RESUMO
Environmental DNA (eDNA) analyses have enabled a more efficient surveillance of species distribution and composition than conventional methods. However, the characteristics and dynamics of eDNA (e.g., origin, state, transport, and fate) remain unknown. This is especially limited for the eDNA derived from nuclei (nu-eDNA), which has recently been used in eDNA analyses. Here, we compared the particle size distribution (PSD) of nu-eDNA from Japanese Jack Mackerel (Trachurus japonicus) with that of mt-eDNA (eDNA derived from mitochondria) reported in previous studies. We repeatedly sampled rearing water from the tanks under multiple temperatures and fish biomass levels, and quantified the copy numbers of size-fractioned nu-eDNA. We found that the concentration of nu-eDNA was higher than that of mt-eDNA at 3-10 µm size fraction. Moreover, at the 0.8-3 µm and 0.4-0.8 µm size fractions, eDNA concentrations of both types increased with higher temperature and their degradation tended to be suppressed. These results imply that the production of eDNA from large to small size fractions could buffer the degradation of small-sized eDNA, which could improve its persistence in water. Our findings will contribute to refine the difference between nu- and mt-eDNA properties, and assist eDNA analyses as an efficient tool for the conservation of aquatic species.
