climate of amazonia: from interannual variability to climate...
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Foreign & Commonwealth
Office
Climate of Amazonia: From interannualvariability to Climate Change
Jose A. MarengoCPTEC/INPE
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Importance of the Amazon region as one of the major controls on the functioning ofclimate in the tropics and the world.
The largest fresh water reservoir and moisture source for other regions outideAmazonia (Ex. Southeastern South America)
Largest biodiversity in the world
Seasonal, interannual, interdecadal and long term climate variability
Climate and hydrology affected “ regularly” by el Nino and the SST conditions in the tropical Atlantic
Drought of 2005 was not related to El Niño but to the anomalously warm tropical North Atlantic. Not all El Nino produced drought and not all drought events are related to El Nino.
Is the drought of 2005 indication of climate change due to global warming?, deforestation and land use changes?, or it is due to interdecadal variability –relatedto natural climate variability?: Hard to attribute deforestation as cause of thisdrought
Climate change and Amazonia: Affected by na extended El Nino?, Savannization?,
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Changes in temperature (C )
Chan
ges
in p
r eci
p it a
t ion
(m
m/ d
ay)
-1 0 +1 +2 +3
+1 +0.5 0 -0.5 -1 -1.5
PL94a
DeforestationDeforestation+2C02
SUD90
WARMER/DRIER
NEP99
LR93
SHU96
LR97COS20
DHS88
LW89
LE96
SHN91
SUD96
HS93
PL94bMAN96
HAH97
DK92
HD95
Scatter Plot of changes in temperatureand precipitation due to deforestationin the Amazon basin (from modelingexperiments: Marengo & Nobre 2001, D’Almeida 2002)
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Dettinger et al. (2000)
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Interannualvariability of rainfall anomalies in Amazonia-Tocantins
(Ronchail et al 2002)
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4. Interannual/interdecadal variability
Neutral El Niño - Neutral La Niña - Neutral
Wet season
Dry season
Foley et al. (2002)
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(Marengo et al. 2000)
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-3
-2
-1
0
1
2
3
1 13 25 37 49 61
1950
1960
1970
1980
1990
1930
1940
1950
1960
1970
1980
1990
1940
1950
1960
1970
1980
1990
1930
1940
-3
-2
-1
0
1
2
3
Northern Amazonia Rainfall Index (NAR)
Southern Amazonia Rainfall Index (SAR)
A
B
Marengo (2004) TACMarengo (2004) TAC
Drought 2005
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Time series of bimonthly SST anomalies since 1920. Series are for the Niño3.4region, the tropical North and South Atlantic, as well as the gradient between tropicalNorth and South Atlantic SSTs. Anomalies are with relation to the 1961-90 period.Boxes indicate years with drought in Amazonia.
(Marengo et al. 2007)
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Monthly rainfall anomaly maps for tropical South America from November 2004 to December 2005. Values as shown as deviations from the 1961-1990 long termmean. Red/blue colors indicate negative/positive rainfall anomalies. Units are in mm/month.
GPCC-Monitoring product available at 1.0° latitude/longitude
(Marengo et al. 2007)
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Rio Negro at Manaus- Dry years (anomalies)0
5
10
15
20
25
30
S O N D J F M A M J J A
Wat
er le
vel (
m)
MLT2004-051925-261963-641982-831997-98
Rio Amazonas-Iquitos (Water levels)102
104
106
108
110
112
114
116
118
S O N D J F M A M J J AMonths
m.a
.s.l
LMT2004-05
(Marengo et al. 2007)
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Zeng et al. 2007
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Negro River water levels at Manaus (in m) in the Manaus station, Brazil, during the peak waterlevel season in June-July (black lines) and the low water level season in September-October(grey lines). Full/thin broken lines represent the mean/+ 1.5 s. The number indicates yearswhere the levels reached values lower than 1.5 s. Asterisks depict El Niño years
(Marengo et al. 2007)
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Relative Humidity (RH) Anomalies(%)
-8
-6
-4
-2
0
2
4
6
8
Jan-04 Apr-04 Jul-04 Oct-04 Jan-05 Apr-05 Jul-05 Oct-05 Jan-06
norte
sul
In southern Amazonia, starting in June RH anomalies reach up to 8% bellow normal, indicating dryer air (and warmer) and establishing conditions for favoring occurrence and propagation ofn fire due to the drying up of the dead biomass.
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Cascade effects of climate variability and change in the Amazon Basin, thataffect society and biodiversity (Source: D. Nepstad, WHRC).
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Urban development in the city of Manaus (Freitas 2006)
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Anomalias regionais da temperatura (ºC) de 6 modelos de IPCC TAR
mm
/dia
mm
/dia
mm
/dia
IPCC TAR (Marengo 2007)Air Temperature, A2
IPCC TAR (Marengo 2007)Air Temperature, B2
IPCC TAR (Marengo 2007)Rainfall, A2
IPCC TAR (Marengo 2007)Chuva, B2
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Modelos do IPCC: HadCM3
RegCM3
Downscaling IPCC Scenarios
A2, B2
HadRM3 Eta/CPTEC
Regional models
Climatology1961-90
PROBIO-IPCC Global models ised: IPCC TAR (HadCM3)-Version 1
Maps of climate anomalies, and
indices of extremes (Regional
multimodelensemble)
2071-2100, A2, B2
Climatology regional model
1961-90
Climate anomalies (future-present), from regional mulimodelensemble Time slices 2071-2100, A2, B2
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Impacts of climate change
Downscaling (40-50 km)RCM (Eta, RegCM3,HadRM3)
Vulnerability Assessments
Adaptation and mitigation measures
Detection and attribution
IPCC global models (HadAM3P)
Capacity building
Socieconomic development
Users and decision makers government
and policy makers society, NGO, academics
Development and Applications
Products: (Paper, digital and GIS)-Maps of climate change projections for time slices, A2, B2 (and uncertainties)-Reports, publications…. ..
