This investigation was conducted three times (April, August, and October) from 2023 at five surveyed sites in Gonyangcheon estuarine wetland. A total of benthic macroinvertebrates belonging to 59 taxa 44 families 21 orders in 8 classes of 4 phyla were collected. The numbers of benthic macroinvertebrates species in each surveyed site were from 10 (St.1) to 41 (St.2). As a community indices analysis, the average DI is 0.78 (±0.12), H' is 1.6 (±0.68), R′ is 0.96 (±0.39), and J´ is 0.61 (±0.24). Community indices tended to decrease as the diversity and abundance decreased downstream. Total ecological score of benthic macroinvertebrates community (TESB), an average score of 35.47 (±15.86). The Habitat of Clithon retropictum and Ellobium chinense belonging to endangered species II, were identified at st.3~st.5.

In the Gucheon stream of Deogyusan National Park, a survey was conducted at three sites (six sites in total) in 2018 and 2021. A total of benthic macroinvertebrates of 107 taxa 46 families 13 orders in 6 classes of 5 phyla were found. According to the analysis of the appearance by year, a total of 87 species were surveyed in 2018, and a total of 89 species were surveyed in 2021. As a results to the functional feeding group analysis, Gathering-Collector (GC) accounted for a high species share (2018: 29.89%, 2021: 25.84%). In the functional habitat group analysis, Clinger (CL) accounted for a high species share (2018: 56.32%, 2021: 57.30%). Average annual community indices analysis, DI 0.38(±0.05), H′ 3.48(±0.19), R′ 3.23(±0.41), and J′ 0.85(±0.04) in 2018, and DI 0.55(±0.09), H′ 2.98(±0.31), R′ 2.91(±0.65), and J′ 0.70(±0.05) in 2021. As a results of the benthic macroinvertebrates index (BMI) analysis, indicating that all sites were classified as "very good," with average BMI values of 95.24(±2.84) in 2018 and 96.99(±1.13) in 2021.

At a time when the demand for drones is increasing, a plan to utilize drone images was sought for efficient promotion of cadastral resurvey. To achieve the purpose of this study, the technical and legal status of drone images was reviewed, and through this, the possibility of using it for cadastral resurvey was primarily reviewed. subsequently, an experiment was conducted targeting the project district to examine whether drone images were applied to boundary extraction, which is the primary process of cadastral resurvey. As a result of the experiment, it was found that boundary extraction from images is possible. However, in some cases, it is impossible due to field conditions or image quality. Therefore, it is necessary first to apply cases where boundary extraction is possible to cadastral resurvey and seek solutions for some impossible cases. In particular, the image quality problem may have problems with the current technology, but it will also have problems with the existing drone equipment. So, standard for drone calibration should also be established. Finally, the cadastral resurvey surveying procedure using drones was also presented.