This article presents the results of assessing the impact of fires on the vegetation of the Chernobyl Exclusion Zone and the zone of unconditional (mandatory) resettlement, Drevlyansky Nature Reserve using means of remote sensing of the Earth for the period from 1986 to 2020. The methods and criteria for assessing vegetation damage using spectral data obtained from space satellites of the Earth and using methods of geoinformation technologies are proposed. This methodology provides mapping vegetation through remote sensing imagery. Comparing space images of the territory of the exclusion zone and the zone of unconditional mandatory resettlement for 1986, 1999, 2013, 2017, 2018, 2019, 2020, for the period of 34 years after the accident, identified significant changes in the condition of lands belonging to forest and agricultural lands. In the result of the study revealed the changes observed in the boundaries of water bodies because drying of artificial reservoirs, changes in the direction of riverbeds, waterlogging of drainage canals and adjacent forest areas. The identified effect from fires in forests where dry forest materials have accumulated and from consequences of forest management. It is also noted, that according to the spectral data of space images, areas of forest damaged by insects are well defined. The study reveals
The research aimed to estimate the intensity of the impact of some environmental factors on the seasonal development of apical bark beetle (Ips acuminatus) in Scots pine (Pinus sylvestris) stands in the conditions of Ukrainian Polissya, as well as to evaluate the extent and dynamics of infestation of forest ecosystems. According to the results of the classification of the obtained satellite images, the dynamics of the area and number of tree mortality foci of P. sylvestris per quadrant was determined, which enabled us to create appropriate maps by the area of infestation and its propagation rate. In 2018, there was an intensive increase in the area affected by apical bark beetles compared to 2017. Whereas in 2019 the expansion of the affected areas compared to the previous 2018 slowed down significantly. Approximation of experimental data revealed the presence of a logarithmically normal distribution for the infestation area, and, consequently, the size of the pest population. The Principal Component Analysis revealed that in the studied area the most important factor influencing the population dynamics of ipid bark beetle and, accordingly, the intensity of its invasion, were weather and climatic conditions. Characteristics of the stand had little effect. It was established that favourable climatic conditions led to the fact that in the territory of Ukrainian Polissya I. acuminatus develops in more than two generations per year, and also slightly changed the attack strategy, namely the rate of damage and selectivity. An assumption on the further forming of favourable conditions for the proliferation of I. acuminatus, the emergence of new, not previously characteristic of the pest features of seasonal development and, consequently, the insect invasion on stands of P. sylvestris was made.
Радіоекологічне районування ландшафтів належить до способів наукового дослідження стану радіоекологічного забруднення території і призначений для врахування ступенів ризиків, що виникають внаслідок забруднення сільськогосподарських та природних екосистем радіонуклідами, на стадії планування виробництва, інформаційного забезпечення вирішення проблем оздоровлення довкілля у контексті радіаційного забруднення, забезпечення умов, сприятливих для життєдіяльності людей та господарської реабілітації забрудненого радіонуклідами регіону. Спосіб базується на використанні відкритих безкоштовних базових картографічних шарів та супутникових знімків, а їх обробка здійснюється у безкоштовному ГІС-програмному забезпеченні.
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