Regional climate changescenarios: A2, B2, 2071-2100
and other time slices,3 regional models
-Science-Training and capacity
building
Applications for impacts and vulnerability studies
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Rainfall anomalies (mm/day) (Annual) [(2071-2100)- (1961-90)]
A2
A2
Temperature anomalies (C) Annual [(2071-2100)- (1961-90)]
B2
B2
Dry
DryDry
Dry
Warm Warm
B2
B2
A2
A2
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Rainfall anomalies (mm/day)-DJF- [(2071-2100)- (1961-90)]
Temperature anomalies (C) DJF - [(2071-2100)- (1961-90)]
Dry
DryDry
Dry
A2B2B2 A2
A2B2B2 A2
Warm Warm
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Rainfall anomalies(mm/day) SON [(2071-2100)- (1961-90)]
Temperature anomalies ( C) SON [(2071-2100)- (1961-90)]
DryDry
Dry
A2B2B2 A2
Warm Warm
A2B2B2 A2
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.
Chapter 10
Consecutive dry daysWet days rainfall index
(2080–2099 minus 1980–1999)A1B scenario
Multimodel ensemble IPCC AR4
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1961-90 2071-2100, B2 2071-2100, A2
Increase in the frequency ofwarm nights until 2100
Warm nights index (TN90) [(2071-2100)- (1961-90)]
Increase in the frequency ofwarm nights during 1961-
2000
HadRM3
OBSV
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Increase in the frequency ofintense rainfall events until
2100
Intense rainfall index ( R10) [(2071-2100)- (1961-90)]
Increase in the frequency ofintense rainfall events during
1961-2000
OBSV
1961-90 2071-2100, B2 2071-2100, A2HadRM3
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Increase in the frequency ofconsecutive dry days until
2100
Consecutive dry days index (CDD) [(2071-2100)- (1961-90)]
Reduction in the frequencyof consecutive dry days
during 1961-2000
OBSV
1961-90 2071-2100, B2 2071-2100, A2HadRM3
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The aggregated CCI (Climate Change index) on a grid basis for SouthAmerica, for the 2071-2100 period in relation to 1961-90. (Baettig et al. 2007).
Regions more vulnerable to Climate Change
The CCI indicates that climate will changemost strongly relative to today’s natural variability in thetropics. The high CCI-values in the tropicsare caused by precipitation changes butalso seasonal temperature events.Concerning strong temperature changes, it has tobe noted that in the tropics the hot temperature indicator responds more strongly to absolute changes in mean thanelsewhere, because natural temperaturevariability is much smaller in the tropicsthan in higher latitudes.According to the CCI, climate is expectedto change more strongly relative to today’s natural variability in these more vulnerablecountries than in many countries with a high HDI and thus lower vulnerability.
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NORTHEAST BRAZILA2: 2-4 C warmer, 15-20% less rainfall. B2: 1-3 C warmer, 10-15 % less rainfallPossible impacts: High frequency ofdry spells and evaporation rates andlow soil moisture levels affecting levelsof channels and reservoirs. Losses in natural ecosystems caatinga.Tendencytowards aridization and desertificationin the semiarid region. Water scarsity. Waves of climate refugees migratingtowards large cities agravating social problems. Impacts on human health
AMAZON REGIONA2: 4-8 C warmer, 15-20% less rainfall. B2: 3-5 C warmer, 5-15 % less rainfallPossible impacts: High frequency of dry spells in easternAmazonia and intense rainfall events in western Amazonia, losses in natural ecosystems, rain forest and biodiversity. Low river levels affecting transportation and commerce. Possible impacts on moisture transport and rainfall in Southeastern South America. Impacts on hydroelectricgeneration. More favorable conditions for spread of forestfires. Impacts on health and commerce due to smoke.
Summary of future climate change scenarios for the end of the XXI Century and possible impacts in Brazil
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Large sections of the occidental Amazon region experienced intense droughtepisodes during the last 100 years. Ocurrence of El Nino has been blamed to drought events in the past, as in 1926, 1983 and 1998. Less than 40% of rainfallvariability in North and Central Amazonia is due to tropical Pacific variability
There is a positive trend in the SST in the tropical North Atlantic (about 0.6 C in thelast 50 years) super-imposed to decadal and interannual variability. Humaninfluences have been detected in global and regional warming, together withnatural climate variability.
In the future: More El Ninõs or El Nino like warming, leading to drought and more fires? (uncertainties are still high).
One El Nino event should not be used as analogue for long term climate changedue to global warming.
Regional climate change projections: Worse scenario: 6-8 C warmer, 15-25% lesshumid, more extreme rainfall events and dry spells, dryier air and favorableconditions for forest fires.
Fact: Future climate change projections due to the increase in the concentration ofGHG, they do not consider directly deforestation and land use change produced byhumans.