POLICY RESEARCH WORKING PAPER  11304:
Informal Gold Mining and                                               The gold rush in the Amazon
region is creating serious
Mercury Pollution in Brazil                                             environmental problems that
imperil future generations.
Dan Biller                                                             - Mercury pollution is a
particularly serious problem
that should be addressed
through an education
campaign, through the use of
more appropriate (and
inexpensive) extraction
technologies, and through an
effective combination of
command and control
measures and market-based
incentives.
The World Bank
Policy Research Department
Public Econormics Division
May 1994



POLICY RESEARCH WORKING PAPER 1304
Summary findings
The Amazon region has been responsible for a major         generations, because of natural chemical processes.
share of Brazilian gold production in recent years. The    Although removing the mercury already discharged from
region has witnessed a sizable gold rush comparable only    the Amazonian environment may be an enormous task,
to the California gold rush last century. The gold rush    at least future discharges should be curtailed through the
has spawned a powerful informal mining sector and has      use of appropriate technology, environmental education,
attracted many people - some who have come to the          and a combination of command and control measures
region in search of wealth and some who were already       and market-based incentives.
there but were displaced from other, unsuccessful            Biller describes the gold extraction process and the
economic activities. What these people encounter at the    extent of mercury use and contamination. He analyzes
mining sites are dreadful living and working conditions.   key elements of the environmental problem, especially
Gold mining also causes substantial environmental          the informal miner and the fish economy. Finally, he
problems, which may persist whether gold deposits do or    suggests a combination of command and control
not.                                                       regulations and market-based incentives adapted to the
Biller discusses the environmental effects of gold       informal gold mining economic environment. He
mining in the region, focusing on mercury pollution.       emphasizes the need for an education campaign about
Mercury, an important input in gold extraction, is being   the perils of using mercury and the availability of more
discharged into the atmosphere and the rivers at           appropriate, and inexpensive, alternative extraction
alarming rates. The environmental costs of the present     technologies.
extraction technology will be faced primarily by future
Thispaper-aproduct of the Public Economics Division, Policy ResearchDepartment-ispartof a larger effort in the department
to address environmental issues. Copies of the paper are available free from the World Bank, 1818 H Street NW, Washington,
DC 20433. Please contact Dan Biller, room 18-417, extension 37568 (28 pages). May 1994.
The Policy Research Working Paper Series disseminates the findings of work in progress to encourage the exchange of ideas about
development issues. An objective of the series is to get the findings out quickly, even if the presentations are less than fully polished. The
papers carry the names of the authors and should be used and cited accordingly. The findings, interpretations, and conclusions are the
authors' own and should not be attributed to the World Bank, its Executive Board of Directors, or any of its member countries.
Produced by the Policy Research Dissemination Center



Informal Gold Mining and Mercury Pollution in Brazil
by
Dan Biller*
* This paper was written while the author was a Young Professional at the Public Economics Division, Country Economics
Department (PRDPE). He wishes to acknowledge the comments of the PRDPE staff, in particular of Emmanuel Jimenez and
Gunnar Eskeland, on an earlier draft. He is also grateful for comments received from Antonio Estache, Antonio Sslazlr
Brandao, and the participants of the LATEN seminar, specially John Dixon and Robert Kaplan. Special thanks are due to
Maritta Koch-Weser for her support in this endeavor, and Mauro Leonel for assistance in the field.






Informal Gold Mining and Mercury Pollution in Brazil
by
Dan Biller
Introduction
1.     Informal gold mining in Brazil has existed since colonial times, and as figure 1 shows it is
spread all over the country. It has been a major occupation for the population of the Amazon region,
which is currently responsible for most of the country's gold production1. The activity generates
large revenues, but also has severe environmental effects.
2.     The environmental effects of informal gold mining can be divided in at least three groups:
a. Pollution caused by mercury discharge, b. Degradation caused by revolving of sediments, and c.
Emissions linked to machinery use (noise, diesel spills in land and rivers, among others).
3.     Although groups 'b' and 'c' are briefly mentioned in the pages ahead, the overall objective
of this paper is to evaluate mercury contamination caused by gold mining and its environmental
effects. Degradation caused by revolving of sediments may in certain areas be a serious problem,
but "clean" technology to correct this problem is not readily available. Due to its complexity, this
issue deserves a study of its own. In addition, emissions linked to machinery use are not unique to
informal gold mining, since other economic activities in the region such as navigation provoke
similar discharges.
4.     Due to its amalgamation properties, mercury is an important input in gold extraction.
Further, the source of mercury contamination in the Amazon region is easily identified as being gold
mining, since the area has few industries that use mercury. When used correctly in gold mining,
quicksilver presents no threat to the environment. Yet, depending on the technology of production
mercury can be discharged in the environment in vapor or metallic forms.
5.     Awareness about the perils of activities linked to mercury dates back to Roman times, when
quicksilver miners showed particular signs of contamination2. Mercurialism was even mentioned
in Lewis Carrol's Alice's Adventures in Wonderland, where the expression "as mad as a hatter" was
commonly used to describe the Mad Hatter3. In the twentieth century, concern with mercury
discharge consolidated after several environmental disasters. The most famous one was Minamata
(Japan, 1960's), but several other countries witnessed mercury catastrophes (Iraq, Pakistan, Sweden,
Guatemala, Colombia, Chile, and Brazil).
1 The informal gold miner is known as 'garimpeiro', and he works in the "garimpo". His activity is
referred as 'garimpagem". For convenience, these terms will be used throughout the paper.
2 Signs of mercury contamination include tremors, loss of appetite and weight, insomnia, among others.
Contamination can ultimately lead to irreversible brain damage and death. The signs of contamination are often
placed under the generic term of mercurialism.
3 Mercury was a known occupational hazard in the felt-hat industry (Boischio, October 1989).



Figure 1: Informal Mining in Brazil
Roraima ~ ~ ~  ~      ~     ~    ~     ~    ¶ cer
g ~    ~ ~~~~~         ~    ~ ~~~            ~~~~~~~                      Ca is      Rfs -Gi 
S  1   Amazonas    v  v   @       Part      @         MaranZ*o
* Ron ;  *°3
,    Piaui      Per'af.n bO
A    .......                                          To taGons                 .                    C, 
_ .*                  R     a .. ...........
0~~~~~~~~~~~~~~~c 
Mato G!a o                              Bah.ia
ri~ ~~~~~~~r
*    :00~~~
OURO - Pequena concentra;aO              att .;ss  o S        S a        . ,
* GEMASgKuende garimpoS                                      °J
OURO - grande concentracao
de garimpos
(3 GEMAS -  pequena concentraCAo                                 SJaneiro...
de garimpos                                      0                           . 
oGEMAS - grandis concental4O                                  0l
A MINERAIS METAUCZS
Rio Grance do Sul
Source: Globo. March 24, 1991



3
6.     In the twentieth century cases, mercury contamination was caused by industrial or hospital
discharges, in which the effluent's major component was methyl mercury. In addition, the best
recorded cases took place in temperate climates with specific geographical conditions. Previous
experiences have to be used with caution when attempting to infer the extent of the problem in the
Amazon region, for this region has many peculiarities that differentiates it from other areas.
Nonetheless, the volume of mercury currently being discharged in the environment indicates that in
the very near future a major disaster may occur.
