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Registro completo
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Biblioteca (s) : |
INIA Las Brujas; INIA Tacuarembó. |
Fecha : |
16/03/2020 |
Actualizado : |
21/04/2020 |
Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
Autor : |
MACHADO, D.N.; COSTA, E.C.; GUEDES, J.V.C.; BARBOSA, L.R.; MARTÍNEZ, G.; MAYORGA, S.I.; RAMOS, S.O.; BRANCO, M.; GARCÍA, A.; VANEGAS-RICO, J.M.; JIMÉNEZ-QUIROZ, E.; LAUDONIA, S.; NOVOSELSKY, T.; HODEL, D.R.; ARAKLIAN, G.; SILVA, H.; PERINI, C.R.; VALMORBIDA, I.; UGALDE, G.A.; ARNEMANN, J.A. |
Afiliación : |
DAYANNA DO N. MACHADO, Doutoranda pelo Programa de Pós-Graduação em Engenharia Florestal, Universidade Federal de Santa Maria, Santa Maria, Brazil; Departamento de Defesa Fitossanitária, Santa Maria, Rio Grande do Sul, Brazil; ERVANDIL C. COSTA, Departamento de Defesa Fitossanitária, Santa Maria, Rio Grande do Sul, Brazil; JERSON V. C. GUEDES, Departamento de Defesa Fitossanitária, Santa Maria, Rio Grande do Sul, Brazil; LEONARDO R. BARBOSA, Empresa Brasileira de Pesquisa Agropecuária – Embrapa Florestas, Colombo, Paraná, Brazil; GONZALO ANIBAL MARTINEZ CROSA, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; SANDRA I. MAYORGA, Servicio Agrícola y Ganadero (SAG), Santiago, Chile; SERGIO O. RAMOS, Instituto Nacional de Tecnología Agropecuaria (INTA), Estación Yuquerí, Concordia, Entre Ríos, Argentina; MANUELA BRANCO, Centro de Estudos Florestais, Instituto Superior de Agronomia, Universidade de Lisboa, Lisboa, Portugal; ANDRÉ GARCIA, Centro de Estudos Florestais, Instituto Superior de Agronomia, Universidade de Lisboa, Lisboa, Portugal; JUAN MANUEL VANEGAS-RICO, Laboratorio de Control de Plagas, Unidad de Morfología y Función (UMF), Facultad de Estudios Superiores Iztacala, UNAM. Tlalnepantla de Baz, Mexico; EDUARDO JIMÉNEZ-QUIROZ, Laboratorio de Análisis y Referencia en Sanidad Forestal, Ciudad de México, Coyoacán, Mexico; STEFANIA LAUDONIA, Dipartimento di Agraria, Università degli Studi di Napoli Federico II, Portici, Italy; TANIA NOVOSELSKY, The Steinhardt Museum of Natural History, Israel National Center for Biodiversity Studies, Tel Aviv University, Tel Aviv, Israel; DONALD R. HODEL, University of California, Cooperative Extension, Alhambra, CA, United States; GEVORK ARAKELIAN, Entomologist, Los Angeles County Agricultural Commissioner, South Gate, CA, United States; HORACIO SILVA, Facultad de Agronomía Universidad de la República Uruguay, Paysandú, Uruguay; CLÉRISON R. PERINI, Departamento de Defesa Fitossanitária, Santa Maria, Rio Grande do Sul, Brazil; IVAIR VALMORBIDA, Department of Entomology, Iowa State University, Ames, IA, United States; GUSTAVO A. UGALDE, Departamento de Defesa Fitossanitária, Santa Maria, Rio Grande do Sul, Brazil; JONAS A. ARNEMANN, Departamento de Defesa Fitossanitária, Santa Maria, Rio Grande do Sul, Brazil. |
Título : |
One maternal lineage leads the expansion of Thaumastocoris peregrinus (Hemiptera: Thaumastocoridae) in the New and Old Worlds. |
Fecha de publicación : |
2020 |
Fuente / Imprenta : |
Scientific Reports, 1 December 2020, Volume 10, Issue 1, Article number 3487. OPEN ACCESS. Doi: https://doi.org/10.1038/s41598-020-60236-7 |
ISSN : |
2045-2322 |
DOI : |
10.1038/s41598-020-60236-7 |
Idioma : |
Inglés |
Notas : |
Article history: Received 11 July 2019 / Accepted 05 February 2020 / Published 26 February 2020.
