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Water Resour Manage (2013) 27:26112622

DOI 10.1007/s11269-013-0306-3

Zhenliang Liao & Phillip M. Hannam

Received: 11 April 2011 /Accepted: 4 February 2013 /

Published online: 13 February 2013# Springer Science+Business Media Dordrecht 2013

Abstract In recent years, there have been many quarrels among countries of the Mekong River Basin surrounding use of the water resources of that river. In particular, Chinas behavior of constructing dams upstream has resulted in objections by many people in all countries downstream. Cooperative game theory has been applied to solving issues of building and utilizing dams on trans-border rivers. The central question is how to allocate the surplus benefits generated by the dams. This paper proposes to achieve an all-win situation in use of Mekong water resources through cooperation. A game named The Mekong Game was designed for those Ph.D. students and resource persons to play on the PROSPER.NETs workshop in 2010. For a hypothetical case in Mekong Game, the Shapley Value Methods results were given, which could be regarded as one of equitable results in theory, and the Mekong Games process and outcomes are introduced in this paper. Participants were divided into six groups representing the six involved countries. The process of meeting an agreement with an all-win idea was simulated through three roundtable negotiations. For the hypothetical case, different set of results under different situations were compared and discussed, including no dam(s), dam(s) without cooperation, dam(s) with cooperation but without compensation and re-allocation, Shapley Value Method, and Mekong Game (bargaining and negotiation). The results reveal: although it is hard to get theoretical optimal aftermath considering other complicated factors than those can be calculated, the all-win situation is still possible through bargaining and negotiation processes, which should be much better than all-lose situation such as the current one.

Keywords Mekong river . Water resources use . Cooperative game theory. Transboundary issue

Z. Liao

Key Laboratory of Yangtze River Water Environment of Ministry of Education, Tongji University, Shanghai, China

P. M. Hannam

UNEP-Tongji Institute of Environment for Sustainable Development, Tongji University, Shanghai, China

Z. Liao (*)

College of Environmental Science and Engineering, Tongji University, 1239 Siping Road, Shanghai 200092, Chinae-mail: [email protected]

The Mekong Game: Achieving an All-win Situation

2612 Z. Liao, P.M. Hannam

1 Introduction

The Mekong River rises in the...