7.     Two closely linked aspects of mercury contamination can be identified. The miners and
traders health aspect accounts for the fact that major perpetrators of the discharge are also important
recipients. An externality aspect encompasses the damages caused by such a discharge on parties
not directly involved in the gold trade. This is translated into health problems and a decrease in the
quality of life. In the former aspect of mercury contamination, education on the appropriate use of
mercury is fundamental. For the latter, regulation should play a major role. Both approaches
together may lead to a feasible and successful policy recommendation.
8.     This paper addresses both aspects of contamination. It focuses on the recent Amazon gold
rush, which is of the same order of magnitude of the Californian gold rush of the last century.
General data constraints for the region preclude any detailed and precise study, but due to available
information mining in the Madeira River (State of Rondonia) is often used as an example. This leads
the paper to concentrate on alluvial river mining as opposed to other deposits. In the case studied
here, fisheries are important vectors of mercury hazards; therefore, the fish economy is analyzed in
detail.
9.     The paper is divided into three main parts. The first part gives a scientific background on
the extraction process, and the extent of mercury use and contamination. The second part analyzes
the important elements of the mercury discharge problem; that is, the informal miner, and the fish
economy. The final part suggests policy recommendations to mitigate the issue.
2. Gold Extraction and Mercury Utilization
2.a. The Gold Mining Process
10.    There are several processes for gold extraction. The choice of process usually depends on
the amount of capital available for investment and on the type of deposit in a given area. The
processes have some characteristics in common. For example, water is necessary to transport
sediments and allow for gravimetric depositing of fine gold. If the activity is not undertaken on a
river, it has to be close to a natural body of water or a man-made dam. Mercury use is also
common to the different extraction processes. It is used to agglutinate gold particles in an amalgam,
facilitating the exploitation of the deposit.
11.   In this section, I focus on the extraction processes of alluvial deposits in rivers, because these
are the main ones in Rondonia. I use the Belmont garimpo in the Madeira river as an example, but
the processes tend to be the same throughout the different rivers of the Amazon region.



4
12.    There are several theories on the origin of the alluvial gold deposits of the Madeira river.
A commonly accepted theory argues that gold comes from the erosion of the Andean mountains of
Peru and Bolivia. Indeed, informal gold mining is common in both countries in rivers that form the
Madeira like the Madre de Dios and the Beni. Over geological time, the fine particles of gold
traveled through the rivers, accumulating in alluvial deposits in erratic fashion. This may also
explain why tributaries of the Amazon river in Rondonia's neighboring state Acre do not seem to
contain substantial amounts of gold. These rivers do not originate in the Andes.
13.    In Rondonia, mainly three processes of gold extraction are used. "Bico-de-jato" utilizes a
hose that sprays water under high pressure against river banks so as to desegregate sedimentary
deposits. A second pump is used to transport the material to a sluice box where the gold particles
hopefully settle. Raft dredging (Balsa) employs a diver, who uses 4" to 6" suction pumps to vacuum
sediments from the bottom of the river. Barge dredging (Draga) employs scarification heads for
scrubbing the bottom of the river and collecting sediments. The heads are controlled from the barge
by an operator using a mechanic arm. The sediments are brought to the surface by large hoses of
8" to 14" of diameter. The system is supported by Scania or Mercedes Benz truck type motors.
Gold particles are collected in the same way as in the other two processes (Pereira, 1988; May,
1990).
14.    In the Madeira river, raft and barge dredging seem to be the popular methods for extracting
gold. The draga has been steadily substituting the balsa in the extraction process. Figure 2 below
compares the use of balsas and dragas for selected garimpos in the Madeira river for the months of
July, September and November 1988. The increase in the number of dragas stems from several
factors. Although the initial capital for a draga is high - a barge may cost up to US $ 1 million, the
Figumr 2: Number of 8ai1 .nd Drop" hb SuluGid G.*upop in Ue ,.o M d
~~~_JI_
X,*.4
8e.c. Perk 1SMB



5
draga is substantially more productive than the balsa. While the former is estimated to produce on
average 200 grams of gold per day, the latter extracts only 50 grams per day. The work period is
around forty hours, and in order to cover operational costs the draga has to produce an estimated
average of 100 grams of gold.
15.    The presence of a diver in barge dredging is unnecessary; therefore, the increase in the
number of dragas probably diminished the number of accidents in the garimpo. On the other hand,
since the volume of sediments lifted by dragas is much greater, water turbidity and revolving of
sediments in bottoms of rivers have significantly worsened.
16.    Once sediments reach the surface, the different processes of extracting gold become quite
similar. The sediments travel downwards in a sluice box covered by a carpet . The carpet retains
the heavier particles including gold, and the remaining sediments are returned to the river. The
carpet is then washed in a barrel, which holds the resulting mixture of sediments and heavy particles.
At this stage, mercury is blended with the compound for about one hour, and the amalgamation takes
place5. The amalgam is separated from the rest of the sediments, and passed through a piece of
cloth (usually a t-shirt). The non-blended mercury falls in a can or glass, and it is recycled. The
amalgam left in the piece of cloth contains mercury, gold and other elements that are able to
amalgamate with mercury (silver, copper, and rarely platinum). The amalgam is then burned in a
pan with a direct flame from a blow torch. Since mercury has a lower temperature of volatilization
than the other elements, it evaporates leaving impure gold behind6. The level of purity varies
according to the region, and is usually common knowledge to the garimpeiro and the gold buyer.
Laboratories in the country's southern region often analyze samples from different garimpos. The
stores that buy the impure gold again use heat to separate gold from the other elements, and from
7
any mercury which did not previously evaporate
2.b. The Use of Mercury
17.    Garimpos are beyond doubt an environmental hazard.  This fact is acknowledged by
environmentalists and garimpeiros alike. As the president of the Garimpeiro Union of the Legal
Amazon (USAGAL) has pointed out in a recent interview (Toribio, March 24, 1991):
4 Curiously, garimpagem is the major consumer of carpets in Brazil. When the box is being utilized, the
garimpeiros use the term 'Cobra fumando", literally a 'snake that is smoking".
5 In some areas of Brazil, it is wrongly believed that adding mercury to the 'cobra fumando" will retain
more gold. This action not only results in greater environmental degradation, but also yields no positive outcome.
Further, mercury amalgamates more effectively with large gold particles; therefore, finer gold is lost in the process.
6 365°C as compared to 2600°C for gold.
7 For additional description of the extraction process, see also Cleary (September, 1990; and 1990).



6
"Wherever we [the garimpeiros] go, a track of destruction is left behind. Mercury
stays in the rivers, and the soil is degraded. We corrupt the culture, the location,
8
and the conduct of the areas where we arrive. We destroy everything ."
18.    As previously mentioned, in this paper I focus on mercury contamination from gold mining.
Yet, to illustrate the perils of revolving sediments, it should be pointed out that even in a river the
size of the Madeira this environmental hazard can be significant. A small barge dredge, for
example, is able to suck 1.4 cubic meters of sediments per minute. Some background sources
indicate that the amount of sediments dragged by the Madeira may increase up to five times, when
the garimpos are at their production peak during the dry season. This can be a serious threat for
activities such as navigation.