Corresponding author: Machado, D.N. - email:dayanasmac@gmail.com |
Contenido : |
ABSTRACT.
The bronze bug, Thaumastocoris peregrinus, an Australian native insect, has become a nearly worldwide invasive pest in the last 16 years and has been causing significant damage to eucalypts (Myrtaceae), including Eucalyptus spp. and Corymbia spp. Its rapid expansion leads to new questions about pathways and routes that T. peregrinus used to invade other continents and countries. We used mtDNA to characterize specimens of T. peregrinus collected from 10 countries where this species has become established, including six recently invaded countries: Chile, Israel, Mexico, Paraguay, Portugal, and the United States of America. We then combined our mtDNA data with previous data available from South Africa, Australia, and Europe to construct a world mtDNA network of haplotypes. Haplotype A was the most common present in all specimens of sites sampled in the New World, Europe, and Israel, however from Australia second more frequently. Haplotype D was the most common one from native populations in Australia. Haplotype A differs from the two major haplotypes found in South Africa (D and G), confirming that at least two independent invasions occurred, one from Australia to South Africa, and the other one from Australia to South America (A). In conclusion, Haplotype A has an invasion success over many countries in the World. Additionally, analyzing data from our work and previous reports, it is possible to suggest some invasive routes of T. peregrinus to predict such events and support preventive control measures. © 2020, The Author(s). MenosABSTRACT.
The bronze bug, Thaumastocoris peregrinus, an Australian native insect, has become a nearly worldwide invasive pest in the last 16 years and has been causing significant damage to eucalypts (Myrtaceae), including Eucalyptus spp. and Corymbia spp. Its rapid expansion leads to new questions about pathways and routes that T. peregrinus used to invade other continents and countries. We used mtDNA to characterize specimens of T. peregrinus collected from 10 countries where this species has become established, including six recently invaded countries: Chile, Israel, Mexico, Paraguay, Portugal, and the United States of America. We then combined our mtDNA data with previous data available from South Africa, Australia, and Europe to construct a world mtDNA network of haplotypes. Haplotype A was the most common present in all specimens of sites sampled in the New World, Europe, and Israel, however from Australia second more frequently. Haplotype D was the most common one from native populations in Australia. Haplotype A differs from the two major haplotypes found in South Africa (D and G), confirming that at least two independent invasions occurred, one from Australia to South Africa, and the other one from Australia to South America (A). In conclusion, Haplotype A has an invasion success over many countries in the World. Additionally, analyzing data from our work and previous reports, it is possible to suggest some invasive routes of T. peregrinus to predict such events and... Presentar Todo |
Palabras claves : |
Thaumastocoris peregrinus. |
Asunto categoría : |
K01 Ciencias forestales - Aspectos generales |
URL : |
http://www.ainfo.inia.uy/digital/bitstream/item/14304/1/s41598-020-60236-7.pdf
https://www.nature.com/articles/s41598-020-60236-7.pdf
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Marc : |
LEADER 02932naa a2200397 a 4500 001 1060919 005 2020-04-21 008 2020 bl uuuu u00u1 u #d 022 $a2045-2322 024 7 $a10.1038/s41598-020-60236-7$2DOI 100 1 $aMACHADO, D.N. 245 $aOne maternal lineage leads the expansion of Thaumastocoris peregrinus (Hemiptera$bThaumastocoridae) in the New and Old Worlds.