Distribution and Habitat Selection of Free-Ranging European Bison ( Bison bonasus L . ) in a Mosaic Landscape — A Lithuanian Case

In Lithuania, free-ranging European bison live sedentarily in the fragmented landscape of the central part of the country. The aim of this study was to analyze the distribution and habitat selection of European bison in a semi-isolated territory. Free-ranging European bison living sedentarily have formed six groups in the mosaic landscape of central Lithuania. A herd of 34 individuals of European bison entered into a new semi-isolated territory in 2016. During the snow-free season, we tracked the movements of the herd by fitting a global positioning system (GPS) collar to the leading cow. To evaluate the home range and habitat selection, we used ArcGIS software, Jacobs’ index, and chi-square testing to verify significant differences between proportions. The home range of European bison was largest in spring, decreased in summer, and increased again in autumn; this was associated with feeding and the food supply in agricultural lands. European bison spent more time in the forest, especially during the daytime, due to disturbance, but in summer time and at night, the bison did not avoid agricultural land. In the forests, European bison preferred clear-cut, small-leaved deciduous (aspen, grey alder) forests of middle and mature age, but they avoided broad-leaved deciduous (ash), coniferous, and young forests. The increased number of European bison caused damage to agricultural crops and increased conflict with farmers.


Introduction
European bison (Bison bonasus Linnaeus, 1758) have spread throughout almost all of Europe, historically.Habitat conversion to agriculture, forest management intensification, and hunting caused the extinction in the wild of European bison [1].The last wild European bison population in the Białowie ża forest, Poland, became extinct in 1919.After World War I, European bison survived only in a few European zoological parks.The reintroduction of European bison into natural ecosystems started in the Białowie ża forest in 1952 [2], and since then, free-ranging herds have formed in Poland, Lithuania, Belarus, Ukraine, Russia, and Kyrgyzstan [1,3,4].About 60% of animals living free are distributed within the historical range of the species.The largest bison population currently exists in the Białowie ża forest [1,5].The total population of free-ranging European bison now stands at less than 2000.In addition, about 1400 individuals live in captivity [1].The increasing human population and intensive agricultural activities have caused a gradual decrease in forest coverage and greater landscape fragmentation [6].The development of road and rail networks has increasingly fragmented and degraded natural habitats.Animal populations are isolated from each other, impairing their genetic variability and, consequently, their survival.Despite the tenet that European bison are generally considered a forest species, and several studies have suggested that they are able to live in fragmented landscapes [1,7,8], they have a grass-rich habitat specialist background [9].Higher bison densities in fragmented forest ecosystems result in their expansion to agricultural habitats [10].The introduction of large animals affects the pre-existing ecological equilibrium and can cause damage, mainly to crops [11][12][13][14][15].
The European bison, the largest mammal in Europe, is listed by the International Union for Conservation of Nature (IUCN) as a species that is vulnerable to extinction (Red List of Threatened Species).The European bison population consists of small and isolated herds whose long-term survival depends on the formation of larger and connected populations.The "Bison rewilding plan 2014-2024" [16] describes a vision of achieving viable populations of free-ranging bison, as one of the flagship species, restored across Europe and integrated into Europe's landscapes alongside human populations.The listed threats include insufficient habitats, small population size, low acceptance, and others [16].
In Lithuania, the European bison conservation plan was approved in 2014 and revised in 2017 [17].This plan prioritizes the establishment of captivity in more remote regions over the support of free-ranging European bison in already occupied territories, due to high densities of humans and their agricultural activities.Despite the new captivity territories being established and some European bison individuals being caught from the wild, the size of the free-ranging population has been increasing by 15%-25% annually over the last 4 years (Figure 1).currently exists in the Białowieża forest [1,5].The total population of free-ranging European bison now stands at less than 2000.In addition, about 1400 individuals live in captivity [1].
The increasing human population and intensive agricultural activities have caused a gradual decrease in forest coverage and greater landscape fragmentation [6].The development of road and rail networks has increasingly fragmented and degraded natural habitats.Animal populations are isolated from each other, impairing their genetic variability and, consequently, their survival.Despite the tenet that European bison are generally considered a forest species, and several studies have suggested that they are able to live in fragmented landscapes [1,7,8], they have a grass-rich habitat specialist background [9].Higher bison densities in fragmented forest ecosystems result in their expansion to agricultural habitats [10].The introduction of large animals affects the pre-existing ecological equilibrium and can cause damage, mainly to crops [11][12][13][14][15].
