Today, the number of marine carcasses found is steadily increasing. However, most forensic techniques are studied based on dead bodies found on ground, so it is difficult to apply them to the marine environment. Therefore, in order to overcome this problem, it is necessary to develop an forensic investigation technique specific to the marine environment. In particular, to estimate the marine dumping time, which is an important clue in solving the case, a study on marine organisms is needed. There are many different kinds of living things in the ocean. In particular, organisms that continue their life cycle by attaching to a certain substrate are called epibiont. Epibionts are characterized by severe seasonal variation, exist where they were originally located until the individual disappears, and even if extinct, their traces remain, so it can be of great help in estimating time. Therefore, in order to estimate the dumping time of evidence discarded in the sea, epibiont patterns were studied for various materials. Considering the peculiarities of the sea area of the Korean Peninsula, immersion testing sites were built in 4 regions across the country, and samples were immersed and analyzed at 30-day intervals. Since the transition of marine organisms varies with time, it is possible to estimate the time of exposure to the ocean through changes in length, weight, and shape that occur as organisms grow. As a result of collecting data such as species and weights of epibionts in each region and converting them into a database, it was possible to observe the characteristic distribution of epibionts according to the environment. In addition, as a result of analyzing the appearance patterns and year-round growth rate by selecting a species that is easy to identify and grows wild among various epibiont species, it was possible to calculate the estimated time of dumping at sea using the indicator species for each region. Unlike previous studies in freshwater environments, this study was conducted in a marine environment. In particular, the accuracy was improved by using marine organisms that are native to the Korean Peninsula as an indicator species. In addition, the basic data necessary for estimating the marine dumping time of evidence was prepared by identifying the changes in the community over time.