19.    Mercury use in American precious metals mining dates back to colonial times. The process
of amalgamation was introduced in the 1500's by Bartolomeo de Medina in Mexico (Biller, 1985).
There are few other alternatives to mercury in gold mining, and another common process involves
cyanate.  Although the price of mercury is high, its recycling in the amalgamation process
substantially decreases the miner's associated costs.
20.    There are only a few primary mercury producing countries. The world's total production
is 7000 tons per year, with the USSR being its largest producer (2208 tons/year). Other large
producers include China, Spain, Algeria, USA, Mexico, Canada, and Italy. The largest consumers
are the USSR and the USA. Both have to import to satisfy their demands. Brazil only produces
metallic mercury from secondary sources through recycling; therefore, its demand is primarily
fulfilled by imports. Until 1984, Mexico was the main supplier of metallic mercury to the country
(over 90%). Since 1985 with the boom of gold mining, non-producers of primary metallic mercury
such as the Netherlands, Germany and United Kingdom became the dominant suppliers. Figure 3
below depicts the Brazilian metallic mercury imports from 1972 to 1989. Since 1983 mercury
imports have steadily increased, reaching their peak in 1989. This coincides with the Amazonian
gold rush. In addition, since 1985 commercial imports of the metal have surpassed industrial
imports. This suggests that informal gold mining has been taking over as a major mercury consumer
in the country (Ferreira and Appel, October 1990).
21.    The optimal use of mercury in the amalgamation process varies from garimpo to garimpo.
Several variables such as velocity of sediments flow, type of gold deposit and its richness, among
others, determine the ratio of mercury to gold. Ferreira and Appel have calculated a weighted
average for several states. Rondonia has the highest ratio, which is 1.3 parts of mercury to 1 part
of gold. They also point out that with the application of appropriate technology (retort), this ratio
can be significantly improved.
22.    There are several ways of assessing mercury pollution in the environment. Scarce data on
mercury concentration in the Madeira river or neighboring regions is available for water, sediments,
fishes, air, and human hair. Table 1 below summarizes the available data, and compares it with
standard measurements.
8 Brackets added by author.



7
Figure 3: Mettalic Mercury Imports to Brazil
240
UMD
Mo
:to
*00
40in   174   lw    Ion    lm         1      106    1_    lo
Mo~~~~~~~~~O
S-u Fwok, & Appel (0,1s. M
z=-
Table 1: Mercury Contamination in Rondonia
Samples                          |Standard Values                  |Rondonia Values
Water                               0.002 ,ug.1-1                  |<  0. 1 to 8.6 pg.1-1
Sediments                           0.1 itg                          0.06 to 157 Ag.g-l
I. ~ ~ ~ ~ .
Fishes                              0.5 jig.g-1 (max.)               0.04 to 2.1 Ag.g-1
Air                                 0.02 jig.m-3                     0.02 to 292 ;ig.m-3
Hair                                0.7 to 6.4 1g.g6 1               0.22 to 40 Ig.g-U
Source: Boischio (October, 1989), Pfeiffer et. al.(1989), and Malm et. al. (February, 1990),
WHO (1989), Hacon (1990).



8
23.    Water mercury concentration has proven to be extremely variable depending on the location
where the sample was collected. Boischio (October, 1989) found low mercury concentration in
waters near Porto Velho (range: non detectable - 0.46 ig.1-1), high concentration at the Teotonio
Falls - where mining begins (range: 0.10 - 0.55 Ag.l-1), and the highest at the Mutum-Parana - a
forest stream (range: 0.20 - 8.60 Ag.-1). Similar results were found by Pfeiffer et. al. (1989), and
Maim et. al. (February, 1990). As pointed out by these scientists, the Madeira river carries a large
amount of sediments in its immense flow (up to 48,400 m3/s); therefore, high dilution rates should
be expected for samples taken from the river. On the other hand, mercury deposits at forest stream
where the flow is low, thereby explaining the high concentration in the Mutum-Parana. In the case
of sediments, the same argument applies, and explains the very high concentration of mercury in the
forest stream.
24.    Mercury concentration in fish varied widely. This is mainly due to the different species
feeding habits, and their migratory patterns. The "rule of thumb" is that carnivorous fish tend to
concentrate more mercury, since they are at higher levels of the trophic scale. In addition, fish in
general are able to assimilate higher levels of mercury concentration then advisable to human
health9. The maximum permissible mercury concentration in fish for human consumption in Brazil
is less than 0.5 Ag.g1. Samples of prized fish species of the Madeira river have confirmed the
notion that carnivorous species render greater health hazard. Dourada samples (carnivorous), for
example, have indicated a concentration of 2.10 lg.g-1, well above the permitted standards. Other
carnivorous species have also yield high mercury concentrations.  Alternatively, Tambaqui
(omnivorous) and Curimata (detritivorous) samples presented low mercury concentrations of 0.04
tg.g-I and 0.21 ,ug.g-1, respectively.
25.    Mercury used in gold mining is discharged in the atmosphere in two ways. At the garimpo,
the amalgam is burned in order to evaporate the mercury previously used. This process is usually
deficient, and some mercury is left in the impure gold. The residual mercury is burned by the gold
dealers in stores located at the nearest cities, where the gold is further purified. Both processes are
undertaken with virtually no considerations for environmental safety. Malm et. al. (February, 1990)
suggests that 55 to 60% of the mercury lost to the environment occur in vapor form. Boischio
(1989) warns to the danger of this form of pollution:
"Mercury vapor is the most hazardous of the inorganic forms because it can diffuse
through the lungs into the blood and then the brain, where serious damage can
occur. Early effects of the central nervous system, including loss of appetite and
weight, tremor and insomnia, were detected on workers exposed to concentrations
ranging from near zero to 0.27 mg/m3."
26.    Data on mercury air concentration is scarce. Available data indicate that air contamination
is high near the stores that buy gold (3.20 Ag/m3), and highest at the stores' outlets (292 ,ug/m3).
In areas close to garimpos, the pollution level is lower (0.50 ,ug/m3). This can be partly explained
by the significant number of stores concentrated in a restricted locality. Most of the stores are
located on a single street.
9 As a veterinarian pointed out to me in Brasilia: 'Dead fish no one eats. Live fish is the problem".



9
27.    Hair samples were collected from subjects living in variable distances from the mining areas.
The level of mercury contamination is probably closely related to the dietary habits of each
individual. As shown in Boischio (1989), individuals that commonly eat fish tend to have higher
concentrations of mercury in their hair. Those individuals that eat fish and live close to garimpos
have the highest concentrations. High levels of contamination, for instance, were found in Indians
and garimpeiros (up to 40.0 .tg.g-1).
28.    Although reliable data is scant, the available research seems to indicate that severe health
hazard in the near future can be anticipated. In its metallic form, mercury resents little immediate
danger. In fact, it has been used in the past as a constipation medicine" . Yet, in vapor and in
methyl formsil mercury contamination can be an acute health threat.
29.    Undoubtedly, additional research is urgently needed.  Little is known about mercury's
behavior in tropical environments. For example, there is a general lack of information about the
methylization of the metal in tropical climates. In addition, well documented cases of mercury
poisoning have mainly occurred in temperate climates, and in closed environments such as lakes
(Sweden) or environments with low water flow such as bays (Minamata in Japan).
