Here are a few use cases for this project:

1. Wildlife Conservation: The Lion Baboon model can be used to monitor endangered lion and baboon populations in their natural habitat, providing vital information about population sizes, migration patterns, and behavioral trends to help inform conservation efforts.

2. Animal Behavior Research: Researchers can use this model to study the behavioral patterns of lions and baboons by automatically identifying and tracking individual animals in pictures or video footage, providing valuable insights into their social dynamics, hunting strategies, and other important aspects of their lives.

3. Safari Tours and Animal Tracking: Tour operators or park rangers can utilize the Lion Baboon model in combination with cameras mounted on safari vehicles or park facilities to automatically identify and track lions and baboons, allowing them to guide tourists to the best spots for viewing these animals.

4. Wildlife Photography Assistance: Wildlife photographers can leverage this model to set up motion-triggered camera traps that only activate when a baboon or lion is detected, increasing the chances of capturing breathtaking images of these animals without disturbing their natural behavior.

5. Educational Tools and Applications: Software and mobile app developers can integrate the Lion Baboon model into educational applications to teach users about wildlife, animal identification, or the ecosystems in which these animals live, using interactive quizzes or virtual field trips that leverage real-world images from the dataset.

This statistic shows the share of adults who are likely to see the live-action version of 'The Lion King' movie in theaters in the United States as of May 2019, broken down by age group. The data reveals that 46 percent of 18 to 2- year-olds said that they were very likely to watch the new 'Lion King' movie in cinemas, and 24 percent said that they were somewhat likely to do so. Conversely, interest among older generations was lower, particularly adults aged 65 or above who mostly had little interest in going to see the movie.

This data shows the location of 10 lions that were collared in the year 2016. This was generated during a predator monitoring project Kenya Wildlife Trust (KWT) were conducting in 2016. The animals being tracked were: 3 adult female Lions and 7 sub-adult male Lions. These animals traversed the greater Mara Ecosystem and a section of the Serengeti National Park.

Track the O'LION in real-time with AIS data. TRADLINX provides live vessel position, speed, and course updates. Search by MMSI: 256166000, IMO: 9477050

The purpose of this study was to examine if differences in social life histories correspond to intraspecific variation in total or regional brain volumes in the African lion (Panthera leo) and cougar (Puma concolor). African lions live in gregarious prides usually consisting of related adult females, their dependent offspring, and a coalition of immigrant males. Upon reaching maturity, male lions enter a nomadic and often, solitary phase in their lives, whereas females are mainly philopatric and highly social throughout their lives. In contrast, the social life history does not differ between male and female cougars; both are solitary. Three-dimensional virtual endocasts were created using computed tomography from the skulls of 14 adult African lions (8 male, 6 female) and 14 cougars (7 male, 7 female). Endocranial volume and basal skull length were highly correlated in African lions (r = 0.59, p < 0.05) and in cougars (r = 0.67, p < 0.01). Analyses of total endocranial volume relative to skull length revealed no sex differences in either African lions or cougars. However, relative anterior cerebrum volume comprised primarily of frontal cortex and surface area was significantly greater in female African lions than males, while relative posterior cerebrum volume and surface area was greater in males than females. These differences were specific to the neocortex and were not found in the solitary cougar, suggesting that social life history is linked to sex-specific neocortical patterns in these species. We further hypothesize that increased frontal cortical volume in female lions is related to the need for greater inhibitory control in the presence of a dominant male aggressor.

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The National Marine Mammal Laboratories' California Current Ecosystem Program (AFSC/NOAA) initiated and maintains census programs for California sea lions (Zalophus californianus) and northern fur seals (Callorhinus ursinus) at San Miguel and San Nicolas Islands, California. The program documents annual pup births, pup mortality, and temporal patterns in adult and juvenile presence at San Miguel Island. For both species, the database contains field data on the annual number of live pups and dead pups by location. At San Miguel Island, daily counts of adults, pups, and juveniles in a sample area are also available. The data are used to describe population trends and changes in land resource use among the species.

