Monitoring of the state of the coast of water bodies using remote sensing data and organization of anti-erosion coastal protection

The purpose of the work is to substantiate the methodology for monitoring the erosion state of the coastal zone of water bodies using remote sensing data and to propose coastal protection measures that ensure anti-erosion protection. To monitor the development of coastal erosion, a methodology is proposed based on the construction of a topographic relief map and calculations of the water WRI and vegetation NDVI indices obtained from the analysis of remote sensing data. The WRI index map, combined with a topographic map of the area, allows you to determine the direction of runoff, and the vegetation index NDVI allows you to characterize the stability of slopes by assessing the density of vegetation development. When analyzing two maps, erosion areas can be identified. The algorithm for monitoring the development of coastal erosion based on the results of satellite imagery processing was tested during the formation of the Konakovo-Agrotourism tourist cluster. The erosion areas identified on the constructed maps are confirmed by the results of in-kind observations and photo recording of the state of the banks of the Volga River in the Konakovo District of the Russian Federation.

1. Egorov I.E. Drip-rain erosion – relief-forming signifi - cance and methods of study / I.E. Egorov // Bulletin of the Udmurt University. Series Biology. Earth Sciences. 2015. Vol. 25, No. 2. P. 159-166.

2. Chernykh O.N., Burlachenko A.V. Features of changes in the slope profile of floodplain dams and banks of water bodies under wave action // Prirodoobustrojstvo. 2023. No. 2. P. 81-85.

3. Chernykh O.N., et al. Problems of safety and restoration of the coastal zone of large water bodies of the agro-industrial complex, infl uenced by exogenous processes (on the example of Crimea) / monograph: collective of authors / A.E. Avakyan, E.S. Baranova, I.A. Baranovskaya [et al.]. Petrozavodsk: MCNP “NEW SCIENCE”, 2024. 533, P. 406-428. ISBN 978-5-00215-454-8. DOI 10.46916/05112024-1-978-5-00215-454-8.

4. Chin L. Combined use of Landsat 8 and Sentinel 2A images to improve the spatial resolution of the Earth’s surface temperature / L. Chin, V.R. Zablotsky // Bulletin of the Bauman Moscow State Technical University. Natural Sciences Series. 2021. No. 6 (99). P. 45-63. DOI: 10.18698/1812-3368-2021-6-45-63

5. Semenova K.S. Assessment of the state of underground engineering structures of the reclamation system using moisture maps obtained from remote sensing data from the DJI PHANTOM 4 MULTISPECTRA unmanned aerial vehicle / K.S. Semenova // Prirodoobustrojstvo. No. 3, 2023. P. 31-35. DOI 10.26897/1997-6011-2023-3-31-35

6. Semenova K.S. Identifi cation of coastal erosion using modern digital technologies / K.S. Semenova // Proceedings of the International Scientifi c Conference of Young Scientists and Specialists dedicated to the 150th anniversary of the birth of A.Ya. Milovich: Collection of articles, Moscow, June 03-05, 2024. Moscow: Russian State Agrarian University – Moscow Timiryazev Agricultural Academy, 2024. P. 23-27. EDN SZZHSQ.

7. Datsenko Yu.S. The infl uence of the Ivankovskoye Reservoir on the quality of the Volga water supply source of Moscow / Yu.S. Datsenko // Bulletin of Moscow University. Series 5: Geography. 2021. No. 5. P. 124-130.

8. Grishantseva E.S. Ecological and geochemical studies of small rivers fl owing into the Ivankovskoye Reservoir (Volga River) / E.S. Grishantseva Ya.V. Bychkova, L.P. Fedorova // Water: chemistry and ecology. 2019. No. 1-2. P. 15-26. EDN: CLFJSF

9. Jintao Liang, Chao Chen, Yongze Song, Weiwei Sun, Gang Yang Sustainable Horizons Long-term mapping of land use and cover changes using Landsat images on the Google Earth Engine Cloud Platform in bay area – A case study of Hangzhou Bay, China Author links open overlay panel – Volume 7, September 2023-100061.

10. NDVI – theory and practice [Electronic resource] GISLAB [sajt]. – URL: http://gislab.info/qa/ndvi.html (data obrascheniya 12.08.2021).

11. Belotserkovsky M.Yu. Ecology of erosion-channel systems of Russia: monograph / M.Yu. Belotserkovsky K.M. Berkovich, O.V. Vinogradova, N.G. Dobrovolskaya i dr. Under the editorship of R.S. Chalov. Moscow: Faculty of Geography, Moscow State University, 2002. 163 p.

12. Chernykh O.N. Bank protection structures of water bodies: a tutorial / O.N. Chernykh, N.V. Khanov, N.V. Burlachenko. Volume Part 1. Moscow: Russian State Agrarian University – Moscow Agricultural Academy named after C.A. Timiryazev, 2018. 164 p.

13. STO NOSTROY2.33.22-2011 Reclamation systems and structures. Gabion anti-erosion structures. General requirements for design and construction. Moscow: Federal State Budgetary Scientifi c Institution “RosNIIPM”. 2012.

14. Kaganov G.M. Hydraulic structures made of reinforced soil: monograph / G.M. Kaganov, I.M. Evdokimova, K.I. Shevchenko. M: NIA-Priroda, 2004, 607 p.

15. Khanov N.V. Bioengineering technologies for the protection and development of coastal lands of small water bodies of the agro-industrial complex / N.V. Khanov, O.N. Chernykh, S.O. Kurbanov, F.T. Dudarova. // Prirodoobustrojstvo. No. 3, 2024. P. 53-63. https://doi.org/10.26897/1997601120242-53-63