30.    An additional complication may be the similarities between the symptoms of mercury
poisoning and malaria. The latter, endemic in many areas of the Amazon, is a major concern to the
garimpeiro. The lack of health infrastructure forces the miner to engage in self-medication or seek
assistance in drugstores. Under these circumstances, mercury poisoning could be easily mistaken
for the tropical disease.
31.    Mercury pollution also has a strong time component; thus, intergenerational considerations
must play an important role in its solution. Future generations are likely to suffer considerably more
with this form of pollution than current ones. As mentioned by Malm et. al. (February, 1990) a
large percentage of the mercury used in the extraction process will ultimately end in the river:
"As it is difficult for the governing authorities to regulate or control the mining of
gold in this area, the recovery of mercury during the separation and amalgamation
step is quite low (about 45-60% of the initial Hg). The Hg recovered is normally
reused 3 or 4 times and then discharged into the river."
32.    The garimpeiro himself should be the main interested party in the environmental hazard that
he causes, for through health effects he is one of its principal recipient. Yet, when faced with the
other problems of the garimpo, the miner has little reason to worry about mercury contamination.
His immediate concern is survival, facing malaria and the possibility of violent death. Other
economic agents, however, do not directly profit from gold mining but are directly affected by its
pollution. Fishermen, fish consumers, and people living near impure gold burning sites are probable
10 For example, in a television debate with a scientist a famous garimpeiro is said to have drunk a small
bottle of mercury to prove that the substance was harmnless.
I1 The methyl form adds a carbon molecule to the metal, allowing for its entrance in the food chain.



10
candidates for mercury poisoning. The situation thus requires a third party, such as the government,
to regulate mercury use.
3. Mercurv Contamination: The Miner and His Externality
3.a. The Gold Miner
33.    Gold is a major factor of attraction for several sectors of Brazilian society. Yet, little data
is available on the origin of the garimpeiro who comes to work in the Amazon region. Most of the
garimpeiros are not natives to the region. They likely come from the Brazilian southern and
northeastern areas as their many nicknames may inferl 7. Garimpeiros are usually young males
in their twenties and thirties.
34.    Although the garimpeiro population includes university degree holders, most of the
garimpeiros are unskilled and unemployed workers from the rural and urban sectors. The majority
seems to be unsuccessful small farmers that came to that region to occupy tracks of land offered by
the federal government. Due to the short life of good quality soil and the lack of agricultural inputs,
their main activity is not sustainable and they turned to garimpagem as a source of income.
Garimpagem, however, is also a seasonal activity in many parts of Brazil. In the Madeira river, for
example, the number of garimpeiros increases substantially during the dry season when the water
level is lower. It is thus probable that many garimpeiros engage in activities other than mining to
secure a living throughout the year.
35.    Garimpagem is also attractive for its sense of freedom and adventure. In the case of the
Belmont garimpo in the Madeira river, many dredge owners live in Porto Velho (Rondonia's capital)
and work as judges, prosecutors, politicians and other skilled professionals. Rather than engaging
in a system of debt peonage common in agriculture, they prefer to be partners with dredge operators
who are more likely to be unskilled workers. This type of labor contract is more commonly used
in garimpos where there is a high degree of mechanization, and "bamburros"13 are more likel
to occur. Contracts of "meia-praca" are also used in some garimpos (Santos, December 1988)1 .
Debt peonage, differently than in agriculture, is not used in garimpagem, for the garimpeiro does
not own any of the important means of production except for labor. He may leave and come back
to the garimpo whenever he wishes. This is particularly true in areas near large cities, where there
isn't a direct dependency on airplanes for transportation. In the Belmont, for example, the market
for labor in terms of quantity of dredges and number of owners is competitive. In addition,
transportation is provided by a number of motor canoes (voadeiras) at negotiable prices. This allows
a certain choice for the garimpeiro as of where and with whom to work. When the area is not so
12 It is common for garimpeiros to call each other by the name of their original state.
13 Garimpagem in alluvial deposits is an erratic activity. The "bamburro' is the term used to describe a
situation where the garimpeiro finds large quantities of gold.
14 "Meia-praca" is a labor contract where the gains of the activity are shared in half between the garimpo
owner and his garimpeiro crew. The owner bears the costs of fuel, food and part of the equipment, while the
garimpeiro participates with his labor and a few tools.



11
readily accessible such as the garimpos in the northern tip of Mato Grosso, airplanes are the
dominant transportation. Knowing how to pilot a plane is a valuable skill, and many pilots become
rich garimpo owners.
36.    The partnership system prevalent in the Madeira may vary from dredge to dredge; however,
on average they follow a 10 / 5 percent system. Each dredge has one manager who receives ten
percent of the dredge's gold production, and four operators who receive five percent each. The task
of each operator is usually well defined; that is, the operator who burns the amalgam, for instance,
will generally be the same person. The dredge also has a cook hired by the owner, who normally
receives about 15 grams of gold per month and may complement her income working as a prostitute.
The dredge owner retains seventy percent of the dredge gold production, but bears all of its costs.
Besides dredges, the Madeira also has "balsas"15. Balsas are smaller boats that carry basically
the same crew with the addition of a diver. The diver's function is to vacuum the bottom of the
river with a big tube, bringing to the surface sediments that may contain fine gold. The living
condition of a diver is dreadful, for the risks associated with his job are great. He may dive up to
thirty meters with fifteen kilos of lead tied to his waist, while his only connection to the surface is
a thin tube for breathing and a rope for communicating. Although he uses goggles, due to the
amount of sediments the river carries a diver's visibility is almost nil. The diver runs the risk of
being attacked by fishes, struck by other divers, or hit by logs carried by the river. Additionally,
if large quantities of gold are found, his colleagues may disconnect him from the boat thereby
receiving a greater share of the production.
37.    The cost of living at the garimpo is usually very high. Yet, many garimpos have businesses
at the mining site. At the Belmont, for example, there is a drugstore, a filling station, and a
convenience store. Bars and cabarets are available at the canoes' point of departure. Gold is
commonly used as currency, and the metal's price is slightly lower than in Porto Velho. Drugstores
are a major business in the garimpos, for malaria and other diseases are common. Indeed,
garimpeiros spend a significant share of their income treating malaria, which in many areas is
endemic and quinine resistant (Vosti, 1990).
38.    The garimpeiro population is a function of a number of factors. Although garimpagem is
considered an adventurous activity and the sense of adventure may play some role in attracting
people to the garimpo, socio-economic variables such as gold prices and the overall health of the
economy are likely to be the main factors of attraction. Trends in gold prices may increase or
decrease people's interest in gold mining. Moreover, at times of recession when jobs are scarcer,
unemployed workers are attracted to gold mining just as they would be to any other informal sector
activity. In addition, local considerations such as infrastructure availability and more importantly
the perceived richness of the site account for regional choices.  Figure 4 below depicts the
garimpeiro population in the Madeira river as an example. As in other regions of the Amazon, the
late 1970's witnessed the beginning of a gold rush. The garimpo population almost steadily
increased until 1988. As of 1989, the number of dredges in the Madeira are reported to have
increased to the astonishing figure of 4000 units at the peak of the dry season (Ourinvest, 1990).
15 It seems, however, that the number of "balsas" has been diminishing in this river.



12
This situation might have changed lately with the perceived depletion of the Madeira's gold reserves
and the fall of gold prices.
