Animal key species of the ecosystems of western Ukraine

Andriishyn, B.; Balandiukh, N.; Hnatyna, O.; Dykyy, I.; Ivanets, O.; Koltun, I.; Lesiv, K.; Liesnik, V.; Martsiv, M.; Nazaruk, K.; Reshetylo, O.; Skyrpan, I.; Khamar, I.; Tsaryk, I. Y.; Tsaryk, Y. V.; Shydlovskyy, Ihor

doi:10.30970/vlubs.2022.87.10

VLUBS

2022

DOI: 10.30970/vlubs.2022.87.10

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Animal key species of the ecosystems of western Ukraine

B. Andriishyn¹,

N. Balandiukh²,

O. Hnatyna³

et al.

Abstract: The attention in the article is paid to the key species research importance. Their classification was discussed in our article published in “Studia Biologica” (Y. Tsaryk, O. Reshetylo, I. Tsaryk, Biol. Stud. 2019: 13(1); 161–168). The main emphasis was made on ecological key species, while other categories were analyzed as well (protective, social etc.). A row of potential key species in different ecosystems was proposed based on the original field research. So, such phytophagous insects like the alder leaf be… Show more

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Cited by 6 publications

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Natural and historical aspects of the environmental monitoring in the city of Lviv

Nazaruk,

Bota

2023

Visnyk of v. N. Karazin Kharkiv National University Series "Ecology"

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Purpose. To study the natural-historical aspects of the organization of monitoring the components of the natural environment in the territory of the city of Lviv, to identify the peculiarities of its organiza-tion at different historical stages of the functioning of the urban system, to highlight the specifics of the organization of environmental monitoring in modern conditions. Results Regular meteorological observations with the help of instruments began in Lviv in 1811, and observations and descriptions of the city's vegetation were carried out in the 1950s. Ya. Lagner. In 1944, the Department of Hydrometeorological Service of the Carpathian Military District was organized in Lviv. It included: weather bureau, group of hydrological forecasts, group of restoration of the network of stations. At the beginning of 1946, on the basis of this department, a hydrometeorological office was creat-ed, which since 1959 functioned as a hydrometeorological observatory (HMO) with groups: meteorologi-cal, hydrological forecasts and agrometeorological. In 1964, the Lviv Aerological Station became part of the GMO under the authority of the Aerology Department. Old, historical Lviv was located in the middle of large forests, had many streams, brooks, as well as rich flora. Such diversity is determined by the geo-graphical location, the history of the formation of the relief and climatic conditions in previous geological periods. The study of the landscape-natural primary basis in comparison with the built-up areas leads to the demarcation of the urban environment based on belonging to a certain type of natural landscape and thereby determines different approaches to its transformation. Background observation points located at nature conservation facilities provide information about the state and changes in the natural environment that occur outside of human activity. A comparative analysis of similar indicators obtained in areas with different degrees of urban influence will make it possible to reveal the real state of anthropogenic changes, identify their causes, predict the further consequences of urbanization, as well as build models of such social and production systems that would be the least harmful to the environment. Conclusions. Environmental monitoring in the territory of the city of Lviv has a long history. Moni-toring the state of the atmospheric air, water environment, biodiversity was and remains an important component in the issue of the quality of the urban environment and does not lose its importance. Environ-mental monitoring must be considered as an integral part of the regional management system of nature management, which must perform the target functions of continuous observation and forecasting of the main socio-ecological processes for the purpose of their analysis, identification and identification of the main factors for the preparation and adoption of management decisions.

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Natural and historical aspects of the environmental monitoring in the city of Lviv

Nazaruk,

Bota

2023

Visnyk of v. N. Karazin Kharkiv National University Series "Ecology"

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The role of educational institutions in the development of startup ecosystems (on the example of Lviv)

