01519naa a2200193 a 450000100080000000500110000800800410001910000160006024500680007626000090014452010070015365300130116065300130117370000200118670000220120670000150122870000180124377300640126119260152016-03-24       2012    bl ---       0--  u    #d1 aBERGIER, I.  aBiofuel production from water hyacinth in the Pantanal wetland.  c2012  aThe Pantanal is a major wetland in the inner South America, with the potential for production of large quantities of biomass of aquatic fl oating species, especially water hyacinth (Eicchornia crassipes and E. azurea), during the aquatic phase of the fl oodpulse characteristic for this ecosystem. Such biomass could be wisely managed for the production of biofuels. This should be based on the concepts of renewability and ecosystem surplus, and could help in neutralizing of regional and global industrial carbon impacts and to induce socioeconomic development. The aquatic biomass exploitation would require low fossil energy and materials inputs, leaving a positive energy balance, with minimal interference in the environment. This emerging biofuel-based economy in the Pantanal can be a good example of human adaptation to climatic changes by managing carbon export of natural wetlands. The concepts described herein could be used in other natural, restored or artifi cially constructed wetlands.  aBionergy  aClimatic1 aSALIS, S. M. de1 aMIRANDA, C. H. B.1 aORTEGA, E.1 aLUENGO, C. A.  tEcohydrology and Hydrobiologygv. 12, n. 1, p. 77-84, 2012.