Some precipitation patterns that affect agricultural practices in the plains of Buenos Aires (Argentina)

Rolla, A.L.; González, M.H.

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Rolla, A.L.; González, M.H. "Some precipitation patterns that affect agricultural practices in the plains of Buenos Aires (Argentina)" (2018) Agricultural Research Updates. 22:209-238

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Abstract:

The Buenos Aires plain in central-east Argentina generates economic resources based on agriculture, which is strongly influenced by precipitation. In this work factors of different rainfall interannual variability have been studied using monthly precipitation in 22 stations for the period 1950-2012. They showed that it depends heavily on the area and the season. El Niño, El Niño Modoki, the positive phase of the Indian Ocean Dipole and the shift to the south of the South Atlantic High are related to an increase of spring precipitation in central Buenos Aires. The weakening of westerlies associated with the negative phase of the Antarctic Oscillation and the weakening of the South Atlantic High favor the autumn precipitation in the east of the province. The positive phase of the Antarctic Oscillation and the intensification of the South Atlantic High is are associated with increased the increased winter precipitation in central and northwestern Buenos Aires. © 2018 Nova Science Publishers, Inc. All rights reserved.

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Documento:	Parte de libro
Título:	Some precipitation patterns that affect agricultural practices in the plains of Buenos Aires (Argentina)
Autor:	Rolla, A.L.; González, M.H.
Filiación:	Departamento de Ciencias de la Atmósfera y los Océanos, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires, Argentina Centro de Investigaciones del Mar y la Atmósfera, CONICET-UBA, Buenos Aires, Argentina
Palabras clave:	Buenos Aires; Climate; Precipitation; Trends; Variability
Año:	2018
Volumen:	22
Página de inicio:	209
Página de fin:	238
Título revista:	Agricultural Research Updates
Título revista abreviado:	Agric. Res. Updat.
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97815361_v22_n_p209_Rolla

Referencias:

Ashok, K., Behera, S., Rao, S., Weng, H., Yamagata, T., El Nino Modoki and its possible teleconnection (2007) J. Geophys. Res, 112
Barreiro, M., Influence of ENSO and The South Atlantic Ocean on climate predictability over Southeastern South America (2010) Clim. Dyn, 35, pp. 1493-1508
Barros, V., Doyle, M., Camilloni, I., Precipitation trends in southeastern South America: relationship with ENSO phases and the low-level circulation. Theoretical and Appl (2008) Climatology, 93 (1-2), pp. 19-33
Blackman, R.B., Tukey, J.W., (1958) The measurement of power spectra from the point of view of communication engineering, , Dover Publications
Bombardi, R.J., Carvalho, L.M., Jones, C., Reboita, M.S., Precipitation over eastern South America and the South Atlantic Sea surface temperature during neutral ENSO periods (2014) Clim. Dyn, 42, pp. 1553-1568
Chan, S.C., Behera, S.K., Yamagata, T., Indian Ocean Dipole influence on South American rainfall (2008) Geophys. Res. Lett, 35
Drummond, A.R., Ambrizzi, T., The role of the South Indian and Pacific Oceans in South American monsoon variability. Theoretical and Appl (2008) Climatology, 94, pp. 125-137
Garbarini, E., Skansi, M., Gonzalez, M.H., Rolla, A.L., ENSO Influence over Precipitation in Argentina (2016), 52. , Advances in Environmental Research, Chapter 7, NOVA Publisher, NY, USA; González, M.H., Vera, C.S., On the interannual winter rainfall variability in Southern Andes (2010) International Journal of Climatology, 30, pp. 643-657
González, M.H., Skansi, M.M., Losano, F., A statistical study of seasonal winter rainfall prediction in the Comahue region (Argentine) (2010) ATMOSFERA, 23 (3), pp. 277-294
González, M.H., Domínguez, D., Statistical Prediction of wet and dry periods in the Comahue Region (Argentina) (2012) Atmospheric and Climate Sciences, 2 (1). , 2160-0414
González, M.H., Domínguez, D., Núñez, M., (2012) Long term and interannual rainfall variability in Argentinean Chaco plain region, , Rainfall: Behavior, Forecasting and Distribution, Chapter 4876, Nova Science Publishers Inc
González, M.H., Cariaga, M.L., Skansy, M.M., Some factors that influence precipitation in Argentinean Chaco (2012) Advances in Meteorology, 2012. , 359164
González, M.H., (2013) Some indicators of interannual rainfall variability in Patagonia (Argentine), , Climate Variability- Regional and Thematic Patterns, Chapter 6. Intech
González, M.H., Statistical seasonal rainfall forecast in Neuquen river basin (Comahue Region, Argentina) (2015) Climate, 3, pp. 349-364
González, M.H., Garbarini, E.M., Rolla, A.L., Eslamian, S., Meteorological Drought Indices: Rainfall Prediction in Argentina en Handbook of Drought and Water Scarcity (2016), 1, pp. 540-567. , Principle of Drought and Water Scarcity, Chapter 29, Taylor& Francis Publishing (CRC Group), Abingdon, United Kingdom; Grimm, A., Barros, V., Doyle, M., Climate variability in Southern South America associated with El Niño and La Niña events (2002) J. Climate, 13, pp. 35-58
Kidson, J., Principal modes of southern hemisphere low frequency variability obtained from NCEP-NCAR reanalysis (1999) J. Climate, 1, pp. 1177-1198
Liebmann, B., Vera, C.S., Carvalho, L., Camilloni, I., Hoerling, M., Allured, D., Barros, V., Bidegain, M., An Observed Trend in Central South American Precipitation (2004) J. Climate, 17 (22), pp. 4357-4367
Mitchell, J.M., Dzerdzeevsku, B., Flohn, H., Lamb, H.H., Rao, K.N., Wallín, C.C., (1971) Climatic Change, , OMM, Technical Note No 79
Mo, K.C., Relationships between low frequency variability in the Southern Hemisphere and sea surface temperature anomalies (2000) J. Climate, 13, pp. 3599-3610
Nan, S., Li, J., The relationship between summer precipitation in the Yangtse River Valley and the previous Southern Hemisphere Annular Mode (2003) Geophys. Res. Lett, 30 (24), p. 2266
Nnamchi, H.C., Li, J.P., Anyadike, R.N., Does a dipole mode really exist in the South Atlantic Ocean? (2011) J. Geophys. Res, 116
Nogues Paegle, J., Mo, K.C., Linkages between Summer Rainfall Variability over South America and Sea Surface Temperature Anomalies (2002) J. Climate, 15, pp. 1389-1407
Penalba, O., Rivera, J., Pántano, V., Bettolli, M., Extreme rainfall, hydric conditions and associated atmospheric circulation in the southern La Plata Basin (2016) Climate Research, 68, pp. 215-229
Penalba, O., Rivera, J., Precipitation response to El Niño/La Niña events in Southern South America - emphasis in regional drought occurrences (2016) Advances in Geosciences, 42, pp. 1-14. , www.advgeosci.net/42/1/2016/, 2016
Reboita, M.S., Ambrizzi, T., Da Rocha, R.P., Relationship between the Southern Annular Mode and the Southern Hemisphere Atmospheric Systems (2009) Revista Brasileira de Meteorología, 24 (1), pp. 48-55
Saji, N.H., Goswami, B.N., Vinayachandran, P.N., Yamagata, T., A Dipole Mode in the tropical Indian Ocean (1999) Nature, 401 (23), pp. 360-363
Saurral, R., Camilloni, I., Barros, V., Low-frequency variability and trends in centennial precipitation stations in southern South America (2016) Int. J. Climatol., Wiley Online Library
Silvestri, G., Vera, C., Antarctic Oscillation signal on precipitation anomalies over southeastern South America (2003) Geophysical Research Letters, 30 (21), p. 2115
Taschetto, A.S., Ambrizzi, T., Can Indian Ocean SST anomalies influence South America precipitation? (2012) Clim. Dyn, 38, pp. 1615-1628
Thompson, D.W., Wallace, J.M., Annular modes in the extratropical circulation. Part I: month-to-month variability (2000) J. Climate, 13, pp. 1000-1016
Vera, C., Silvestri, G., Barros, V., Carril, A., Differences in El Niño response in the Southern Hemisphere (2004) J. Climate, 17 (9), pp. 1741-1753
Weng, H., Wu, G., Lui, Y., Behera, S., Yamagata, T., Anomalous summer climate in China influenced by the tropical Indo-Pacific Oceans (2011) Clim. Dyn, 2011 (36), pp. 769-782
Wang, H., Murtugudde, R., Kumar, A., Evolution of the Indian Ocean dipole and its forcing mechanisms in the absence of ENSO (2016) Clim. Dyn, , in press
Wang, X., Wang, C., Different impacts of various El Nino events on the Indian Ocean dipole (2014) Clim. Dyn, 42, pp. 991-1005

Citas:

---------- APA ----------

Rolla, A.L. & González, M.H. (2018) . Some precipitation patterns that affect agricultural practices in the plains of Buenos Aires (Argentina). Agricultural Research Updates, 22, 209-238.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97815361_v22_n_p209_Rolla [ ]

---------- CHICAGO ----------

Rolla, A.L., González, M.H. "Some precipitation patterns that affect agricultural practices in the plains of Buenos Aires (Argentina)" . Agricultural Research Updates 22 (2018) : 209-238.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97815361_v22_n_p209_Rolla [ ]

---------- MLA ----------

Rolla, A.L., González, M.H. "Some precipitation patterns that affect agricultural practices in the plains of Buenos Aires (Argentina)" . Agricultural Research Updates, vol. 22, 2018, pp. 209-238.
Recuperado de https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97815361_v22_n_p209_Rolla [ ]

---------- VANCOUVER ----------

Rolla, A.L., González, M.H. Some precipitation patterns that affect agricultural practices in the plains of Buenos Aires (Argentina). Agric. Res. Updat. 2018;22:209-238.
Available from: https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_97815361_v22_n_p209_Rolla [ ]