$h[electronic resource] 260 $c2020 500 $aArticle history: Received 11 July 2019 / Accepted 05 February 2020 / Published 26 February 2020. Corresponding author: Machado, D.N. - email:dayanasmac@gmail.com 520 $aABSTRACT. The bronze bug, Thaumastocoris peregrinus, an Australian native insect, has become a nearly worldwide invasive pest in the last 16 years and has been causing significant damage to eucalypts (Myrtaceae), including Eucalyptus spp. and Corymbia spp. Its rapid expansion leads to new questions about pathways and routes that T. peregrinus used to invade other continents and countries. We used mtDNA to characterize specimens of T. peregrinus collected from 10 countries where this species has become established, including six recently invaded countries: Chile, Israel, Mexico, Paraguay, Portugal, and the United States of America. We then combined our mtDNA data with previous data available from South Africa, Australia, and Europe to construct a world mtDNA network of haplotypes. Haplotype A was the most common present in all specimens of sites sampled in the New World, Europe, and Israel, however from Australia second more frequently. Haplotype D was the most common one from native populations in Australia. Haplotype A differs from the two major haplotypes found in South Africa (D and G), confirming that at least two independent invasions occurred, one from Australia to South Africa, and the other one from Australia to South America (A). In conclusion, Haplotype A has an invasion success over many countries in the World. Additionally, analyzing data from our work and previous reports, it is possible to suggest some invasive routes of T. peregrinus to predict such events and support preventive control measures. © 2020, The Author(s). 653 $aThaumastocoris peregrinus 700 1 $aCOSTA, E.C. 700 1 $aGUEDES, J.V.C. 700 1 $aBARBOSA, L.R. 700 1 $aMARTÍNEZ, G. 700 1 $aMAYORGA, S.I. 700 1 $aRAMOS, S.O. 700 1 $aBRANCO, M. 700 1 $aGARCÍA, A. 700 1 $aVANEGAS-RICO, J.M. 700 1 $aJIMÉNEZ-QUIROZ, E. 700 1 $aLAUDONIA, S. 700 1 $aNOVOSELSKY, T. 700 1 $aHODEL, D.R. 700 1 $aARAKLIAN, G. 700 1 $aSILVA, H. 700 1 $aPERINI, C.R. 700 1 $aVALMORBIDA, I. 700 1 $aUGALDE, G.A. 700 1 $aARNEMANN, J.A. 773 $tScientific Reports, 1 December 2020, Volume 10, Issue 1, Article number 3487. OPEN ACCESS. Doi: https://doi.org/10.1038/s41598-020-60236-7
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INIA Las Brujas (LB) |
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Registro completo
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Biblioteca (s) : |
INIA Treinta y Tres. |
Fecha actual : |
05/07/2018 |
Actualizado : |
25/10/2019 |
Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
Circulación / Nivel : |
Internacional - -- |
Autor : |
ILLARZE, G.; DEL PINO, A.; RICCETTO, S.; IRISARRI, P. |
Afiliación : |
GABRIELA ILLARZE, Laboratorio de Microbiología. Facultad de Agronomía, UDELAR; AMABELIA DEL PINO, Departamento de Suelos y Aguas, Facultad de Agronomía, UDELAR.; SARA MAGDALENA RICCETTO AGUIRREZABALA, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; PILAR IRISARRI, Laboratorio de Microbiología, Facultad de Agronomía, UDELAR. |
Título : |
Emisión de óxido nitroso, nitrificación, desnitrificación y mineralización de nitrógeno durante el cultivo del arroz en 2 suelos de Uruguay = Nitrous oxide emission, nitrification, denitrification and nitrogen mineralization during rice growing season in 2 soils from Uruguay. |
Fecha de publicación : |
2018 |
Fuente / Imprenta : |
Revista Argentina de Microbiología, 2018; 50(1), p. 97-104. |
ISSN : |
0325-7541 |
DOI : |
10.1016/j.ram.2017.05.004 |
Idioma : |
Español |
Notas : |
Historia del artículo: Recibido el 15 de agosto de 2016; aceptado el 9 de mayo de 2017; disponible en Internet el 23 de septiembre de 2017. |
Contenido : |
Abstract
Microbial processes such as mineralization, nitrification and denitrification regulate nitrogen dynamics in the soil. The last two processes may produce nitrous oxide (N2O). In this work N2O fluxes were quantified at four moments of the rice cycle, sowing, tillering, panicle initiation and maturity, in two sites that differed mainly in their soil organic matter (OM) content, Salto (higher OM) and Treinta y Tres. Potential net N mineralization, ammonium oxidation and denitrification as well as the most probable numbers (MPN) of ammonia oxidizers and denitrifiers were determined. Potential N mineralization did not vary with the soil type and increased
at rice maturity. Neither ammonia oxidation potential nor MPN were different among the soils.
