Formaldehyde (FA), HCHO, is the mos

Formaldehyde (FA), HCHO, is the most commonly found aldehyde in the environment (Liteplo et al., 2002). In general, formaldehyde enters the environment from natural sources, forest fires and from direct human pollution sources, such as fuel combustion, industrial on-site uses and off gassing from building materials and consumer products (Wakefield, 2008 and Priority Existing Chemical Assessment, 2006).

Due to the high solubility (Heimlich, 2008), formaldehyde is found in natural rain, clouds, fog and steam, which paves its way as a pollutant. Moreover, the broad biological properties place formaldehyde among the significant industrial hazardous substances, with high impact on human health (Heimlich, 2008, Liteplo et al., 2002 and Programme on Chemical Safety Formaldehyde Health and Guide n, 1991). In air, formaldehyde is considered as immediately dangerous to life and health at a concentration level of 24 mg m−3, and exposure limit of 90 g m−3 (Institute for Occupational Safety and Health, 1994).

Recently, there has been a tendency to determine the concentration of formaldehyde in the environmental samples for pollution control purposes and to provide strict regulatory restriction on the usage of consumer products. Therefore, a simple, rapid and highly sensitive determination method is urgently required (Heimlich, 2008).

Sensitive methods for formaldehyde determination include GC (Bianchi et al., 2007, Del Barrio et al., 2006, Reche et al., 2001, Velikonj et al., 1995 and Davydova et al., 1986), voltammetry (Zhao et al., 2006), fluorometry (Zhang and Tian, 2004 and Li et al., 2007), LC and HPLC (Possanzini and Di Palo, 2003, Witthauer et al., 1999, Isakau et al., 2009, Fu Liu et al., 2005, Huber and Fresenius, 1981 and Chen et al., 2008). However, spectrophotometric based methods (Teixeira et al., 2004, Feng et al., 2004, Gigante et al., 2004, Tian et al., 2004, Cui et al., 2007, Jagadeesan and Gupta, 1979, Li et al., 2008, Gibson et al., 2008, Mohamed et al., 2008, Guo et al., 2006 and Pinheiro et al., 2004) are among the relatively low-cost, simple and sensitive methods and are very popular. These methods are based on the reaction of formaldehyde with reagents, such as Schiff’s reagent (Gibson et al., 2008), p-phenylenediamine ( Mohamed et al., 2008), chromotropic acid ( Gigante et al., 2004), brilliant cresyl blue ( Guo et al., 2006) and fluoral P ( Pinheiro et al., 2004).

The present work reports a simple, sensitive and accurate spectrophotometric method for the determination of formaldehyde in aqueous samples. The method is based on the formation of a colored telomere from the reaction of formaldehyde with indol-3-ethylamine (knows as tryptamine; TA), in a sulfuric acid medium. The method was optimized for the determination of unknown levels of formaldehyde in samples of rainwater, wooden products, and total cigarette smoke.