A noniterative detection method is proposed in this paper to reduce the nonlinear interference of the LACO-OFDM system in nonlinear channels. Maximum likelihood detection in the frequency domain of the proposed noniterative receiver is not required, which can avoid the propagation of nonlinear noise from the lower to the upper layer of LACO-OFDM. Simulation results show that the PAPR of LACO-OFDM signals of Layer 1 is the highest in the nonlinear amplitude clipping channel, which has the highest level of nonlinear interference. Each layer signal is independently demodulated in the noniterative detection receiver, and the frequency domain detection of the first layer signal is not performed. Therefore, the nonlinear noise of Layer 1 is not transmitted to the signal of the upper layer, and the ACO-OFDM signal of Layers 2, 3, and 4 is almost unaffected by the nonlinearity. Compared with the iterative detection receiver, the performance of the proposed receiver exceeds that of the iterative detection method with the enhancement of nonlinearity. The SNR gain of the proposed receiver is 1 dB-3 dB at the 7% FEC limit.