39.    People are pushed into garimpagem due to the lack of opportunities in other economic
activities; yet, the expected income the activity may provide is also a factor of attraction. In this
sense, the choice for garimpagem may be explained by at least two reasons. The activity has its
roots in the malaises of the Brazilian economy, but its "gambling" component cannot be totally
dismissed. The level of uncertainty associated with the enterprise may be large, but when a
garimpeiro finds great quantities of gold his gains are also considerable. The average garimpeiro,
however, makes enough to survive. Garimpagem enriches only a few lucky ones, who may spend
the money quickly in bursts of wealth or invest to become garimpo owners.
3.b. The Fish EconomI16
40.    As previously explained, garimpos seem to have a strong negative influence in Amazonian
fisheries. This is aggravated by the fact that the main fishing season coincides with the main gold
mining season; that is, both activities have their peak in the dry season. Garimpos also attract small
fishermen, who may work as dredge operators or in the gold related commerce. In addition, if
garimpos attract internal migration, fish consumption is likely to increase. Since consumption of fish
is a major vector of mercury poisoning, an increase in population in an unsafe environment would
Figure 4: Garimpo Population in the Madeira
le "  , 040  , &   VP". ... , 004  ... . V."  . sot o......
15 ~ ~ ~ ~  ~   ~  V
S"mV: 06>7A
I~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
16 In this section, I discuss two types of fishermen: The one who depends on fisheries for its substance,
and the commercial fishermen. Petrere Jr. (June 1990) is more specific, dividing the category into four types.



13
translate into greater numbers of contaminated people. Further, if fisheries are not managed properly,
over-exploitation of this renewable resource may occur.
41.    The fish cycle coincides with the gold cycle, for both fishing and mining are less costly when
the river is low. During the dry season, different fish species stay on the main stream of major
rivers, where commercial fishermen with large boats are able to catch their best harvests17. When
the raining season comes and forest streams flood, schools of fish migrate out of the main streams
searching for food in vicinal areas. These forest streams, however, are difficult to access with large
commercial vessels, hence the harvest diminishes. Recently, attempts to control fishing during the
raining months of November and December due to spawning may also have contributed to the
decline of the number of fish caught (Boischio, 1990).
42.    Data in Amazonian fisheries is scarce, and as with other animals little is known about the
ecology of the region's fish species. During the 1970s, a project to count the fish entering the
Manaus market was undertaken, but it seems that lack of funding has interrupted the effort. In Porto
Velho, due to legal obligations, data is gathered by the fishermen cooperative. Although the data
set have some deficiencies, it appears to be the best available for the region18. The cooperative
estimates that it supplies 75% of the fish consumed in the city.
43.    Regardless of the diversity of fish species in the Madeira river, harvesting is selective.
Species caught tend to be omnivorous and detritivorous rather than carnivorous. This may be partly
explain by the belief that carnivorous fish like catfish are of poorer quality, since they scavenge the
bottom of the river. Additionally, they might be harder to catch due to their habitat characteristics.
Moreover, at least with the Pirarucu - which may reach three meters of length and up to 200 kilos -
the system of commercialization may distort the actual number of its catch. The Pirarucu is usually
dried and salted at the site of capture, and only the fresh Pirarucu arriving at the port is registered
as a catch. Finally, in some regions of the Amazon, but not necessarily the Madeira, it is wrongly
believed that skin fish like catfish transmit leprosy.
44.    Figure 5 below summarizes the available data for fish harvests of the main commercial
species. Tambaqui and Curimata are the dominant species caught. The former is omnivorous and
the latter is detritivorous. Pacu is also omnivorous, while Jatuarana is detritivorous. The only
carnivorous in the group is the Dourada.
17 In the Madeira river, for example, these boats catch on average 15 tons of fish.
18 The discussion presented in this section will thus focus more on the Madeira river. The data set
encompasses the geographical area between Guajara-Mirim in the south of Rondonia and Humaita in the south of
the state of Amazonas.



14
Fgure 5: Porto Velho's Production of Selecied Fish
I-
-0                                              0   e'ot e i  i
Souroc: Ocnis de Peindm   Z-1 Twws SaNSi 0wb Vibd
45.    While the available data on the other three species is inconclusive, the Tambaqui and the
Curimata have shown a decline in the numbers caught. Several factors may explain this descent.
Since the area studied has been very active in gold production, garimpagem may have influenced the
migratory characteristics of different species. Commercial fishing may have also taken its toll in the
fish stock. Finally, there is the possibility that a given species learn to avoid traditional fishing
areas, decreasing stock density locally but not necessarily the stock size (Petrere Jr., June 1986).
46.     To my knowledge, the effects of garimpos in fish behavior has not yet been studied in the
literature. Yet, problems of over-fishing particularly with the Tambaqui has deserved some attention.
Using the available data for Manaus, Petrere Jr. concludes that the stock of Tambaqui is under-
exploited for values of natural mortality greater than 0.30/year. Nonetheless, he grants that in
fishing grounds close to Manaus, the stock of Tambaqui has been severely depleted (Petrere Jr.,
1983). This conclusion is parallel to the experience of the fishermen stationed in Porto Velho. They
have pointed out to me that they had to increase the number of fishing days from 20 to 25, and the
radius of navigation from 300 kilometers (maximum) to 1200.
47.    I have focused on commercial fishing due to data availability. Yet, it should be noted that
the riverine population, who depend on fish protein on a daily basis, is the one likely to suffer more
with the effects of over-fishing and mercury contamination. The process that leads to over-exploiting
a fish stock and its consequences are well studied in the biological and economic literature. Seminal
works include, among others, Clark (1976) and Levhari and Mirman (1986). Most of the works



15
point towards common property and open access as the major problems in attempting to manage a
fish stock.
48.    In the Amazon, these problems have generated direct conflicts between professional and
subsistence fishermen. "Fish wars" broke in several instances. The transformation of subsistence
fishing to commercial is discussed in Petrere Jr. (June 1990). Technological progress in fishing
boats (refrigeration, diesel motor, and others), infrastructure change connecting the region to large
consumer markets of the south (roads), increase in the local urban population, and introduction of
special fishing nets are the transformations that promoted commercial fishing. Currently, a fishing
boat may enter a lake and harvest all of its fish stock, totally depleting for some time the food source
of the local population.
49.    Petrere (June 1990) cites proposals for correcting the problem in global and local scales.
The basis of the proposals is the establishment of property rights. Informal attempts for the
establishment of rights have occurred, and generated conflicts. In an Amazonian lake, for example,
local fishermen impeded the passage of commercial vessels by chaining two opposite trees at the
lake's entrance.
50.    Mercury contamination at current levels of mercury discharge has already the potential of
becoming a major disaster for the local population. Consumption of fish is the contamination main
passageway to humans which is not job related. It is difficult to identify without the appropriate
chemical tools contaminated fish from clean ones at the catching site. None of the parties involved
in fishing is capable of such analysis; therefore, unless the fish is dead and thus discarded, there is
a strong likelihood that contaminated fish will reach the markets and the population.
51.    As pointed out by Petrere (June 1990), the situation is aggravated by the chronic nature of
intoxication by methyl mercury. Acute mercury poisoning is easier to treat than chronic poisoning,
for the latter slowly accumulates on the brain causing lesions. In addition, methyl mercury may
enter the womb of pregnant women, generating mentally retarded babies. Populations that regularly
consume contaminated fish are prime candidates for the Minamata type syndrome.
