Climate Change and Unalakleet: A Deep Analysis

This multi-disciplinary science and Indigenous knowledge assessment paper reviews over 20 years of research materials, oral histories and Indigenous views on climate change affecting Unalakleet, Alaska, USA and Norton Sound. It brings a historical review, statistical analysis, community-based observations and wisdom from Unalakleet Iñupiaq knowledge holders into a critical reading of the current state of climate change impacts in the region. Through this process, two keystone species, Pacific salmon and caribou, are explored as indicators of change to convey the significance of climate impacts. We rely on this historical context to analyse the root causes of the climate crisis as experienced in Alaska, and as a result we position Indigenous resurgence, restoration and wisdom as answers.


Introduction
"I was born free. I won't die free. What happened to us?"-An Elder from Unalakleet, 20th Century.
Alaskan climate change in all of its context has not been thoroughly discussed as a socio-ecological whole. Studies of northern climate change and, consequently, the impacts on Indigenous people in Alaska and beyond have emerged in the past 20 years as a major research topic [1][2][3][4][5][6][7][8][9][10]. Studies of Indigenous knowledge and concerns have also included sectoral approaches in the Bering Sea, such as around transport [11].
Our focus area is Norton Sound, within the Bering Sea, and more specifically the village of Unalakleet, Alaska. We, a Finnish human geographer and a non-Indigenous Alaska-based scientist, present a multi-disciplinary assessment of climate change from the focus of this location building on two decades of engagement. We explore questions that go beyond monitoring and observation to include an assessment of the meaning of climate change from various viewpoints and what are argued to be the root causes and implications of the present day and future changes. The article, therefore, includes a strong equity-and Indigenous rights-focus. We recognize all Indigenous communities do not agree on the degree of climate change or the causes and solutions.
The majority of present-day climate change and Indigenous knowledge studies operate from a uniform, geographically-fixed base of contemporary social and cultural locations. A challenging view is to take the Indigenous historical experience into account; this has also been called an "endemic approach" [12,13]. Iñupiaq knowledge holder Herbert O. Anungazuk [14] (p. 189) has called this the "unwritten law of the sea": "The lifeways of the Iñupiaq people cover an entire spectrum, a spectrum so wide and profound that it continues to astound the Western mind." In this article we try to position climate change as observed, experienced and interpreted in the community into an Iñupiaq-tradition informed matrix that included Indigenous Nations self-governing over their lands and seas [12]. These Nations also decided on issues following their specific socio-cultural, political, cosmological and spiritual processes [14,15]. The traditional land uses and social institutions were built on an intimate (also see [32]). Emery, Redlin and Young [36] (p. 482) say that the site would have been used for "15,000" years but do not provide a more exact source for their data.
According to Ray [20], place-name analysis is a method of understanding occupation and presence over long periods of time in Indigenous Alaska. On the Norton Sound, according to her, the Iñupiaq and Yupiaq systematized their travel and camp sites as well as dwelling sites on place names. Ray [20] (p. 256) and [16,24] point out that, today, most of the Indigenous place names have been lost as they ceased to be used for the most part in the end of the 1800s: "(place names) once held a tribal territory together, provided mnemonic guides for travel and utilisation of resources and forged a permanent and identifiable bond with the land." Pratt [24] identifies the community to have been a major historical node for pan-Indigenous trading and migrations. According to Pratt [24] (p. 94), the Indigenous peoples in the region at the time of the European contact were the Koyukon Athabascan and Unalit Yupiaq peoples. Some sources recall earlier Iñupiaq presence already in 1830s (Snowchange Unalakleet Oral History Archive 2019). Ray [20] also reports occasional Iñupiaq "travellers" down to the Kuskokwim river in the early 1800s. Until around 1800, Unalakleet was a major border of Iñupiaq and Yupiaq languages. After that, Ray [17,20]  According to Ray [20], place-name analysis is a method of understanding occupation and presence over long periods of time in Indigenous Alaska. On the Norton Sound, according to her, the Iñupiaq and Yupiaq systematized their travel and camp sites as well as dwelling sites on place names. Ray [20] (p. 256) and [16,24] point out that, today, most of the Indigenous place names have been lost as they ceased to be used for the most part in the end of the 1800s: "(place names) once held a tribal territory together, provided mnemonic guides for travel and utilisation of resources and forged a permanent and identifiable bond with the land." Pratt [24] identifies the community to have been a major historical node for pan-Indigenous trading and migrations. According to Pratt [24] (p. 94), the Indigenous peoples in the region at the time of the European contact were the Koyukon Athabascan and Unalit Yupiaq peoples. Some sources recall earlier Iñupiaq presence already in 1830s (Snowchange Unalakleet Oral History Archive 2019). Ray [20] also reports occasional Iñupiaq "travellers" down to the Kuskokwim river in the early 1800s. Until around 1800, Unalakleet was a major border of Iñupiaq and Yupiaq languages. After that, Ray [17,20] says that it became a trilingual community of Malemiut Iñupiaq, Kauwerak Iñupiaq and Yupiaq (see critical view of the Malemiut concept in [16]). This change was triggered by a loss of caribou in the Iñupiaq home areas further north and increasing trade [18,37]. Burch [23] places the overall crash of this Nulato Hills caribou herd (see below) between 1870 and 1900 (see critical assessments of his analysis in [38,39]). Ray [18,37] refers to this as a major economic revolution in the region. The destination of the increased trade was the Russian-established trading market of Anyui on the Kolyma river delta in Siberia in the Chukchi homeland [18].
Burch [16] (p. 319) offers a very important analysis of the arrival of what he calls a "new social system". He writes that the combination of loss of caribou, small-pox, trade and other drivers all contributed to the establishment of the Iñupiaq presence on Norton Sound. According to him, the social structure of the Iñupiaq allowed strangers to join with a specific Nation. He says Unalakleet received the survivors of famine even from the Kivallinigmiut people [16] (p. 321).
The documented place names of Iñupiaq and Yupiaq origin on the sea coast around the community reflects the seasonal rounds of hunting, fishing and gathering (see [20] for a full list), including those listed in Table 1. Place or a stream of good water close to the ocean Nagoyumkuti Sandbar where the sea gulls congregate on the Unalakleet river Naplathlasit Location of the Sámi / Lapp reindeer herders, also an old fishing camp