The European bison, the largest mammal in Europe, is listed by the International Union for Conservation of Nature (IUCN) as a species that is vulnerable to extinction (Red List of Threatened Species).The European bison population consists of small and isolated herds whose long-term survival depends on the formation of larger and connected populations.The "Bison rewilding plan 2014-2024" [16] describes a vision of achieving viable populations of free-ranging bison, as one of the flagship species, restored across Europe and integrated into Europe's landscapes alongside human populations.The listed threats include insufficient habitats, small population size, low acceptance, and others [16].
In Lithuania, the European bison conservation plan was approved in 2014 and revised in 2017 [17].This plan prioritizes the establishment of captivity in more remote regions over the support of free-ranging European bison in already occupied territories, due to high densities of humans and their agricultural activities.Despite the new captivity territories being established and some European bison individuals being caught from the wild, the size of the free-ranging population has been increasing by 15%-25% annually over the last 4 years (Figure 1).The success of the European bison rewilding relies on effective introduction and acclimatization of the species in new areas as well as its later ability to spread and occupy suitable neighboring territories [16].Gaps in our knowledge about habitat use and preferences in human-dominated landscape have been the main obstacles for the conservation of the European bison [1].Most studies on this species have analyzed populations established decades before in the primary introduction areas, whereas studies of the areas that this species came to occupy themselves by spreading are The success of the European bison rewilding relies on effective introduction and acclimatization of the species in new areas as well as its later ability to spread and occupy suitable neighboring territories [16].Gaps in our knowledge about habitat use and preferences in human-dominated landscape have been the main obstacles for the conservation of the European bison [1].Most studies on this species have analyzed populations established decades before in the primary introduction areas, whereas studies of the areas that this species came to occupy themselves by spreading are lacking.For successful European bison rewilding, there is a need for regional case studies on their natural spread over different regions, within an intensive agricultural landscape with lots of infrastructure elements (i.e., fenced highways, roads, railways, etc.) and scattered forest fragments.Knowledge of their movement and habitat use in a human-dominated landscape is essential for further successful reintroductions of the European bison [18].We therefore need to understand the movement patterns and habitat use of species if we wish to effectively predict and limit the impact of environmental changes on populations [19,20].The formation and dispersal of European bison female herds is an event that is rarely observed within populations.Every such case is worth studying, as it is important for the population's well-being.
This study focused on a newly formed European bison herd that naturally split from the maternal group and occupied a semi-isolated fragmented area previously free of this species.We analyzed the home range and habitat selection of this herd during the snow-free season in the newly colonized territory.We hypothesized that the European bison home range's use of forest and agriculture land would change during the vegetation season.

Study Area
In Lithuania, European bison occupy a territory of 57 thousand hectares in the central part of the country.The total population is split into several groups.The herd of 34 individuals of European bison studied herein entered into a new semi-isolated territory with a total area of 1172 ha.Forests comprised 436 ha, while intensively used agricultural fields comprised the remaining 736 ha of the territory.The territory was partly isolated by highway E67 on one side, a railway on another side, and a water dam and urban areas on the third side (Figure 2).The bison herd entered this territory in the beginning of March.During the tracking period, the herd did not cross the "borders" of this territory due to the intensively used highway, the railway, and the dam, and they did not get too close to villages.
In the study territory, moist fertile soils prevailed.Deciduous and mixed forests dominated by birch (Betula pendula Roth, B. pubescens Ehrh.), black and grey alder (Alnus glutinosa (L.) Gaertn., A. incana (L.) Moench), and ash (Fraxinus excessior L.) are spread widely across the territory.A coniferous species-Norway spruce (Picea abies (L.) H. Karst.)-waspresent in the stands but dominated only in 7 percent of the total forest area.In the agricultural land, crops of cereals (spring and winter wheats), corns, and grasses dominated.