Mazur

2023

Bulletin of v. N. Karazin Kharkiv National University Economic Series

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Educational institutions are active participants in the startup ecosystem, they create conditions for the development of startup ideas based on higher education institutions and in cooperation with international partners and businesses. The article analyzes the activities of the universities of the city of Lviv, namely Lviv Polytechnic National University, Ukrainian Catholic University, and Ivan Franko Lviv National University in the direction of startups. Universities have high rankings in the international rankings QS World University Rankings, Top 50 Universities in Europe for Startups, Top Universities for Startups in Europe by Educations.com, and U-Multirank World University Rankings, which indicates a strong direction of support and expansion of opportunities for entrepreneurial education. The Lviv Polytechnic National University and the Ukrainian Catholic University created the most groundwork for the creation of a startup environment in the Lviv region. The UCU Entrepreneurship Center, accelerator programs, and Tech StartUp School at the Lviv Polytechnic operate at higher education institutions, which actively promote the implementation of startup ideas among student youth. At the Lviv National University named after I. Franko, innovative bachelor's programs are implemented in partnership with the Lviv IT cluster, and annual start-up events are held, in the framework of which technology transfer takes place, foreign investors are invited and presentations of student start-ups are held. A survey conducted among students who chose the discipline of free choice "Start-up management" showed that a significant majority of students agreed that such a course is important for the development of their professional competence, practical, and relevant to the modern realities of the economy. The course structure, which included lectures, guest lectures, and practical sessions, was recognized by students as useful for developing knowledge and skills in the field of entrepreneurship and startups. In addition, the student's expectations from the course were mostly fulfilled, and the course motivated a significant part of the students to continue working on the startups they created. However, during remote group work, some difficulties arose, which affected the effectiveness of teamwork. The development of a start-up environment based on institutions of higher education allows students to develop entrepreneurial skills that they can apply in the real world. By creating a startup, students can learn to identify and solve real-world problems, work collaboratively in teams, and develop a range of entrepreneurial skills such as creativity, innovation, and risk-taking.

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Processing algorithm of weekly records of the Roztochia landscape-geophysical station thermograph М-16АН as a response source of air temperature data

Yavorskyy,

Chepurko

2023

Visnyk of V.N. Karazin Kharkiv National University, Series Geology. Geography. Ecology

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Formulation of the problem. During the database processing of the Roztochia landscape-geophysical station (RLGS), located in the village of Bryukhovychi, Lviv, an air temperature data gap for 1990–1991 was found. The task of the research was to find those sources about air temperature at RLGS, which would allow us to fill in the gaps during the night hours when, unfortunately, observers did not make measurements. Problems of further research. In comparison with the method adopted in Ukraine for processing weekly thermograph tapes, in this study, it is proposed to correct the air temperature value during their processing, compensating for accelerated or slowed rotation of the weekly thermograph drum. It is suggested to use only those dry bulb measurements carried out on days with cloudy or rainy weather. The purpose. The main goal was to find an algorithm for processing weekly thermograph tapes under the conditions of a partial absence of temperature measurements using a dry thermometer by an observer to fill in the gaps regarding night air temperature data. Research methods. The air temperature values falling during the measurement period were read from the thermograph tapes, and an electronic table was formed. The temperature values (difference estimation) were compared with the corresponding ones recorded in the "Books" of KM-1. At the same time, it was necessary to make two new corrections. The first correction will be made along the ordinate axis, changing the value of the temperature recorded by the thermograph compared to the values of the temperature measured by the dry thermometer. The second correction was made along the abscissa axis, compensating for the drum's slowed down or accelerated rotation. Presentation of the main research material. A brief description of the proposed algorithm for thermograph tape processing is as follows. In the spreadsheet, in separate columns, we record the temperature values during the observation periods: a) by dry thermometer and b) by thermograph at the points corresponding to the observation periods. Subtracting columns (a) and (b) values, we determine those dry bulb temperature values suitable for calculating corrections. We reject too significant differences that occur during rapid temperature changes. Next, we look for points on the thermograph tape that serve as time benchmarks (the starting and ending points of the temperature curve and the places where the observer draws vertical lines). These temperature values will form column (c). It will additionally include the temperature values obtained by reading the temperature from the tape for rainy and/or overcast days for points whose localization is corrected for time. The difference between column (a) and column (c) will give the temperature correction for several observation periods on each weekly strip taken separately. The last step is the linear interpolation of temperature corrections between neighbouring points of intermediate observation periods. Practical value. The proposed algorithm may help eliminate gaps in temperature data at other observation points, where the thermograph served as a backup device for recording air temperature. Research results. The measurements that fall on rainy and overcast weather are best suited for calculating thermograph corrections when air temperature changes slow down. It is necessary to identify benchmark points of time fixation, to which the observer must add the moments of putting on and removing the tape from the drum.

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Animal key species of the ecosystems of western Ukraine

Cited by 6 publications

References 15 publications

Natural and historical aspects of the environmental monitoring in the city of Lviv

Natural and historical aspects of the environmental monitoring in the city of Lviv

The role of educational institutions in the development of startup ecosystems (on the example of Lviv)

Processing algorithm of weekly records of the Roztochia landscape-geophysical station thermograph М-16АН as a response source of air temperature data

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