Management, Protection, and Control of Lake Titicaca

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Case Description
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, , ,
Geolocation: -15° 47' 46.2894", -69° 22' 59.1884"
Total Watershed Population: 2,448,790 million
Total Watershed Area: 111,582 km243,081.81 mi²
Climate Descriptors: Semi-arid/steppe (Köppen B-type), Arid/desert (Köppen B-type), Dry-winter
Predominant Land Use Descriptors: rangeland, religious/cultural sites
Important Uses of Water: Agriculture or Irrigation, Domestic/Urban Supply, Other Ecological Services

More facts

Summary

Populations have been living around Lake Titicaca for 10,000 years, dating back to the Archaic period. The first communities appeared around Titicaca in 1,200 BC and since then have increased in population and have become more dependent on its water for their livelihood for agriculture and navigation. A series of natural occurring events took place in the 1980s which pushed the countries of Peru and Bolivia to manage the waters of Lake Titicaca in a more sustainable manner as the vulnerability of the inhabitants of the region was very high in extremely poor conditions that did not need to be exacerbated further. In the rainy seasons of 1982-3 and 1989-90, extreme droughts caused hundreds of millions of dollars in damage to the agricultural industry, both crop and animal. The years in between experienced a higher than average rainfall and culminated in the severe floods of 1986-7 causing, again, over a hundred million dollars of damage to not only the agricultural industry, but to infrastructure as well. Relations between Peru and Bolivia have always been good dating back to when they became independent nations in the 1800s. Lake Titicaca has not been a source of contention between the two states, but rather a reinforcement of their willing to cooperate with one another when their interests are mutual. The major problem; therefore, is not about conflict between Bolivia and Peru, but how to develop and improve the living conditions of the extremely poor populations who live with the Titicaca basin.

Natural, Historic, Economic, Regional, and Political Framework

Laketiticacatfddimage.jpg Image 1. Map of Lake Titicaca[1]

Background

Populations have been living around Lake Titicaca for 10,000 years, dating back to the Archaic period. The first communities appeared around Titicaca in 1,200 BC and since then have increased in population and have become more dependent on its water for their livelihood for agriculture and navigation.

A series of natural occurring events took place in the 1980s which pushed the countries of Peru and Bolivia to manage the waters of Lake Titicaca in a more sustainable manner as the vulnerability of the inhabitants of the region was very high in extremely poor conditions that did not need to be exacerbated further. In the rainy seasons of 1982-3 and 1989-90, extreme droughts caused hundreds of millions of dollars in damage to the agricultural industry, both crop and animal. The years in between experienced a higher than average rainfall and culminated in the severe floods of 1986-7 causing, again, over a hundred million dollars of damage to not only the agricultural industry, but to infrastructure as well.

The Problem

Relations between Peru and Bolivia have always been good dating back to when they became independent nations in the 1800s. Lake Titicaca has not been a source of contention between the two states, but rather a reinforcement of their willing to cooperate with one another when their interests are mutual. The major problem; therefore, is not about conflict between Bolivia and Peru but how to develop and improve the living conditions of the extremely poor populations who live with the Titicaca basin. Mario Revollo of the Autonomous Bi-national Authority of Lake Titicaca gives four explanations of the principle problems the lake region suffers.[2]

1. Extreme weather events

As mentioned above, the Lake Titicaca region experiences a high variability in terms of its weather patterns. With such fluctuations in rainfall, the well-being of the inhabitants of the basin is controlled by how much water falls from the sky. And this, from year-to-year, can change from too much to too little. There is a high level of uncertainty, and risk, living under such conditions.

2. Insufficient regulatory works

Even though the Lake Titicaca is very large and has significant volume, the hydrological balance of the entire TDPS system is very delicate due to the inflow vulnerability as a result of high evaporation. The regulation of the lake's water is deficient in that it does not prioritize sectors of water use and there are insufficient works in place to do so.

3. Environmental degradation

Living beside such a large body of water, people sometimes take for granted the effects of pollution can have. While pollution has never been a regional concern for the two countries, as the volume of the lake is so large, there are several examples of punctual cases of pollution near major population centers such as Puno, Peru, and Copacabana, Bolivia. The lack of sewage treatment plants around the lake causes most waste to be put directly into Titicaca and, as a result, pollution levels have been rising over the decades, thereby contaminating water.

Other sources of degradation come from the cattle industry that surrounds the lake and the loss of soil due to their impact and, with regards to the fishing industry, the introduction of exotic species and the over-fishing of both those and indigenous species has left the lake with smaller and smaller fish.