Track the ULTRA LION in real-time with AIS data. TRADLINX provides live vessel position, speed, and course updates. Search by MMSI: 636019715, IMO: 9676113

Відстеження історії цін LION FAI дозволяє криптоінвесторам легко контролювати ефективність своїх інвестицій. Ви можете зручно відстежувати значення відкриття, максимуму і закриття для LION FAI, а також обсягу торгівлі протягом певного часу. Крім того, ви можете миттєво переглянути щоденні зміни у відсотках, що дозволяє легко визначити дні зі значними коливаннями. Згідно з нашими даними історії цін LION FAI, його вартість злетіла до безпрецедентного піку в 2025-07-22, перевищивши -- USD. З іншого боку, найнижча точка цінової траєкторії LION FAI, яку зазвичай називають «історичним мінімумом LION FAI», сталася на 2025-07-22. Якби хтось придбав LION FAI за цей час, то зараз він би мав неабиякий прибуток у розмірі 0%. За задумом, буде створено 1,000,000,000 LION FAI. Наразі циркулююча пропозиція LION FAI становить приблизно 0. Всі ціни, вказані на цій сторінці, отримані від надійного джерела Bitget. Дуже важливо покладатися на єдине джерело для тестування ваших інвестицій, оскільки значення можуть відрізнятися у різних продавців. До наших даних історичної ціни LION FAI входять дані з інтервалами в 1 хвилину, 1 день, 1 тиждень та 1 місяць (відкриття/макс./мін./закриття/обсяг). Ці дані пройшли ретельне тестування для забезпечення узгодженості, повноти та точності. Вони спеціально підібрані для моделювання торгівлі та бек-тестування, доступні для безоплатного завантаження та оновлюються в режимі реального часу.

Due to the strong individual cost of being predated, potential prey species alter their behavior and physiology in response to predation risk. Such alterations may cause major indirect consequences on prey populations that are additive to the direct demographic effects caused by prey being killed. However, although earlier studies showed strong general effects of the presence of apex predators, recent data suggest that indirect effects may be highly context dependent and not consistently present. We combined behavioral data with data on endocrine stress and stable isotopes to assess landscape level effects of lion (Panthera leo) presence on two prey species in South Africa, impala (Aepyceros melampus) and blue wildebeest (Connochaetes taurinus). We also evaluated if there was any seasonal variation in such effects. In addition, we provide results from a physiological validation for an enzyme-linked immunoassay (EIA) that can be used for non-invasive monitoring of glucocorticoid stress metabolite concentrations in impala from fecal pellets. We did not find any significant differences in vigilance behavior, fecal glucocorticoid metabolite concentrations, δ13C values or isotope niche breadth between animals living with and without lions for either species. However, wildebeest living in a reserve with lions spent more time foraging compared to wildebeest in a lion-free environment, but only during the wet season. Values of fecal δ15N suggest a shift in habitat use, with impala and wildebeest living with lions potentially feeding in less productive areas compared to animals living without lions. For both species, characteristics of the social groups appeared to be more important than individual characteristics for both foraging and vigilance behavior. Our results highlight that antipredator responses may be highly dynamic and scale-dependent. We urge for further studies that quantify at what temporal and spatial scales predation risk is causing indirect effects on prey populations.

This dataset provides information about the number of properties, residents, and average property values for Lion Avenue cross streets in Beaver, PA.

