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CLIMATE CHANGE IN THE LA PLATA BASI
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INDEX FOREWORD . . . . . . . . . .
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7.3. Methodology . . . . . . . . .
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13.3. Regional validation of GCM fo
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1.1. Dropping the hypothesis of sta
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Introduction as they pour water ove
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A better understanding of the obser
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References Introduction Barros, V.
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ABSTRACT The hydrologic cycle of th
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La Plata basin climatology Within t
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in this last description, although
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warm season (October-April), in the
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La Plata basin climatology b. Upper
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La Plata basin climatology 2.3.3. R
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La Plata basin climatology Fig. 2.8
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2.3.7. West and South borders La Pl
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References La Plata basin climatolo
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La Plata basin climatology Robertso
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3.1. Introduction Interannual low f
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Interannual low frequency variabili
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1989). This signal varies along eac
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Interannual low frequency variabili
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The main physiographic and hydrolog
- Page 47 and 48: SUB-BASIN COUNTRY Argentina Bolivia
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- Page 51 and 52: Physiography and Hydrology The Para
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- Page 59 and 60: Physiography and Hydrology tion of
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- Page 63 and 64: 5.1. Introduction Precipitation and
- Page 65 and 66: From 1956 to 1991, in most of the A
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- Page 69 and 70: Regional precipitation trends 5.3.2
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- Page 73 and 74: trast, other regions suffer floodin
- Page 75 and 76: ABSTRACT The main hydrological tren
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- Page 79 and 80: In the case of the Paraná River th
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- Page 83 and 84: Hydrological trends In table 6.1 it
- Page 85 and 86: Hydrological trends On the other ha
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- Page 91 and 92: Real evaporation trends a) PET > Pi
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- Page 103 and 104: 7.5. Discussion and final comments
- Page 105 and 106: ABSTRACT The water, as resource, is
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- Page 115 and 116: (chapters 12 and 13), because of th
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- Page 119 and 120: 9.1. Introduction The emissions of
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- Page 123 and 124: Temperature anomalies (°C) 0.8 0.6
- Page 125 and 126: Global climatic change at a global
- Page 127 and 128: In view of the unavoidability of th
- Page 129 and 130: Background on other regional aspect
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- Page 143 and 144: Global climate models Mid-1970’s
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Although changes in weather and cli
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Socio-economic variables and also s
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Applicability in impact assessments
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of the global climate system to the
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Climate scenarios B2: Assumes a wor
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Climate scenarios The reliability o
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Climate scenarios From Table 12.2 i
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Climate scenarios Fig. 12.5. The mu
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Climate scenarios this would be rel
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Results of global circulation model
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13.2.3. Statistical downscaling The
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La Plata basin are also considerabl
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10 N EQ 10 S 20 S 30 S 40 S 50 S 10
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Regional climatic scenarios Fig. 13
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a. Pre-industrial experiment: Initi
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Regional climatic scenarios Fig. 13
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Regional climatic scenarios Fig. 13
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Regional climatic scenarios Kalnay,
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Low-frequency variability 14.1. Bac
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egime occurred during the periods o
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Fig. 14.2. As Fig. 14.1, except for
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14.4. SST composites Low-frequency
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Low-frequency variability during th
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Fig. 14.10. As Fig. 14.9, except fo
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Low-frequency variability In genera
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Low-frequency variability Mantua, N
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15.1. Introduction Statistical anal
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Statistical analysis of extreme eve
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Statistical analysis of extreme eve
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Statistical analysis of extreme eve
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Statistical analysis of extreme eve
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Statistical analysis of extreme eve
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Statistical analysis of extreme eve
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Statistical analysis of extreme eve
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CURRÍCULA OF THE AUTHORS Vicente B
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Curricula of the autors Rubén Mari
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Proyect: SGP II 057: “Trends in t