The photochemical apparatus organization in the thylakoid membrane of Macrocystis pyrifera, the giant kelp, was investigated. Chloroplasts were isolated from surface and minus 20 meter blades. Photosynthetic electron-transport complex quantitation revealed ratios of photosystem (PS) II/cytochrome b(6)-f/PSI = 1.8:3.3:1.0 in surface and 2.2:2.3:1.0 in minus 20 meter blades. The apparent photosynthetic unit size of chloroplasts from minus 20 meter blades (chlorophyll/P700 = 1485:1) was about 45% larger than that of surface blades (chlorophyll/P700 = 1025:1). The larger photosynthetic unit size of minus 20 meter blades is attributed to the substantially lower intensity of sunlight reaching the minus 20 meter habitat. In different chloroplast preparations, the effective absorption cross section of PSI and PSII to 670 nanometer light (chlorophyll a) and 481 nanometer light (chlorophyll c and fucoxanthin) was investigated. The results showed larger functional antenna size for PSII (about 90%) and for PSI (about 50%) in minus 20 meter than in surface blades. Moreover, the efficiency of utilization of 481 nanometer light by Macrocystis chloroplasts was equal to that of 670 nanometer light. It is concluded that the chlorophyll c-fucoxanthin complex in brown algae enables the highly efficient utilization of blue-green wavelengths of the nearshore marine environment and contributes to the dominance of M. pyrifera in this habitat.