Data Sampling
Data on European bison numbers, their distribution, and compensation payments for their damage to agricultural crops were obtained from the Ministry of Environment, Republic of Lithuania.Data on the area of crops damaged by European bison in the K ėdainiai district were obtained from the Municipality of K ėdainiai, Lithuania.
In the snow-free period lasting from early spring to late autumn, European bison form structured herds and depend on natural food resources in the forest [21,22].During the snow-free season of 2016 (from March to November), we tracked the movements of the herd by fitting a global positioning system (GPS) collar equipped with a global system for mobile communication (GSM) module to the leading cow.We used the collar model "Ecotone Modul BISON GPS-GSM-UHF".The collar was set to record GPS locations at 8-hour intervals.We obtained a total of 1389 relocations of the herd.
We retrieved information about forest habitats from the standwise forest inventory database of the Lithuanian Forest Service.Using ArcGis software, we calculated the proportions of agricultural and forest land in the semi-isolated territory.For forest land, we calculated habitat proportions for site type, dominating forest stand tree species, and stand age.We distinguished four site types according to a moisture gradient: Dry, moist, wet, and peat.The prevailing stands were grouped according to the dominating tree species (ash, birch, black alder, grey alder, and aspen) and according to groups of dominant tree species (coniferous, broad-leaved, and small-leaved trees).We grouped forest stands according to age into the following groups: clear-cut, 10-20, 30-40, 50-60, 70-80, 90-100, and >100 years old.
For the agricultural land, we identified the crop type (cereal, corn, grasses, abandoned land) visually and estimated the area using ArcGis software.
For the agricultural land, we identified the crop type (cereal, corn, grasses, abandoned land) visually and estimated the area using ArcGis software.

Data Analyses
We used ArcGIS software to calculate the average home range of the bison herd for each month using the method of the 95% minimum convex polygon [23].Habitat selection of the herd was determined using the obtained GPS locations and the detailed habitat information.We compared the

Data Analyses
We used ArcGIS software to calculate the average home range of the bison herd for each month using the method of the 95% minimum convex polygon [23].Habitat selection of the herd was determined using the obtained GPS locations and the detailed habitat information.We compared the habitat found at each location derived from the GPS collars with the overall semi-isolated territory and determined the habitat selection.To evaluate habitat selection, we used Jacobs' index [24]: where r is a fraction of a habitat among habitats used by bison and p is a fraction of a habitat in a semi-isolated territory.D values range from −1 for maximum avoidance to +1 for maximum positive selection.We set up the critical value of Jacobs' index at ±0.2.We used the chi-square test to verify significant differences between the proportion of the availability of a habitat based on the vegetation cover area and the habitat selection.

Distribution of and Damage by Free-Ranging European Bison
In Lithuania, the European bison was reintroduced in 1969.An enclosure for bison was built in the central part of the country (Figure 3).Bison were breeding successfully; the first young individuals were born in the forest enclosure and were released to the wild just near the enclosure in 1971.After two years, the first free-ranging herd was established in Pašiliai, near the breeding station [20].
Forests 2019, 9, x FOR PEER REVIEW 5 of 13 habitat found at each location derived from the GPS collars with the overall semi-isolated territory and determined the habitat selection.
To evaluate habitat selection, we used Jacobs' index [24]: where r is a fraction of a habitat among habitats used by bison and p is a fraction of a habitat in a semi-isolated territory.D values range from −1 for maximum avoidance to +1 for maximum positive selection.We set up the critical value of Jacobs' index at ±0.2.We used the chi-square test to verify significant differences between the proportion of the availability of a habitat based on the vegetation cover area and the habitat selection.

