In Taiwan, about 350,000 m3 of nursery substrates are needed to grow rice seedlings. At present, most of the nursery substrates in Taiwan are soil collected from mountain areas. With the growing concern of soil conservation, it is increasingly difficult to obtain soil from mountain areas. Therefore, alternative substrates are in urgent need. On the other hand, in Taiwan, about 4,000,000 m3 sediments are deposited in reservoirs every year. The amount of deposited sediments fits the need of rice nursery substrate in quantity. If the quality of reservoir sediments were suitable for nursing rice seedlings, utilizing reservoir sediments as the alternative substrates could benefit the nursery industry as well as the cleaning of the dredged sediments. The aims of this research are (i) to evaluate the feasibility of utilizing reservoir sediment as an alternative substrate of rice seedlings (ii) to investigate the key factors in growing rice seedlings based on reservoir sediments (iii) to study the related mechanisms of the key factors. In this study, the physical and chemical properties of the sediments were first analyzed. Then, several pot experiments were carried out to study the key factors in the growth of rice seedlings. Finally, the quality of rice mat nursery based on reservoir sediments were evaluated by a tray experiment and a transplanting experiment. The results showed that the poor physical properties of the sediments would adversely influence the water permeability and water retention of nursery substrates and would lead to cracks on the surface of sediment-based mat nursery after water sprinkling. Therefore, reservoir sediments were not suitable for being readily used as nursery substrates. However, after the amendment of organic matters, the surface cracks of sediment-based mat nursery were reduced. According to the pot experiments, under the submerged condition, the key factor in the growth of rice seedlings was substrate nutrients. The texture of sediment, the type of organic matters and the addition amount of organic matters would mutually influence the nutrient availability in substrates hence the growth of rice seedlings. The fine sediment was better than the coarse sediment as a rice nursery substrate since it had high content of clay hence higher nutrient retention ability. In OM types and OM addition amounts, the N availability in substrates after adding OM is the key factor that should be carefully considered. Adding 20 % of rice husk (RH) or rice husk biochar (RHB) would raise the C/N of a substrate up to the level that microbial immobilization of nitrogen easily occurred at. On the other hand, adding pyrolyzed organic matters, RHB in this study, might reduce the nitrogen availability due to the adsorption effect of biochar on urea. Using (NH4)2SO4 as the N source might reduce the loss of available nitrogen in RHB-amended substrates. Overall, according to the pot experiments, the rice seedlings grew best in the fine sediment amended with 10% RH. Based on the tray experiment and the transplanting experiment, the 10% RH-amended sediments could produce mat nursery with the quality as high as that of the nursery soil. In summary, it is feasible to utilize reservoir sediments as the alternative rice nursery substrates. Among the sediment-based substrate mixtures, the fine sediment amended with 10% RH is recommended. Utilizing reservoir sediment as the alternative mat nursery substrate of rice can ease the shortage of nursery soil as well as benefiting the cleaning of deposited reservoir sediments.