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Translation (Seng Pan) Once upon a time, there was a lion. At first, he was so wild. And he lived in a deep forest. One day, he saw a girl from a village who came to the forest to pick vegetables. She was so attractive. So, the lion fell in love at first sight. Then, he went and asked for the girl from her parents. The girl's father said, "My daughter will be so scared to live with you together." "I will not do anything, but I will make her happy," the lion replied. The parents were afraid to be attacked if they didn't give him their daughter. If they permitted the lion to take the girl, it will end their daughter's life. Finally, they pretended to agree. But they requested the lion, "You have to cut all your claws and canines. Only then our daughter will not be scared of you." The lion also fulfilled their requests just because he loved the girl. He cut all his canines and claws as they told. Then the villagers gathered and hit the lion. The poor lion died there. This is the end. Transcription (Lu Hkawng) Moi kalang mi hta da hkanhkyi langai mi nga ai da. Dai hkanhkyi wa gaw da shawng n nan yi gaw i mase labye myit grai rawng ai da. Dai she shi gaw dai hku hkanhkyi dang re nam mare kaw nga taw ai shaloi da lani mi ten hta i lani mi ten hta she da i num kasha langai gaw da i simai tam sa re simai tam sa re ai shaloi num dai gaw grai tsawm na shi gaw dai hku le i ra ai le tsawra myit byin mat ai shaloi shi gaw i e dai hku rai na she shi wa shi kawa ni kaw sa hpyi na hku nga shi kawa kaw dai num kasha hpe wa hpyi ai shaloi she shi kawa ni gaw tsun ai da. Nang i nye kasha hte nga yang gaw nye kasha gaw grai hkrit na ra ai ngu tsun she ngai hpa n di ai dai hku i atsawm sha apyaw alaw woi nga na dai hku tsun ai shaloi um n jaw sha nga yang mung i shanhte hpe dai hku i shanhte na yan tai wa na re jaw sha yang mung hpyen tai na re jaw sha na nga yang mung shi kasha na prat sum mat na re majaw sharaw kaw i jan jaw sha masu su ai le i myit hkrum masu su na dai hku re nga ai shaloi she shi hpe tsun ai i nang i nye kasha hpe hkungran mayu yang gaw da i nang na wa laparan na yawng hte baw kau u rai na she nang na laming lagaw na ni ma yawng hte daw kau u rai yang she nye kasha n hkrit na nga dai hku tsun ai shaloi she E nga na dai hkanhkyi wa mung num hpe ra ai majaw she shi gaw da wa laprang na yawng hte shanhte ra ai hku galaw ai da. Dai na she laming ni ma yawng daw kau ai da. Dai hpang de shanhte gaw i um dai mare masha ni yawng hte zuphpawng na dai dai hkanhkyi wa hpe adup sat kau ai da.. Language as given: Jinghpaw

The relationship between the spatio-temporal distribution of resources and patterns of sociality is widely discussed. While the Resource Dispersion Hypothesis (RDH) was formulated to explain why animals sometimes live in groups from which they derive no obvious benefits, it has also been successfully applied to species that benefit from group living. Some empirical tests have supported the RDH, but others have not, so conclusions remain equivocal and further research is required to determine the extent to which RDH predictions hold in natural systems. Here, we test four predictions of the RDH in an African lion population in the context of their fission-fusion society. We analyzed data on group composition of GPS-collared lions and patterns of prey availability. Our results supported the first and second predictions of the RDH: home range size (i) was independent of group size and (ii) increased with distance between encounters with prey herds. Nonetheless, the third and fourth RDH predictions were not supported: (iii) the measure of resource heterogeneity and (iv) resource patch richness measured through prey herd size and body size had no significant effect on lion group size. However, regarding the fourth prediction, we added an adaptation to account for dynamics of fission-fusion society, and found that the frequency of pride fission increased as group size increased. Our data set restricted us from going on to explore the effect of fission-fusion dynamics on the relationship between group size and patch richness. However this should be investigated in future studies as including fission-fusion dynamics provides a more nuanced, realistic appreciation of lion society. Our study emphasizes the importance of understanding the complexity of a species' behavioural ecology within the framework of resource dispersion. Whatever larger theoretical framework may emerge to explain lion society, incorporating fission-fusion dynamics should allow the RDH to be refined and improved.