52.    The fact that carnivorous species concentrate significant higher levels of mercury than
omnivorous and detritivorous does not mitigate the severity of the problem. While it is true that
omnivorous and detritivorous species are more demanded in some areas of the Amazon, certain
carnivorous species such as the Dourada are very popular as well. It is difficult to believe that a
fisherman will exert self control by discarding any gourmet carnivorous fish due to a chance of
contaminationl9. At the same time, it is troubling to confirm that Dourada, one of the most
consumed fish species in Porto Velho, is also the most contaminated according to the available
samples.
53.    The economic potential of Amazonian fisheries seems promising. This is beginning to be
recognized in the region as the demand for fish increases, and other options such as cattle ranching
19 The Surubim, for example, is a carnivorous species common to many rivers of the region and often
compared to Salmon in its taste.



16
fail. As a large farmer in Mato Grosso personally remarked, his experience indicates that the yield
of aquaculture is substantially higher than that of cattle20. Yet, in order to manage the resource
properly the common property and open access aspects have to be addressed. So far, the available
work in the area seems to indicate that fish stocks are not yet seriously affected; however, these
aspects have already been causing acute problems in localities close to large regional urban centers.
54.    Garimpo pollution, on the other hand, is a menace to any fisherman, fish dependent
population, and the garimpeiros themselves. I focus on mercury pollution, since this form is better
studied in the literature. The extent of the problem seems to encompass all garimpos in the region.
55.    I have previously explained the reason why the garimpeiro is not immediately concerned with
the form of pollution that he generates, even though he is likely to be the main affected party. In
the sections ahead, I will discuss the available proposals for correcting the mercury contamination
problem, and sketch some policy recommendations.
4. Policy Issues
4.a. The Gold Market: A Background for Policy
56.    The gold market in Brazil is well structured and well developed at the commodities trading
level. At the mining level, a formal and informal sector coexist in an often tense fashion. This
nervous coexistence is particularly obvious in the Legal Amazon - where property rights are non-
existent or difficult to enforce, but may occur in other parts of the country as well21. The formal
sector is composed by mining firms that hold government permits for extraction. The informal
sector comprises primarily garimpeiros, who do not hold permits but are often allowed to mine.
This group includes, as previously discussed, anybody from those who engage in mining with
rudimentary techniques such as panning to those who invest thousands or millions of dollars in barge
dredging.
57.    The latter group is responsible for a major share of the country's gold production. Figure
6 below compares the two groups in terms of estimated gold production. Throughout the 1980's,
garimpos have been responsible for over seventy percent of the domestic output, and formal mining
only surpassed the garimpo in terms of production in 1972. In addition, garimpo gold production
has enjoyed substantial growth since 1979. As explained earlier, garimpos are common in erratic
deposits or in strip mines. Garimpeiros usually do not have the skills or the initial capital to invest
in deep mines; therefore, "standard" gold mines, which are also easier to guard, are exploited by
large mining companies.
20 One hectare produces 10,000 kilos of live fish, while the same amount can only produce 500 kilos of
live cattle (one cow or bull).
21 A classical example is the case of the famous Seffa Pelada gold mining field. Initially, it was supposed
to be exploited by a company. Yet, several garimpeiros invaded the area, prompting the government to intervene
on their favor.



17
Figure 6: Estimated Gold Production
O.. i872.v0, 
I-~~i
Jou-.: 7211 to1  CWPAJ { olUhw @ 57); 820 St . O.Minv*01(7990)
58.    The tradition of conflict between the garimpeiros and mining companies has its roots in thie
legislation. In practical terms, however, solutions appeasing both sides seem plausible. Barreto
(mimeo) has suggested a contractual association between the parties.  Agreements between
garimpeiros and mining firms are starting to take shape in some areas. Usually, the garimpeiros are
allowed to extract to the stage where their technologies permit. When mining begins to require
elaborate infrastructure, the associated firm takes over the process.
59.    In terms of the extraction process, garimpeiros are criticized in two fronts. This activity
lacks any type of geological research in the chosen area; that is, garimpeiros search for gold in an
apparent random fashion with little regard to the geology of the prospected region. Moreover, due
to the techniques used, gold losses are enormous (estimated up to 60%). In certain types of
garimpos, these losses can be partly recuperated through the reutilization of the rejected sediments.
This is believed to be the case, for exarnple, of the garimpo in Serra Pelada. In river garimpos, such
as the Madeira, it is very difficult to recover fine gold washed down the stream.
60.    After being extracted, the gold is purchased by dealers at the site or at the nearest town.
T'hese dealers may be independent or associated with larger gold firms from Rio de Janeiro and Sao
Paulo. As previously mentioned, the gold is further purified at these regional stores. The pure gold
in certificate form is commercialized in the commodities exchange of Sao Paulo. A simplified
version of the gold market is depicted in figure 7 below.



18
Figure 7: The Brazillan Gold Market Structure
Mines and Garimpos
Field Gold Dealers
Gold Firms in Large Cities
Deposit Banks (Certificates)
Commodity Exchange         ~        Trade
61.    Domestic gold prices are primarily determined by three factors: The international gold price
from the commodities exchange in New York (COMEX), domestic supply and demand, and the
dollar exchange rate at the domestic parallel market. The Amazon gold rush of the 1980's is thus
closely correlated with these parameters.
62.    Smuggling is wide spread in the gold market, but background sources indicate that it has
diminished2 . It takes place primarily due to low prices paid by the federal government and high
taxes; however, recent changes in these variables may have actually decreased the disparity between
the official and the estimated production thereby increasing government revenues. To a smaller
extent, gold is also used to launder drug money and for the commerce of narcotics; therefore, some
level of contraband will always exist (estimated 10 to 20% of total gold contraband). Additionally,
guarding borders in a region the size of the Amazon and with its lack of infrastructure is a difficult
and costly task. As gold is smuggled out, it may also be illegally brought in as suggested in
Ourinvest (1990)
22 Curiously, for example, in 1988 Uruguay is said to have exported significant amounts of gold (up to 15
tons) without having a single mine operating.
23 The report indicates for instance that due to high domestic prices in the middle of 1989, as much as five
tons of gold may have entered the state of Rondonia illegally that year.



19
63.    Since the informal information system in the Amazon region is well developed, international
prices are well known. This coupled with the large numbers of buyers in towns near garimpos partly
explains the small difference between the commodities exchange and the field prices. Alternatively,
gold's high value per unit and low transportation cost give the garimpeiro an option of sale. When
the government does not match prices offered by private enterprises, it loses potential clients
regardless of the legal aspects of the transaction. In the past, the government aggravated the
situation further by insisting to use the official exchange rate in the conversion of international gold
prices. In addition, gold was considered a merchandise rather than a financial asset, thus it faced
a high sales tax (ICM). The consequence of this approach is illustrated by figure 6, specially if one
considers that probably less than 50% of the garimpo production was at any point in time declared
officially. Figure 8 below depicts the situation for Rondonia24.
