5.5. Latin America
There is ample evidence of climate variability at a wide range of time scales
all over Latin America, from intraseasonal to long-term. In many subregions
of Latin America, this variability in climate normally is associated with phenomena
that already produce impacts with important socioeconomic and environmental
consequences that could be exacerbated by global warming and its associated
weather and climate changes.
Variations in precipitation have a strong effect on runoff and streamflow,
which are simultaneously affected by melting of glaciers and snow. Precipitation
variations and their sign depend on the geographical subregion under consideration.
Temperature in Latin America also varies among subregions. Although these variations
might depend on the origin and quality of the source data as well as on the
record periods used for studies and analyses, some of these variations could
be attributed to a climate change condition (low confidence). [14.1.2.1]
ENSO is responsible for a large part of the climate variability at interannual
scales in Latin America (high confidence). The region is vulnerable to El
Niño, with impacts varying across the continent. For example, El Niño
is associated with dry conditions in northeast Brazil, northern Amazonia, the
Peruvian-Bolivian Altiplano, and the Pacific coast of Central America. The most
severe droughts in Mexico in recent decades have occurred during El Niño
years, whereas southern Brazil and northwestern Peru have exhibited anomalously
wet conditions. La Niña is associated with heavy precipitation and flooding
in Colombia and drought in southern Brazil. If El Niño or La Niña
were to increase, Latin America would be exposed to these conditions more often.
[14.1.2]
Some subregions of Latin America frequently experience extreme events, and
these extraordinary combinations of hydrological and climatic conditions historically
have produced disasters in Latin America. Tropical cyclones and associated heavy
rain, flooding, and landslides are very common in Central America and southern
Mexico. In northwestern South America and northeastern Brazil, many of the extremes
that occur are strongly related to El Niño. [14.1.2]
5.5.1. Water Resources
It has been well established that glaciers in Latin America have receded
in the past several decades. Warming in high mountain regions could lead to
disappearance of significant snow and ice surface (medium confidence), which
could affect mountain sport and tourist activities. Because these areas contribute
to river streamflow, this trend also would reduce water availability for irrigation,
hydropower generation, and navigation. [14.2.4]
5.5.2. Ecosystems
It is well established that Latin America accounts for one of the Earth's
largest concentrations of biodiversity, and the impacts of climate change can
be expected to increase the risk of biodiversity loss (high confidence).
Observed population declines in frogs and small mammals in Central America can
be related to regional climate change. The remaining Amazonian forest is threatened
by the combination of human disturbance, increases in fire frequency and scale,
and decreased precipitation from evapotranspiration loss, global warming, and
El Niño. Neotropical seasonally dry forest should be considered severely
threatened in Mesoamerica.
Tree mortality increases under dry conditions that prevail near newly formed
edges in Amazonian forests. Edges, which affect an increasingly large portion
of the forest because of increased deforestation, would be especially susceptible
to the effects of reduced rainfall. In Mexico, nearly 50% of the deciduous tropical
forest would be affected. Heavy rain during the 1997-1998 ENSO event generated
drastic changes in dry ecosystems of northern Peru's coastal zone. Global warming
would expand the area suitable for tropical forests as equilibrium vegetation
types. However, the forces driving deforestation make it unlikely that tropical
forests will be permitted to occupy these increased areas. Land-use change interacts
with climate through positive-feedback processes that accelerate loss of humid
tropical forests. [14.2.1]
5.5.3. Sea-Level Rise
Sea-level rise will affect mangrove ecosystems by eliminating their present
habitats and creating new tidally inundated areas to which some mangrove species
may shift. This also would affect the region's fisheries because most commercial
shellfish and finfish use mangroves for nurseries and refuge. Coastal inundation
that stems from sea-level rise and riverine and flatland flooding would affect
water availability and agricultural land, exacerbating socioeconomic and health
problems in these areas. [14.2.3]
5.5.4. Agriculture
Studies in Argentina, Brazil, Chile, Mexico, and Uruguaybased on GCMs
and crop modelsproject decreased yields for numerous crops (e.g., maize,
wheat, barley, grapes) even when the direct effects of CO2 fertilization and
implementation of moderate adaptation measures at the farm level are considered
(high confidence). Predicted increases in temperature will reduce crops
yields in the region by shortening the crop cycle. Over the past 40 years, the
contribution of agriculture to the GDP of Latin American countries has been
on the order of 10%. Agriculture remains a key sector in the regional economy
because it employs 30-40% of the economically active population. It also
is very important for the food security of the poorest sectors of the population.