4. Socioeconomics

Extreme levels of poverty have existed within the Lake Titicaca basin for several decades now. This has been intensified by the two nations' negative economic growth rate over the last ten years. Because most of the people who reside around the lake are subsistence farmers, the negative effects of Bolivia and Peru 's economic decline have been acute. With ever-diminishing and abused natural resources as a result of lack of education in the region, the stress under which the people live does not create a environment conducive to awareness regarding pollution and sustainability.

Attempts at Conflict Management

With great vision, Peru and Bolivia have been trying to address the development of the Lake Titicaca region since the 1950s. In 1957, after preliminary declarations by the presidents and foreign ministers, Bolivia and Peru signed the first-ever agreement concerning the waters of Lake Titicaca. It was called the Preliminary Convention for the Study of the Use of the Waters of Lake Titicaca and provided for the "indivisible and exclusive joint ownership of both countries of the waters of the lake" while at the same time creating a joint management entity known as the Joint Sub-commission (Sub-Comisión mixta). The purpose of the Convention was to promote development within the basin of Lake Titicaca in a manner that would not disrupt the flow and volume as to affect the navigational uses of the body of water.

Peru immediately ratified the Convention in 1957, but it took almost thirty years and several severe weather occurrences before, at the end of 1986, Bolivia also ratified the agreement. The economic losses incurred during the drought of 1982-3 and the floods of 1986-87, pressured the Bolivian government to ratify in order to improve the management situation of the lake. During the period before the ratification, both countries conducted its own research concerning Lake Titicaca, but did so in a coordinated way. After ratification occurred, the Joint Sub-commission become SUBICOMILAGO, the Joint Sub-commission for the Development of the Integrated Region of Lake Titicaca. Entities within each country were formed during this same time period, PELT (Lake Titicaca Special Projects) on the Peruvian side and the UOB (Bolivian Operating Unit) on the Bolivian side.

From 1991 to 1993, Peru and Bolivia solicited the cooperation of the European Community in order to help develop a framework for a Binational Master Plan. By 1995, the Binational Master Plan for the Control and Prevention of Floods and for the Use of Resources of the TDPS System (Lake Titicaca, Desaguadero River, Lake Poopo and Coipasa Salt Lake ) had been approved by both countries and, in April of 1996, signed and put into effect by June 1.

During the process of the creation of the Master Plan, diplomatic notes were exchanged between the governments of Peru and Bolivia, which led to the establishment of the Binational Autonomous Authority of Lake Titicaca (ALT).


Outcome

The Autonomous Binational Authority of Lake Titicaca (ALT) was created with the objective to implement and enforce the management, control and protection of the Lake Titicaca system's water resources as laid out in the Master Plan. Each country has administrative entities that coordinate with the Ministries of Foreign Affairs of both nations and with one another. The technically oriented units of Peru and Bolivia, PELT and UOB, respectively, coordinate the actions of the governments and centralize information (Figure 2).

Since its inauguration in 1996, ALT has been able to achieve some considerable advancement in the area of regulatory works within the basin. A series of projects was initiated and the first major dam was finished in 2001, near the mouth of the Desaguadero River. These "doors" will attempt to control flood situations when the level of the lake rises above 3,810 meters above sea level. In creating this dam, irrigation yields have increased on both sides of the border as Peruvians and Bolivians are better able to utilize the lakes water resources.

Issues and Stakeholders

Analysis, Synthesis, and Insight

Key Questions

  1. ^ Product of the Transboundary Freshwater Dispute Database, Department of Geosciences, Oregon State University. Additional information about the TFDD can be found at:http://www.transboundarywaters.orst.edu/research/case_studies/Lake_Titicaca_New.htm
  2. ^ Revollo, M. (2001). Case Report: Management Issues in the Lake Titicaca and Lake Poopo system: Importance of developing a water budget. Lakes and Reservoirs: Research and Management, 6 (3), p. 225.



Facts about "Management, Protection, and Control of Lake Titicaca"RDF feed
Area111,582 km² (43,081.81 mi²) +
ClimateSemi-arid/steppe (Köppen B-type) +, Arid/desert (Köppen B-type) + and Dry-winter +
Geolocation-15° 47' 46.2894", -69° 22' 59.1884"Latitude: -15.7961915
Longitude: -69.3831079
+
Land Userangeland + and religious/cultural sites +
Population2,448,790 million +
Water UseAgriculture or Irrigation +, Domestic/Urban Supply + and Other Ecological Services +