64.    In 1989, the gold commerce law was modified. Gold became a financial asset, and was
subject to a low one percent tax. In addition, gold firms in Rio de Janeiro and Sao Paulo were
allowed to do arbitrage; that is, they were permitted to commercialize the metal using the
international price, the domestic parallel exchange rate and the domestic price. The Central Bank
would participate by depositing dollars abroad in accounts held by these firms. In effect, the
Brazilian Central Bank is the largest single player in the market, since it holds large amounts of gold
reserves and sells or buys gold to influence inflation expectations in the economy.  The
commercialization of gold is done using a price parity between the domestic and the international
Figure 8: Gold Production In Rondonla
24 It should be noted that Rondonia's gold production originates in garimpos, where the level of production
is difficult to be officially determined.



20
price. If the parity is above 1.5%, transportation costs allow gold to enter the country. If the
parameter is below  - 1.5%, contraband should be expected to increase25.
65.    The number of players in the gold market decreases in each of its stages. From a large
number of garimpeiros and garimpos' entrepreneurs, production is funneled to less than a dozen
accredited gold firms in the large southeastern cities. Pollution caused by gold production, on the
other hand, decreases as the metal is purified. Although they are not directly responsible for
mercury contamination, these accredited gold firms acknowledge the severity of the problem. A firm
headquartered in Rio de Janeiro and the largest buyer of new gold, Goldmine, has shown some
specific interest. It has initiated a project (Projeto Aguas Limpas) to combat mercury contamination
involving education and clean technology use. The project's estimated cost is about 50 million
dollars, and is pending funding and further planning.
66.    Gold in Brazil has recently been an important financial asset. The market organization in
the present structure occurred in the 1980's. Prior to 1986, for instance, there was no formal
exchange and thus a time series on prices is difficult to obtain. Yet, regardless of its young age, the
structured market has been very active since its inauguration. Investors have perceived gold as a
good hedge against inflation, and the Central Bank has manipulated the market as a macroeconomic
policy instrument.
67.    As with other financial assets, however, gold has been susceptible to government promoted
anti-inflationary economic plans. Strict government interventions in financial markets, often called
in the country "pacotes economicos' (economic packages), have made garimpagem temporarily less
attractive. Moreover, regional factors may play an important role in any decline of garimpo related
activities. In Roraima, for example, the recent government crack down in illegal garimpos in
2-5 The parity is calculated according to the following formula:
Pi .p
Parrity=  1+r
P0=P *32.15*E
where
Pi is domestic gold sale price
Pe is international gold sale price (COMEX)
P$ is international dollar gold sale price in ounce-troy (COMEX)
32.15 is the conversion factor to grams
E is the parallel exchange rate
r is the interest rate to make compatible the flow of payment of the commodity exchange with the foreign currency
exchange.



21
In the Madeira river, the belief that alluvial gold deposits were depleting rapidly has prompted some
barge owners to move their boats to the Teles Pires river in the north of the state of Mato Grosso
(Ourinvest, 1990). Although these factors could have positive impacts in terms of mercury pollution,
given the extent of the problem they are clearly insufficient.
4.b. Confronting Mercury Pollution
68.    Mercury contamination of Amazonian rivers have begun to instigate the concern of scholars
and a few government officials. The latter have emphasized the macro problem of garimpo
formation, stressing that garimpagem is in fact a social issue. By taking this approach, however,
officials may be failing to address micro questions that may need urgent considerations. Although
garimpagem have its roots in social discrepancies, mercury contamination may exacerbate these
discrepancies even further.
69.    Scholars, on the other hand, have produced some specific suggestions.  They tend to
emphasize the educational aspects of the problem, but some have also ventured on policy suggestions
of economic origin. No single measure will probably correct the problem; therefore, a combination
of sound economic and educational policies will have to be attempted.
70.    Mercury contamination can be divided in at least two groups: Past discharges for which its
cumulative characteristics make cleaning up necessary, and current/future discharges for which
corrective technology is available. I will focus on the second group.
71.    Mercury discharges linked to gold extraction occur in at least three ways. Part of the
mercury used is released in its metallic form during the amalgamation process. This mercury is
either accidently released when the garimpeiro attemp ts to amalgamate or deliberatly discharged
when the mercury loses its amalgamation capabilities  . At the garimpo, mercury is also freed
in vapor form in the burning of the amalgam. In urban areas, mercury is lost to the environment,
when gold dealers further purify the gold from the garimpos.
72.    Inexpensive corrective technology is available at least in experimental stage for all three
forms of discharge. Saturated mercury may be collected in different dredges and recycled. This
may even prove to be profitable, if the price of mercury is high enough. In addition, garimpeiros
may be stimulated to recycle through the payment of a nominal fee or a discount on the purchase of
new mercury upon the return of used mercury.
73.    Some people related to garimpagem have expressed to me the desire of the garimpeiros to
see the gold forming from the burning of the amalgam. This view has been confirmed by some
garimpeiros, but does not appear to be a major consideration. The technology available for clean
burning of amalgam at the garimpo comprises basically a simple retort. Some of the retorts have
been tested, and their efficiency level may reach over 95 %; that is, only 5 % of the mercury present
in the amalgam prior to burning is discharged in the atmosphere. The principle of the retort is
elementary. The garimpeiro places the amalgam in a metallic bottle that has a metallic tube on the
26 Using a garimpo expression: "The quicksilver gets tired".



22
top. The retort is tightly closed, and the garimpeiro directs the flame of a blow torch to the bottom
of the bottle. Mercury in vapor form leaves the bottle through the tube, which is partly immersed
in a glass or can filled with water. Upon contact with the water, mercury condenses returning to
its liquid form. This mercury may be reused in the amalgamation process. While it is true that the
garimpeiro does not see the gold forming and has to wait to open the bottle and colleci his gold,
placing a window in a retort may decrease its efficiency and increase its costs. Currently, retorts
can be produced quite cheaply (1 to 1.5 grams of gold), and this characteristic should be maintained
if future regulation is expected to be effective.
74.    At the urban setting, gold is burned in a "capela". Capela can be best described as a
chimney, in which mercury vapors are discharged into the atmosphere through its outlet. In this
case, a system of inexpensive filters may be used to retain harmful particles.
4.b.1. Suggested Policy Options
75.    Policy options for mercury pollution from gold mining have been briefly discussed in Report
# 9104-BR (October, 1990), Couto et. al. (Jan./Jun. 1988) and Cleary (September, 1990).
76.    Report # 9104-BR emphasizes the need for education, provision of health services, and
supplying alternatives to gold amalgamation. It suggests that the problem could be corrected if gold
is amalgamated by a central higher authority such as a large buyer or the government, provided
miners are convinced that they receive a fair price for their impure gold. It further points out that
convincing garimpeiros to purchase amalgamation equipment is a feasible alternative.
77.    Couto et. al. briefly points out to the need of a rigorous control of mercury imports. This
has been a popular proposal, and could involve tariffs or quotas as in others commodities that are
subject to import control. Finally, Cleary underscores the need for cheap mercury condensers as the
means of controlling pollution.