However, the soil with higher OM exhibited higher activity and MPN of denitrifiers, irrespective of the rice stage. In turn, at the latest phases of the crop, the MPN of denitrifiers increased coinciding with the highest mineralization potential and mineral N content of the soil. Significant differences in N2O flux were observed in Salto, where the highest emissions were detected at rice maturity, after the soil was drained (44.2 vs 20.8 g N-N2O/ha d in Treinta y Tres). This work shows the importance of considering the soil type and end-of-season drainage of the rice field to elaborate GHGs (greenhouse gases) inventories.
Resumen
Los procesos microbianos como la mineralización, la nitrificación y la desnitrificación regulan la dinámica del nitrógeno en el suelo. Estos 2 últimos son los principales responsables de la emisión de óxido nitroso (N2O). En este trabajo se determinaron los flujos de N2O en momentos clave del ciclo de cultivo del arroz en 2 sitios que diferían principalmente en el contenido de materia orgánica del suelo (MO), en las localidades de Salto (mayor MO) y de Treinta y Tres. Dichos momentos clave fueron a la siembra, en macollaje, en primordio floral y a la madurez. También se determinó el potencial de mineralización neta de N y las actividades y los números más probables (NMP) de oxidantes de NH4 + y de desnitrificantes. El potencial de mineralización de N, así como la actividad y el NMP de oxidantes de NH4 +, no variaron con el tipo de suelo. Sin embargo, la actividad y el NMP de desnitrificantes fueron mayores en el suelo con mayor contenido de MO, independiente de la etapa del cultivo. A su vez, en las etapas finales del ciclo del cultivo, el NMP de desnitrificantes aumentó coincidiendo con el mayor potencial de mineralización y el mayor contenido de N mineral del suelo. Solo se observó un incremento en el flujo de N2O en el suelo de Salto a la madurez del arroz y cuando el suelo ya había sido drenado (44,2 g N-N2O/ha d, frente a 20,8 g N-N2O/ha d en Treinta y Tres). Esta investigación señala la importancia de estudiar las emisiones en distintos tipos de suelos y de continuar la medición luego del drenaje del cultivo de arroz para la elaboración de los inventarios de gases de efecto invernadero. MenosAbstract
Microbial processes such as mineralization, nitrification and denitrification regulate nitrogen dynamics in the soil. The last two processes may produce nitrous oxide (N2O). In this work N2O fluxes were quantified at four moments of the rice cycle, sowing, tillering, panicle initiation and maturity, in two sites that differed mainly in their soil organic matter (OM) content, Salto (higher OM) and Treinta y Tres. Potential net N mineralization, ammonium oxidation and denitrification as well as the most probable numbers (MPN) of ammonia oxidizers and denitrifiers were determined. Potential N mineralization did not vary with the soil type and increased
at rice maturity. Neither ammonia oxidation potential nor MPN were different among the soils.
However, the soil with higher OM exhibited higher activity and MPN of denitrifiers, irrespective of the rice stage. In turn, at the latest phases of the crop, the MPN of denitrifiers increased coinciding with the highest mineralization potential and mineral N content of the soil. Significant differences in N2O flux were observed in Salto, where the highest emissions were detected at rice maturity, after the soil was drained (44.2 vs 20.8 g N-N2O/ha d in Treinta y Tres). This work shows the importance of considering the soil type and end-of-season drainage of the rice field to elaborate GHGs (greenhouse gases) inventories.