Subsistence farming could be severely threatened in some parts of Latin America,
including northeastern Brazil.
It is established but incomplete that climate change would reduce silvicultural
yields because lack of water often limits growth during the dry season, which
is expected to become longer and more intense in many parts of Latin America.
Table TS-11 summarizes studies undertaken on the region
for different crops and management conditions, all under rainfed conditions;
most of these results predict negative impacts, particularly for maize. [14.2.2]
Table TS-11: Assessments of climate change impacts
on annual crops in Latin America. |
|
Studya |
Climate Scenario
|
Scope
|
Crop
|
Yield Impact (%)
|
|
Downing, 1992 |
+3ºC
-25% precipitation
|
Norte Chico,
Chile
|
Wheat
|
decrease
|
Maize
|
increase
|
Potato
|
increase
|
Grapes
|
decrease
|
Baethgen, 1994 |
GISS, GFDL, UKMO
|
Uruguay
|
Wheat
|
-30
|
Barley
|
-40 to -30
|
de Siqueira et al., 1994 |
GISS, GFDL, UKMO
|
Brazil
|
Wheat
|
-50 to -15
|
Maize
|
-25 to -2
|
Soybeans
|
-10 to +40
|
Liverman and O' Brien, 1991 |
GFDL, GISS
|
Tlaltizapan,
Mexico
|
Maize
|
-20
|
-24
|
-61
|
Liverman et al., 1994 |
GISS, GFDL, UKMO
|
Mexico
|
Maize
|
-61 to -6
|
Sala and Paruelo, 1994 |
GISS, GFDL, UKMO
|
Argentina
|
Maize
|
-36 to -17
|
Baethgen and Magrin, 1995 |
UKMO
|
Argentina
Uruguay
(9 sites)
|
Wheat
|
-5 to -10
|
Conde et al., 1997a |
CCCM, GFDL
|
Mexico
(7 sites)
|
Maize
|
increase-decrease
|
Magrin et al., 1997a |
GISS, UKMO,
GFDL, MPI
|
Argentina
(43 sites)
|
Maize
|
-16 to +2
|
Wheat
|
-8 to +7
|
Sunflower
|
-8 to +13
|
Soybean
|
-22 to +21
|
Hofstadter et al., 1997 |
Incremental
|
Uruguay
|
Barley
|
-10b
-8 to +5c
|
|
|
|
Maize
|
-15d
-13 to +10c
|
|
5.5.5. Human Health
The scale of health impacts from climate change in Latin America would depend
primarily on the size, density, location, and wealth of populations. Exposure
to heat or cold waves has impacts on mortality rates in risk groups in the region
(medium confidence).
Increases in temperature would affect human health in polluted cities such
as Mexico City and Santiago, Chile. It is well established that ENSO causes
changes in disease vector populations and in the incidence of water-borne diseases
in Brazil, Peru, Bolivia, Argentina, and Venezuela. Studies in Peru and Cuba
indicate that increases in temperature and precipitation would change the geographical
distribution of infectious diseases such as cholera and meningitis (high confidence),
although there is speculation about what the changes in patterns of diseases
would be in different places. It is well established that extreme events tend
to increase death and morbidity rates (injuries, infectious diseases, social
problems, and damage to sanitary infrastructure), as shown in Central America
with Hurricane Mitch in 1998, heavy rains in Mexico and Venezuela in 1999, and
in Chile and Argentina in 2000. [14.2.5]
|