Distribution of and Damage by Free-Ranging European Bison
In Lithuania, the European bison was reintroduced in 1969.An enclosure for bison was built in the central part of the country (Figure 3).Bison    there have been over 30 animals due to the self-regulating mechanism of the optimal herd structure.Almost every year, individuals were seen wandering; however, most of them were lost due to accidents, poaching, and other causes [7].The size of the population has been increasing since 2003.An extreme increase has been observed since 2013 in the Panev ėžys and K ėdainiai regions.Now free-ranged European bison live sedentarily in a territory of 57 thousand ha in the central part of Lithuania, where mosaic agricultural land and forest patches prevail.The current population of the European bison exceeds 200 individuals (Figure 1).The population is split into six groups of 14-66 individuals each (Figure 3).
The growth of the European bison population in Lithuania has caused increasing damage to agricultural crops.For example, the largest area of winter rape and winter wheat was damaged by European bison in the K ėdainiai district in 2016-2017 (Figure 4).Primarily, a population of 20-30 sedentary individuals formed in the Panevėžys region.The population consisted of separate herds of males and females with juveniles.For a long time, there have been over 30 animals due to the self-regulating mechanism of the optimal herd structure.Almost every year, individuals were seen wandering; however, most of them were lost due to accidents, poaching, and other causes [7].The size of the population has been increasing since 2003.An extreme increase has been observed since 2013 in the Panevėžys and Kėdainiai regions.Now free-ranged European bison live sedentarily in a territory of 57 thousand ha in the central part of Lithuania, where mosaic agricultural land and forest patches prevail.The current population of the European bison exceeds 200 individuals (Figure 1).The population is split into six groups of 14-66 individuals each (Figure 3).
The growth of the European bison population in Lithuania has caused increasing damage to agricultural crops.For example, the largest area of winter rape and winter wheat was damaged by European bison in the Kėdainiai district in 2016-2017 (Figure 4).The damage compensation to farmers has recently increased up to 259 thousand euros per year (Figure 5).The damage compensation to farmers has recently increased up to 259 thousand euros per year (Figure 5).Primarily, a population of 20-30 sedentary individuals formed in the Panevėžys region.The population consisted of separate herds of males and females with juveniles.For a long time, there have been over 30 animals due to the self-regulating mechanism of the optimal herd structure.Almost every year, individuals were seen wandering; however, most of them were lost due to accidents, poaching, and other causes [7].The size of the population has been increasing since 2003.An extreme increase has been observed since 2013 in the Panevėžys and Kėdainiai regions.Now free-ranged European bison live sedentarily in a territory of 57 thousand ha in the central part of Lithuania, where mosaic agricultural land and forest patches prevail.The current population of the European bison exceeds 200 individuals (Figure 1).The population is split into six groups of 14-66 individuals each (Figure 3).

Habitat Selection by Free-Ranging European Bison
The growth of the European bison population in Lithuania has caused increasing damage to agricultural crops.For example, the largest area of winter rape and winter wheat was damaged by European bison in the Kėdainiai district in 2016-2017 (Figure 4).The damage compensation to farmers has recently increased up to 259 thousand euros per year (Figure 5).