Resumen
Los procesos microbianos como la mineralización, la nitrificación y la desnitrificación regulan la ... Presentar Todo |
Palabras claves : |
ACTIVIDAD MICROBIANA; AMMONIA OXIDATION; ARROZAL; DENITRIFICATION; DESNITRIFICACIÓN; NITROUS OXIDE; OXIDACIÓN DEL AMONIO; POTENTIAL MICROBIAL ACTIVITY; RICE FIELD. |
Thesagro : |
OXIDO NITROSO; PROCESOS MICROBIANOS. |
Asunto categoría : |
F01 Cultivo |
Marc : |
LEADER 04316naa a2200325 a 4500 001 1058788 005 2019-10-25 008 2018 bl uuuu u00u1 u #d 022 $a0325-7541 024 7 $a10.1016/j.ram.2017.05.004$2DOI 100 1 $aILLARZE, G. 245 $aEmisión de óxido nitroso, nitrificación, desnitrificación y mineralización de nitrógeno durante el cultivo del arroz en 2 suelos de Uruguay = Nitrous oxide emission, nitrification, denitrification and nitrogen mineralization during rice growing season in 2 soils from Uruguay.$h[electronic resource] 260 $c2018 500 $aHistoria del artículo: Recibido el 15 de agosto de 2016; aceptado el 9 de mayo de 2017; disponible en Internet el 23 de septiembre de 2017. 520 $aAbstract Microbial processes such as mineralization, nitrification and denitrification regulate nitrogen dynamics in the soil. The last two processes may produce nitrous oxide (N2O). In this work N2O fluxes were quantified at four moments of the rice cycle, sowing, tillering, panicle initiation and maturity, in two sites that differed mainly in their soil organic matter (OM) content, Salto (higher OM) and Treinta y Tres. Potential net N mineralization, ammonium oxidation and denitrification as well as the most probable numbers (MPN) of ammonia oxidizers and denitrifiers were determined. Potential N mineralization did not vary with the soil type and increased at rice maturity. Neither ammonia oxidation potential nor MPN were different among the soils. However, the soil with higher OM exhibited higher activity and MPN of denitrifiers, irrespective of the rice stage. In turn, at the latest phases of the crop, the MPN of denitrifiers increased coinciding with the highest mineralization potential and mineral N content of the soil. Significant differences in N2O flux were observed in Salto, where the highest emissions were detected at rice maturity, after the soil was drained (44.2 vs 20.8 g N-N2O/ha d in Treinta y Tres). This work shows the importance of considering the soil type and end-of-season drainage of the rice field to elaborate GHGs (greenhouse gases) inventories. Resumen Los procesos microbianos como la mineralización, la nitrificación y la desnitrificación regulan la dinámica del nitrógeno en el suelo. Estos 2 últimos son los principales responsables de la emisión de óxido nitroso (N2O). En este trabajo se determinaron los flujos de N2O en momentos clave del ciclo de cultivo del arroz en 2 sitios que diferían principalmente en el contenido de materia orgánica del suelo (MO), en las localidades de Salto (mayor MO) y de Treinta y Tres. Dichos momentos clave fueron a la siembra, en macollaje, en primordio floral y a la madurez. También se determinó el potencial de mineralización neta de N y las actividades y los números más probables (NMP) de oxidantes de NH4 + y de desnitrificantes. El potencial de mineralización de N, así como la actividad y el NMP de oxidantes de NH4 +, no variaron con el tipo de suelo. Sin embargo, la actividad y el NMP de desnitrificantes fueron mayores en el suelo con mayor contenido de MO, independiente de la etapa del cultivo. A su vez, en las etapas finales del ciclo del cultivo, el NMP de desnitrificantes aumentó coincidiendo con el mayor potencial de mineralización y el mayor contenido de N mineral del suelo. Solo se observó un incremento en el flujo de N2O en el suelo de Salto a la madurez del arroz y cuando el suelo ya había sido drenado (44,2 g N-N2O/ha d, frente a 20,8 g N-N2O/ha d en Treinta y Tres). Esta investigación señala la importancia de estudiar las emisiones en distintos tipos de suelos y de continuar la medición luego del drenaje del cultivo de arroz para la elaboración de los inventarios de gases de efecto invernadero. 650 $aOXIDO NITROSO 650 $aPROCESOS MICROBIANOS 653 $aACTIVIDAD MICROBIANA 653 $aAMMONIA OXIDATION 653 $aARROZAL 653 $aDENITRIFICATION 653 $aDESNITRIFICACIÓN 653 $aNITROUS OXIDE 653 $aOXIDACIÓN DEL AMONIO 653 $aPOTENTIAL MICROBIAL ACTIVITY 653 $aRICE FIELD 700 1 $aDEL PINO, A. 700 1 $aRICCETTO, S. 700 1 $aIRISARRI, P. 773 $tRevista Argentina de Microbiología, 2018; 50(1), p. 97-104.
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