78.    The tripod education, appropriate technology and regulation appears to be the key for solving
mercury contamination. Education and technology have been emphasized, and play a major role in
the miner's health aspect. Yet, the above proposals do not mention the need for regulation at the
pollution site, leaving the externality aspect unchallenged. This may be partly explained by the belief
that regulating such a chaotic situation in an area the size of the Amazon is expensive if not
impossible. On the other hand, in the garimpos that I visited, I confirmed that garimpeiros are aware
of the environmental problems caused by their mercury use. They heard that they might be one of
the most affected parties, and that there is a clean technology. Many have expressed that without
regulation, the situation will remain chaotic. This suggests that education and appropriate technology
are necessary but definitely not sufficient.
79.    Some additional points should be made about the proposals above. Currently, the alternative
processes to extract gold are either more expensive or environmentally more dangerous than
mercury. The use of cyanate could, for example, replace mercury utilization, but its consequences
in an unsafe environment such as the garimpo would be disastrous. Moreover, as it is implicit in
the description of the extraction process, dealing with unamalgamated sediments would be virtually
impossible. This idea implies that the garimpeiro would provide barrels of sediments mixed with



23
heavy particles (after the carpet has been washed) to a central authority, who will be responsible for
determining the gold content of the slush. Although it is true that the degree of purity of the
amalgamated gold is common knowledge given its origin, the gold content of the slush would have
to be determined for each extraction cycle. This is a stochastic activity, and each cycle brings
variable amounts of gold. In addition, transporting heavy barrels of sediments will probably be more
costly and cumbersome than a few grams of gold.
80.   Indirect instruments such as taxes may not lead to the desired results as well. The popular
proposal of a mercury import tax or ban will probably affect other industries more than the garimpo.
The cost of mercury is a minute component of the garimpeiro's total cost (only about 0.01 %). Even
if the government places a high mercury tax, mercury costs will remain a small element of total
costs. A ban on mercury imports would be difficult to maintain, and it should be pointed out that
most of the mercury used in the garimpos come from domestic secondary sources.
81.    Taxing other inputs and the gold output could be an alternative. Fuel, for example, is a
major cost for the garimpeiro; yet, a fuel tax would require a change in the national fuel pricing
policy. Furthermore, a gold tax, as previous experience has shown, is extremely difficult to collect.
Indirect instruments such as taxes, if no drawbacks existed, could in principal decrease emissions.
Nonetheless, the stock of pollution in the rivers would probably continue to be augmented.
82.    Direct instruments such as effluent fees and marketable permits are in this circumstance
difficult to institute and monitor.  Additionally, they might fall in the same trap as indirect
instruments; that is, while they can, if well established, decrease emissions, the stock of mercury in
the environment may continue to increase. In a sense, mercury pollution may be compared to
radioactive waste. Both are not readily absorbed by the environment, and their discharge may result
in long term catastrophes.
4.b.2. Additional Policy Considerations
83.    A  feasible policy recommendation has to take into account at least three factors.
Environmental problems are usually not the focus of the agenda of governments in developing
countries; therefore, budgetary constraints may be binding. In addition, a policy recommendation
should consider in detail the characteristics of the chosen industry. Finally, it should exploit any
particularity of the production process, which may assist in curbing pollution.
84.   In the case of mercury discharge from gold extraction, regulation should be an important part
of the basis for a policy approach in combating contamination. Once again, I focus on emissions
rather than the mercury stock already in the Amazonian environment. Regulation, however, has to
be carefully planned, particularly if it is to be effective in a frontier area such as the Amazon.
Attempting to violently repress garimpagem in the region, for example, will probably be costly and
lead to serious social conflict.
85.    Education and appropriate technology are also part of the basis for a feasible policy. Strict
regulatory action is the means that would make this policy effective. An educational campaign
involving radio, television, and visits to garimpos would better inform the garimpeiros about the
dangers of mercury contamination, the available "clean" technology, and future actions the



24
government may take. Regulatory action would thus take place in two phases: a. It would involve
a series of random checks of mining sites and regular inspections of gold purchasing stores, and b.
The maintenance of the regular inspections of gold dealers, and the phase out of random checks.
86.    The tacit idea in this regulatory effort is to stimulate the use of safe technology through an
expected financial loss that could occur if a given garimpo is closed for an extended period. In other
words, miners could lose kilos of gold, because they don't purchase a device that costs 1.5 grams.
It should also be mentioned, however, that it is important to make retorts available for purchase.
87.    The fact that a garimpo has retorts does not mean that the clean technology is being used.
This makes constant inspections at gold stores in neighboring cities of utmost importance.
Amalgamated gold burned in retorts has an unique bullion shape. When garimpeiros come to the
cities to sell their gold, it would be easy for inspectors at gold stores to verify that a retort was used
in the gold extraction process. The inspection is facilitated by the large concentration of old stores
in selected streets; therefore, the number of inspectors and their cost can be minimized
88.    Constant inspections on gold stores would also insure that the dealers are using filters when
further purifying the gold from the garimpos. In fact, when the word is spread that garimpos could
be closed for not using retorts - a possible positive externality arising from the informal information
network28, the garimpeiros themselves could take a precautionary measure and buy retorts ahead
of time. Over time random checks of existing garimpos become obsolete, and regular inspections
of gold stores are sufficient. This should significantly decrease the operational cost of the policy,
since policing a garimpo in the middle of the jungle is probably more costly than inspecting stores
in well established urban areas.
89.    The policy suggestion made above is certainly in its very first draft form. My exposure to
garimpos was brief, and it was restricted to the Madeira River (Belmont) and Alta Floresta region
of Mato Grosso. I have used the garimpos in the Madeira River as an example, because these
garimpos appear to have been better studied in the literature. Extending this proposal for all the
Amazon at this stage could be risky, but does not seem unreasonable. The Madeira River basin
could be an attractive area for a pilot project.
S. Conclusion
90.    Mercury contamination of Amazonian rivers is one of the many environmental problems of
the region; however, its threat to future generations and its extent requires immediate corrective
27 It has been brought to my attention that inspectors can be bribed. The amount of each bribe, however,
has to be very low, for not only is the unit cost of a retort modest but also its average life is about six months. It
could be cheaper for the garimpeiro to purchase a retort, specially if the number of inspectors is greater than one.
On the other hand, in order to make significant amounts of money an inspector has to receive bribes from several
miners, otherwise he may choose to apply the regulation. Therefore, in this particular situation, it is unlikely that
bribes will be a problem.
28 Cleary (1990) calls it "Radio Peao" or "Garimpeiro's Radio Station".



25
actions. Regulation seems to be the most effective way of dealing with the problem in its externality
side. Yet, the socio-economic roots of garimpagem should not be forgotten. As it was mentioned,
the garimpeiro is the main perpetrator of this harmful externality, but through health effects he is
also one of the principal victims of mercury poisoning. Improving living conditions in garimpos
should thus be a welcomed measure.
91.    I also briefly discussed the fish economy, and concluded that in the medium run fish
harvesting could be a sustainable option for economic development of the region if pollution and
resource management problems are corrected. For the latter, the establishment of property rights
is important, but unless the former is remedied, the fish stock could be seriously affected.
92.    Finally, as with other Amazonian problems, further research is clearly needed. The lack of
data at all levels and fields make precise suggestions impossible, but identifying the problems in a
structured manner is important. A project on garimpos and its environmental effects could be an
appreciated contribution to this effort. Lessons from such a project could transcend the Brazilian
Amazonian borders, and assist other developing countries like Venezuela, Peru, and Bolivia in
dealing with their informal gold mining activities.



26
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