Habitat Selection by Free-Ranging European Bison
The newly formed herd of European bison, which naturally split from the maternal group, entered into the territory in March 2016 and was tracked until the end of November.The largest home range area was in April (more than 700 ha), and it was larger in spring months compared to other months (Figure 6).The home range decreased from June to July, and it was smallest in July.It increased again from August to October.The newly formed herd of European bison, which naturally split from the maternal group, entered into the territory in March 2016 and was tracked until the end of November.The largest home range area was in April (more than 700 ha), and it was larger in spring months compared to other months (Figure 6).The home range decreased from June to July, and it was smallest in July.It increased again from August to October.The average daily walking distance of the herd was highest in March, when bison had just entered into the territory.In spring and early summer (April-June), the average walking distance slightly decreased.The lowest average walking distance was in summer and autumn (July-October).It increased again in November (Figure 7).European bison spent more time in the forest (Chi-square p < 0.001) (Table 1) than in the agricultural land.This preference was significant during the daytime.At night, the bison preferences for forest or agricultural land were not significantly different (Table 1).The average daily walking distance of the herd was highest in March, when bison had just entered into the territory.In spring and early summer (April-June), the average walking distance slightly decreased.The lowest average walking distance was in summer and autumn (July-October).It increased again in November (Figure 7).The newly formed herd of European bison, which naturally split from the maternal group, entered into the territory in March 2016 and was tracked until the end of November.The largest home range area was in April (more than 700 ha), and it was larger in spring months compared to other months (Figure 6).The home range decreased from June to July, and it was smallest in July.It increased again from August to October.The average daily walking distance of the herd was highest in March, when bison had just entered into the territory.In spring and early summer (April-June), the average walking distance slightly decreased.The lowest average walking distance was in summer and autumn (July-October).It increased again in November (Figure 7).European bison spent more time in the forest (Chi-square p < 0.001) (Table 1) than in the agricultural land.This preference was significant during the daytime.At night, the bison preferences for forest or agricultural land were not significantly different (Table 1).European bison spent more time in the forest (Chi-square p < 0.001) (Table 1) than in the agricultural land.This preference was significant during the daytime.At night, the bison preferences for forest or agricultural land were not significantly different (Table 1).In the beginning (in March), the avoidance of the agricultural land was the lowest, but it increased up to May.The avoidance of the agricultural land decreased in summer, whereas it increased again in autumn (Figure 8).Meanwhile, in the agricultural land, bison preferred staying in crops of cereal and corn and avoided grasses (Table 2).In the beginning (in March), the avoidance of the agricultural land was the lowest, but it increased up to May.The avoidance of the agricultural land decreased in summer, whereas it increased again in autumn (Figure 8).Meanwhile, in the agricultural land, bison preferred staying in crops of cereal and corn and avoided grasses (Table 2).In the forest, European bison preferred clear-cut and small-leaved deciduous forests but avoided broad-leaved deciduous and coniferous forests (Table 3).When viewed according to the dominant tree species, the bison preferred aspen and grey alder but avoided ash and birch (Table 3).In the forest, European bison preferred clear-cut and small-leaved deciduous forests but avoided broad-leaved deciduous and coniferous forests (Table 3).When viewed according to the dominant tree species, the bison preferred aspen and grey alder but avoided ash and birch (Table 3).When viewed according to the stand age, the bison preferred areas (clear cuts), stands of 30-40 years old, and those more than 100 years old.The bison avoided young (10-20 years old) and 50-80-year-old stands (Table 4).Habitat selection according to site humidity was insignificant (Chi-square p = 0.510), but the bison slightly more often ranged in dry and moist habitats (Table 5).