Lion populations in Africa declined precipitously in the twentieth century outside of protected areas but the commercial cattle ranches of Laikipia County, Kenya, have been a unique exception, with low livestock stocking rates, careful range management, large populations of wild ungulates, and a full complement of large carnivores, including lions at a stable density of about 6/100 km2. The Laikipia Predator Project, later Living With Lions, started in 1997 with two primary objectives: improving livestock husbandry to reduce lion predation losses and subsequent killing of lions, and studying behavioral adaptations of lions to human activities and persecution. We initially interviewed ranch owners and managers on lion numbers, losses to all mortality factors, husbandry methods, costs, and lion control measures. Studies of husbandry and control methods led to improved livestock management, which gradually reduced losses and retaliatory lion killing. Persecuted lions are secretive and nocturnal, so behavioral research was dependent upon radio collaring, requiring development an effective capture technique. Collars introduced ranchers to their lions as individuals, decreasing their propensity to shoot them after livestock predation. The most important breakthrough was the development of “lion-proof” mobile bomas (corrals) which dramatically reduced night time losses and retaliatory killing. Global positioning system (GPS)-Iridium collars for research into lion movements, allowed development of a Lion Early Warning System to inform ranchers of morning lion locations, allowing them to avoid lions during day time grazing. These measures reduced retaliatory lion killing by 90% between 1998 and 2017. Development of simple and inexpensive hyena-proof bomas for traditional pastoralists dramatically reduced their losses and motivation to poison predators. Studies of lion movements and ecological energetics in relation to human activities have revealed patterns of diel avoidance of humans/livestock by day and predation of wild prey near bomas at night, showing that lions partition their activities temporally in order to utilize high quality hunting habitat while minimizing risk of encountering humans. Studies of predation ecology suggest that lion predation does not have a significant impact on Laikipia’s important population of endangered Grevy’s zebra. Several other carnivore research and conservation projects in Kenya arose out of the initial work in Laikipia.

The partial skull of a lion from Natodomeri, northwest Kenya is described. The Natodomeri sites are correlated with Member I of the Kibish Formation, dated to between 195 ka and ∼205 ka. The skull is remarkable for its very great size, equivalent to the largest cave lions (Panthera spelaea) of Pleistocene Eurasia and much larger than any previously known lion from Africa, living or fossil. We hypothesize that this individual represents a previously unknown population or subspecies of lion present in the late Middle and Late Pleistocene of eastern Africa rather than being an indication of climate-driven size increase in lions of that time. This raises questions regarding the extent of our understanding of the pattern and causes of lion evolution in the Late Pleistocene.

