Basic dyes are widely used in acryl

Basic dyes are widely used in acrylic nylon and wool dyeing. The dye structures generally embody aromatic with various functional groups. The complex molecular structure often renders them recalcitrant. Some dyes have been reported to cause allergy, irritation, cancer, and even mutation in humans (Bhattacharyya and Sharma, 2004), and therefore the removal of dyes from waste streams before discharge to public water sources is of primary concern.

Sorption is generally regarded as an effective technique for the treatment of dye-containing wastewater. One of the most widely used sorbents is activated carbon which has relatively high sorption capacity for a wide variety of dyes (Choy et al., 1999 and Robinson et al., 2001). Due to economical reasons, several attempts have been made to find alternative sorbents particularly for the sorption of basic dyes. Examples of these biosorbents include orange peel (Namasivayam et al., 1996), palm fruit bunch (Nassar and Magdy, 1997), peat (Ho and McKay, 1998a), teak wood bark, cotton waste, rice husk (McKay et al., 1999), sugar cane dust (Khattri and Singh, 1999), bagasse fly ash (Gupta et al., 2000), and bagasse pith (McKay et al., 2003).

Recently, the unwanted agricultural by-product, i.e. green macroalga, Caulerpa lentillifera, was proven to be effective in removing basic dyes from the concocted waste stream ( Marungrueng and Pavasant, 2006). This work then aimed to extend the basic knowledge on the application of this particular biosorbent on the sorption of a wider range of basic dyes, including the two widely used, commercial basic dyes: Astrazon® Blue FGRL and Astrazon® Red GTLN. In addition, the effectiveness of this biosorbent on the removal of basic dyes was compared with that of activated carbon, the commonly used sorbent, using ‘methylene blue’ as a common dye for comparative evaluation.