Discussion
It has been discussed whether the European bison is a forest-dwelling or open habitat species.During the reintroduction process, European bison managed to live as a forest specialist despite its evolutionary background, dental morphology, neonatal behavior, diet, and microhabitat selection being characteristic of a grazing species of open, grass-rich habitats.A combination of increasing replacement of open steppe by forest cover after the last postglacial period and increasing human pressure forced the bison into forests as a refuge habitat [9,25].The studies of the European bison show the complex importance of both habitats, open and forests [21,26,27].In Židlov (Czech Republic) as well as in our study, the bison herd preferred forested habitats [18] during the daytime and more open lands at night.This finding supports an assumption that the European bison tends to be a forest specialist in Central Europe [28].Other studies have indicated that European bison prefer open habitats [1,9,26,29].The night and daytime differences in the selection of forest or agricultural land support the hypothesis that bison habitats are determined by disturbance (human and predators) avoidance rather than habitat preference [18].Studies have shown the importance landscape and habitat for large ungulate species [10,30].Being large ruminating species, the European bison can tolerate food of lower energetic quality [31].Ruminants are characterized by cycles of successive foraging and ruminating-resting bouts.The activity pattern of ruminants is consequently characterized by which habitats are selected at the within-home-range scale [32,33].Commonly, ruminating species use shorter safe periods for collecting food in open habitats and ruminate during more risky time periods.
In the mosaic landscape, European bison spent more time in the forest (especially during the daytime).On the other hand, in summer and at night, the bison did not avoid agricultural land.In accordance with the "threat avoidance hypothesis" by Drucker and Bocherens [34], the bison use the forest under predation risk.In autumn and during the daytime, the bison tended to concentrate in forested areas.European bison living in anthropogenic landscapes (as in Lithuania) feed mostly on agricultural crops [7,20], which might explain their lower avoidance of agricultural land due to disturbance by farmers using machinery.
Our study indicated that European bison preferred open clear-cut and small-leaved deciduous forests but avoided broad-leaved deciduous and coniferous forests.Deciduous forests are the most suitable habitats for the European bison.In Białowie ża forest, the bison mainly forage in fresh and moist deciduous forests, followed by mixed coniferous forests [21,29,[35][36][37].Forest complexes with mosaic-like forest types are the most favorable.Other studies have suggested that European bison also forage in habitats where coniferous forests predominate [38].Brandtberg and Dabelsteen [39] reported that the reintroduced bison preferred coniferous forest stands during the growing season on a Danish island.Krasi ńska et al. [21] found that the main habitats of the bison in Białowie ża forest consist of fresh and moist deciduous forests and mixed coniferous forests.The selection of habitats varied with the season.Deciduous forests were preferred in spring, mixed coniferous forests in summer, and deciduous forests together with mixed deciduous forests in autumn.
In our study, the bison preferred young plantations and stands of 30-40 or more than 100 years old.The bison avoided 10-20-and 50-80-year-old stands.A study in Białowie ża forest reported that European bison inhabited ranges that included open areas, such as mown meadows, deforested feeding glades covered with grass, and clear cuts [40].Open areas provide the bison with more food than the forest herb layer, and food is more easily available [41,42].Krasi ńska and Krasi ński [40] found that the bison rarely visited 10-20-year-old stands in the Białowie ża forest.The bison preferred tree stands older than 20 years [21].
The decreased home range and average daily walking distance in summer were probably associated with the bison feeding in agricultural lands.Just after entering the new territory, the bison ranged over the territory; thus, the home range and average walking distance was largest.In autumn, the home range increased, probably due to the decreased food supply.In Židlov, Červeny et al. [18] found that the bison herd used the smallest territory in June and the largest territory in April.A strong seasonal pattern of bison movement was also found in the free-ranging Białowie ża bison population [32].
A survey of attitudes in the region showed that three main factors explain the acceptance of the bison: Respondent concerns about their income, sustainability of agricultural practice, and attractiveness of the locality with respect to child safety and the value of real estate [43].Unless farmers in the case of crop damage were fully compensated by the state, more than 2/3 of respondents reported that their expenses for crop protection increased [43].Due to fencing of fields to protect the crop, resources in the fragmented landscape became even more limited.This forced the bison to cross the roads more often and increase the risk of traffic accidents.In 2017-2018, the herd managed to cross the road border in the south and occupy two neighboring fragments in the mosaic of forest and agricultural fields.
Usually, very dense populations spread into new territories as they exceed the maximal carrying capacity of the current territory [29].For example, in Lithuania, the Red deer started dispersal when their population exceeded the density of 16-17 individuals per 1000 ha of forest [44].Our observations showed that the key factor determining the of European bison is the size of the herd rather than the density.European bison most often create groups of 20 or fewer individuals in a forested territory.By contrast, small groups dominate in more open landscapes, although groups of 21-40 individuals are also rather common [29].
The bison population in Lithuania is trapped by natural and human-made borders: River Nev ėžis in the west and the Via Baltica highway in the east.In the north and the south, it borders urbanized territories.Long-term observations proved that these borders are rarely crossed, mainly by males, and they function as isolating factors.The bison formed the largest herd in the south of the territory.Not surprisingly, it split; a daughter herd dispersed into bison-free territory and subsequently appeared in the area of the current study.Such behavior shows that the bison herd is able to cross isolating borders and to move within the landscape with temporal stays in suboptimal habitats.
Due to human neighborhoods and high road density, the herds remain more concentrated, unsplit, and contain more individuals.Because of the larger herd size, the resource consumption is also higher.Consequently, in a fragmented landscape with limited resources, the dangerous crossing of roads and other borders increases even more.A proper management plan of the European bison population should be developed in such territories.A possible solution could be measures that split large herds of European bison and decrease the concentration of individuals by moving them into new territories.