Translation (Gun Mai) The title of the story is a lion and a large horse-fly. Long long ago, there was a lion who was a big animal among other animals. He was also a wild animal so he said to himself that "I am a king in this place. No one can annoy me. All animals must worship me and respect me. I am the king here." He was staying there very proudly. When the lion was sleeping, a large horse-fly was very hungry and was flying around the head of the lion and bit around the ears and forehead so the lion was bleeding. When the large horse-fly bit, the lion got very angry and said that "Even I am the king, who is annoying me? You such a very horse-fly is annoying me? What can you do again to me?" and the lion got very angry and was trying to catch the large horse-fly but the lion could not catch it. When the lion was just jumping again and again to catch the large horse-fly and got angry, a spider who was living near the lion said to the lion that "King lion, even though you are a big animal, you don't have the ability to control small animals because you don't have intelligence. I am not as big as you but the large horse-fly is my food. I used to catch and eat the other large horse-flies." The lion then said to the spider "Yeah, that is true. Friend spider, I want to kill this large house-fly. Please kill for me. I will give you back for your gratitude." "OK then," the spider said. Then, the spider made his nets around the lion and all the insects including the large horse-fly were caught in the spider's nets and were eaten. Then, the lion said that "Thank you very much, spider. You can come to my place, let's called the palace. You can also stay there and please protect me from such insects that are coming to me. I won't also do you anything. I won't also let other animals do anything to you. Let's support each other." It was also good for the spider because if he stayed alone in other places, the insects might not come to him so he might not have to eat. But, because of the lion, a lot of insects came. It was not only a benefit to the spider but also a benefit to the lion. It was also helpful for others while it was also protecting him. They shared their skills with each other like that and lived happily. Transcription (Lu Awng) Maumwi gabaw gaw hkanghkyi hte jinghkam a lam nga re. Moi shawng de she da n dai hkanghkyi langai mi gaw shi shi gaw ndai dusat dumyeng ni hta shi gaw hkrang ma kaba ai. Matse labye langai ma re ai majaw shi gaw shi hkum shi um ngai gaw ndai shara hta gaw ngai gaw hkawhkam re ngai hpe kadai ma nlu sa dingsa lu ai. Ngai yawng gaw ngai hpe nawku ai hte ngai hpe hkungga ra ai. Ngai gaw ndai kaw na hkawhkam re nga na shi na shi grai gawng ai hte dai hku nga taw nga na she, Dai hku yup taw nga yang she jahkring rai yang she ndai chyinghkam gaw shat grai kaw si chyinghkam gaw shi gaw shat grai kaw si taw na she ti ti ti ti ti ti nga na she dai hku gayin hkawm gawai hkawm na she dai hkanghkyi na na hkan kahtan hkan ndai hkan e hte kawa ya ai da. Dai kaw na she sai,Gaw pyang pyang rai na kawa da da. Shi gaw grai pawt na she ngai ndai ram hkawhkam re sai ngu tim ngai hpe dingsa ai naw nga ai i. Nang mate sha kaw me chyinghkam sha wa mi ngai hpe naw dingsa ai i. Nang ngai hpe hpa naw lu di na kade pawt na kade i shi hpe hkam rim kade hkan rim tim nlu ai she,Shi gaw dai kaw chyinghkam hpe hkan gayet na she buk bak taw nga na ah gying ah gang pawt taw ng yang she, Dai e makau kaw nga taw nga ai ndai ndi gram langai mi she tsun ai da hkawhkam wa e i hkawhkam hkanghkyi e nang gaw hkum she kaba ai raitim mung nang kaw nang gaw kaji ai ni hpe mung nang lu hkanzing lu na ah tsam nang kaw nnga nga n dai. Nang kaw Nyan nrawng nga ndai ngai chyawm gaw nang ram gaw n kaba ai raitim mung ngai gaw ndai ndai jimhkam gaw ngai na shat she re ai. kaga jimhkam ni nga yang ngai shanhte hpe rim sha kau kau di ai. Dan nga yang she shi gaw shi na ga um dan mung rai mung rai nga nga na she shi gaw sa na e dan nga jang gaw jinghku ndi gri gam e ngai ndai wa hpe grai sat mayu ai, ngai hpe naw sat kau ya rit, dan jang ngai nang hpe bai chyeju htang na re nga yang she, E mai ai le, dan nga yang nga na she, dai hkanghkyi nga ai dai makaw kaw na she n di gram gaw shi na ndi gram gram tsip tsip da ai i ndi gram tsip tsip da na she dai kaw n di gram sa wa ai ni dai kaw shi hpe sa sha la na wa yang dai kaw chya chya dai kaw chya chya re na shi gaw dai kaw bai la na sha kau re ya sha kau re yang shi kaw nsa gawa sai le. Dai yang she grai chyeju kaba sai nang na dai hku galaw ai nang na ah tsam hpe grai chyeju dum sai dai majaw nang gaw ngai na shara de ngai nga ai shara ngai na hkawhkam mung ngu ga le i shanhte hkanghkyi nga ai shara de dai de hkan nang wa rit. Dai kaw nang ma dai kaw wa nga u ngai hpe ma ndai hku re na ngai hpe sa wa ai machyi mayan ni hpe ma nang hkam kau ya rit. Nga na she ngai ma nang hpe hpa ndi na nngai. Ngai na masha ni hpe ma nang hpe hpa n di shangun na an lahkawng n dai hku i shada da garum hkat ga nga na shan lahkawng gaw ohra wa ndai ndi gram mung i grai kaga hkan e shi na shi nga taw yang pyi naw gaw ndai kaga machyi mayan ni gaw sha hpa nnga yang gaw nau nsa ai le kalang marang she lai na raitim mung ndai hkanghkyi nga taw sai nga yang gaw kaga ni grai sa wa ai le, deng yang gaw ndi gram mung akyu lu ai. Ndai hkanghkyi mung akyu lu ai i tinang a manang wa hpe akyu mung jaw tinang kaw mung tinang na hpyen kaw na mung lawt lu ai dai hku shada da hpaji hpe garan hkat na grai pyaw hkra nga mat ma ai da. . Language as given: Jinghpaw

