1-10. Doi: https://doi.org/10.1016/j.still.2021.105160
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