Conclusions
Free-ranging European bison living sedentarily have formed six groups in the mosaic landscape of central Lithuania over a territory of 57 thousand ha.An extreme increase in the population has caused significant damage to agriculture crops.
The home range of the European bison herd studied herein was largest in spring, decreased in summer, and increased again in autumn, and this was associated with feeding and the food supply in agricultural lands.
In the mosaic fragmented landscape, European bison spent more time in the forest, especially during the daytime.In summer time and at night, the bison did not avoid agricultural land.
European bison preferred clear-cut, small-leaved deciduous (aspen, grey alder) forests of middle and mature age, but they avoided broad-leaved deciduous (ash), coniferous, and young forests.
To mitigate the negative agricultural effects of the growing European bison population, a proper management plan incorporating measures that split the herds and move animals into new territories is necessary.

Figure 1 .
Figure 1.Change in the population of free-ranging European bison in Lithuania (source: Ministry of Environment of the Republic of Lithuania).

Figure 2 .
Figure 2. The semi-isolated territory of the studied European bison herd during the snow-free season in 2016.

Figure 2 .
Figure 2. The semi-isolated territory of the studied European bison herd during the snow-free season in 2016.

Forests
were breeding successfully; the first young individuals were born in the forest enclosure and were released to the wild just near the enclosure in 1971.After two years, the first free-ranging herd was established in Pašiliai, near the breeding station [20].

Figure 3 .
Figure 3. Distribution of free-ranging European bison in Lithuania, 2016 (numbers show sizes of herds; dotted lines show the range of European bison).

Figure 3 .
Figure 3. Distribution of free-ranging European bison in Lithuania, 2016 (numbers show sizes of herds; dotted lines show the range of European bison).Primarily, a population of 20-30 sedentary individuals formed in the Panev ėžys region.The population consisted of separate herds of males and females with juveniles.For a long time,

Figure 4 .
Figure 4. Area of crops damaged by European bison in the Kėdainiai district in 2016-2017 (source: Municipality of Kėdainiai, Lithuania).

Figure 5 .
Figure 5. Compensation payments per year for damage to agricultural crops (source: Ministry of Environment of the Republic of Lithuania).

Figure 4 .
Figure 4. Area of crops damaged by European bison in the K ėdainiai district in 2016-2017 (source: Municipality of K ėdainiai, Lithuania).

Figure 4 .
Figure 4. Area of crops damaged by European bison in the Kėdainiai district in 2016-2017 (source: Municipality of Kėdainiai, Lithuania).

Figure 5 .
Figure 5. Compensation payments per year for damage to agricultural crops (source: Ministry of Environment of the Republic of Lithuania).

Figure 5 .
Figure 5. Compensation payments per year for damage to agricultural crops (source: Ministry of Environment of the Republic of Lithuania).

Figure 6 .
Figure 6.Home range of the free-ranging European bison herd.

Figure 7 .
Figure 7. Average daily walking distance of the free-ranging European bison herd.

Figure 6 .
Figure 6.Home range of the free-ranging European bison herd.

Figure 6 .
Figure 6.Home range of the free-ranging European bison herd.

Figure 7 .
Figure 7. Average daily walking distance of the free-ranging European bison herd.

Figure 7 .
Figure 7. Average daily walking distance of the free-ranging European bison herd.

Figure 8 .
Figure 8. Jacobs' index of agricultural land and forest use in March-November by the free-ranging bison herd.

Figure 8 .
Figure 8. Jacobs' index of agricultural land and forest use in March-November by the free-ranging bison herd.

Table 1 .
Habitat selection of agricultural and forest land by the free-ranging bison herd.

Table 1 .
Habitat selection of agricultural and forest land by the free-ranging bison herd.

Table 2 .
Habitat selection of different crop types by the free-ranging bison herd.

Table 2 .
Habitat selection of different crop types by the free-ranging bison herd.

Table 3 .
Habitat selection of forest dominant tree species by the free-ranging bison herd.

Table 4 .
Habitat selection of stand age by the free-ranging bison herd.

Table 5 .
Habitat selection of sites of different humidity by the free-ranging bison herd.