Translation (Rita Seng Mai) Once upon a time, there were a mouse and a lion in a forest. And there was a wise man there too. "I don't want to be a mouse anymore. I want to be the King of animals," the mouse thought to itself and went to the wise man. It told him, "Mister, I just want to be the King of animals." Then he said, "Lion!" The mouse turned into the lion when he said that. Then the mouse was so happy since he turned into the lion. It was so haughty and arrogant. It was arrogant with the thought of becoming a lion. It thought, "I am the King of animals." Then the wise man saw that and told it, "You can't be so arrogant like that. Don't act like that." But the mouse didn't listen to him. "I will be a King for a long time," it said. "You are so arrogant and proud. You ate small animals as you like. You don't protect the animals which are in the same groups. You don't know how to lead them. So from now on, you turn into a mouse again. Live as a mouse!" told the wise man. Then it turned into the mouse again. Transcription (Lu Hkawng) Moi shawng de Yu langai mi hte Hkahkyi langai mi nga ma ai da. Dai kaw na grai chye ai sara shinggyin masha sara langai mi ma nga ai da. Dai yu gaw yu tai jin re na she dusat ni na hkawhkam she tai mayu sai yu gaw nkam tai sai ngu re na she shinggyin masha wa kaw sa da. E sara wa e ngai gaw hkahkyi she tai mayu ai law ngu sa tsun ai da. Shaloi gaw dai sara wa gaw hkanhkyi ngu dat ai da. Shaloi gaw shi gaw hkanhkyi bai tai mat sai da. Kaja kabu hkanhkyi lu tai sai ngu na kabu taw she shi gaw grai bai gum rawn wa da. Grai bai gum rawn hkawhkawm lu tai sai dusat ni na hkawhkam lu tai sai ngu na gum rawn ai majaw oh ra shinggyin masha la wa bai mu re, E nang gaw dai hku gum rawn ai gaw n mai ai nang dai hku hkum galaw ngu na bai tsun tim mung shi gaw n kam hkam ai da. Naw tai na ngu nang grai gumrawn wa ai dusat ni hpe e majoi joi amya sha wa ai manau manang hpe e nang hte bung ai dusat ni hpe e atsawm sha n chye zinglum ai nchyoi woi nga ai dai re majaw nang ya kawn na ayu she bai tai mat sa nu Yu bai ngu da. Rai jang Yu bai tai mat ai da. . Language as given: Jinghpaw

LION FAI narxlar tarixini kuzatish kriptovalyuta investorlariga o'z investitsiyalari samaradorligini osongina kuzatish imkonini beradi. Vaqt o'tishi bilan LION FAI uchun ochilish qiymati, yuqori va yopilishini hamda savdo hajmini qulay tarzda kuzatishingiz mumkin. Bundan tashqari, siz kunlik o'zgarishlarni bir zumda foiz sifatida ko'rishingiz mumkin, bu esa sezilarli tebranishlar bo'lgan kunlarni aniqlashni osonlashtiradi. Bizning LION FAI narxlari tarixiy ma'lumotlariga ko'ra, uning qiymati 2025-07-22da misli ko'rilmagan cho'qqigacha ko'tarilib, -- AQSh dollaridan oshib ketdi. Boshqa tomondan, LION FAI narxlari traektoriyasidagi eng past nuqta, odatda “LION FAI barcha vaqtlardagi eng past” deb ataladigan nuqta 2025-07-22 da sodir bo'ldi. Agar kimdir shu vaqt ichida LION FAI xarid qilgan bo'lsa, u hozirda 0% miqdorida ajoyib foyda olishi mumkin edi. Maqsadga ko'ra 1,000,000,000 LION FAI yaratiladi. Hozirda LION FAI aylanma ta'minoti taxminan 0 ni tashkil qiladi. Ushbu sahifada keltirilgan barcha narxlar ishonchli manba Bitgetdan olingan. Investitsiyalaringizni tekshirish uchun bitta manbaga tayanish juda muhim, chunki qiymatlar turli sotuvchilar orasida farq qilishi mumkin. Tarixiy LION FAI narxlari ma'lumotlar to'plamimiz 1 daqiqa, 1 kun, 1 hafta va 1 oy oralig'idagi ma'lumotlarni o'z ichiga oladi (ochiq/yuqori/past/yopiq/hajm). Ushbu ma'lumotlar to'plamlari izchillik, to'liqlik va aniqlikni ta'minlash uchun qattiq sinovdan o'tkazildi. Ular maxsus savdo simulyatsiyasi va test sinovlari uchun mo'ljallangan bo'lib, ularni bepul yuklab olish mumkin va real vaqt rejimida yangilanadi.