The main purposes of this study are to investigate the effects of wood preservation on the resistances to Coptotermes formosanus Shiraki, Lenzites betulina, and Laetiporus sulphureus. Additionally, the effects of wood preservation on metal corrosiveness and strength properties of wood are also studied. The resistances to Coptotermes formosanus Shiraki, Lenzites betulina, and Laetiporus sulphureus are tested by the heartwoods of Cunnignhamia lanceolata、Tsuga heterophylla、Cryptomeria japonica 、Larix leptolepis and the sapwood of Taiwania cryptomerioides which were treated with the following absorbing capacity of ACQ-K2(1.3 kgf/m3), ACQ-K3(2.6 kgf/m3), ACQ-K4(5.2 kgf/m3), AAC-K2(2.3 kgf/m3), AAC-K3(4.5 kgf/m3), and AAC-K4(9.0 kgf/m3) as specified in CNS 3000. On the termite resistances test, the weight loss of treated wood did not exceed 1% and the weight loss didn’t exceed 2 % even after weathering test. On the decay resistances test, all of the treated specimens were well protected against L. Sulphureus（except Cryptomeria japonica specimens）. And the treated Taiwania cryptomerioides Hayata and Larix leptolepis specimens were well protected against L. betulina. The treated wood did not exert significant effect on the surface Zinc-plated steel nail corrosiveness, however, the treated wood had significant effect on the low-carbon nail corrosiveness. When ACQ was used, the weight loss of low-carbon nail (1.93 %) > the weight loss of surface Zinc-plated steel nail (1.41 %). When AAC was used, the weight loss of low-carbon nail (3.78 %) > the weight loss of surface Zinc-plated steel nail (1.24 %). After the preservative treatment, Taiwania cryptomerioides, Cryptomeria japonica,and Cunnignhamia lanceolata specimens which absorbed ACQ and reached the grade ACQ-K2、ACQ-K3 and ACQ-K4, the results showed that MOE/specific gravity and MOR/specific gravity did not change significantly (except the MOE/specific gravity of K2 group of Taiwania cryptomerioides reduced significantly), and the values of MOE and MOR change were about 10%. Taking Taiwania cryptomerioides as an example, as estimation, the preservation treated sill of one wooden construction building with a floor area of 136 m2 could reduce 43.72 kg CO2 which fixed in the wood would return to the atmosphere by the gnawing of termite. And it would reduce 129.90 kg and 123.50 kg of CO2 caused by the infringement of Lenzites betulina and Laetiporus sulphureus respectively.