Nunamitkoa
End of the world, a river camp site where the Iñupiaq fish camps ended in 1800s (today, the river is used more extensively)

Yup'ik Place Names Translation
Ungalaqliq "south/south wind [village]" or "one river to the south" or "from where the south wind blows" or "the way the [Unalakleet] river flows south to the ocean" or "where the Unalit live". Ray (1971: 253) quotes Rasmussen as to "farthest south". Kuiggavluaq "Swift river" or "little river" Iktigalik "Possesses Indians" Ulukaq "Woman's stone knife"; stone formerly used to make women's knives Lower Koyukon Place Names Challenging, in part, Ray [17,20] and other scholarship, Pratt [24] argues that the Unalakleet river catchment area and the upstream river have historically been Koyukon Athabascan-occupied, as reflected in the place name analysis. Burch [16] (p. 12) also adds to Ray's analysis that there are names of individuals reflected in the Norton Sound place names. Toponyms such as Haatoghee'a Denh are evidence of the large use and occupancy by the Athabascans [24] (p. 100).
The village has been a significant pre-historical trade area between the Athabascan, Yupiaq, known as Unaligmiut (considered the "original inhabitants" of the community in pre-history), and "northern" Iñupiaq (also speaking Malemiut and other Iñupiaq dialects, such as Kauwerak) peoples in Norton Sound connected by overland route to the Yukon River in the East. This route is known as the Kaltag portage (see map in Figure 2) and positioned local nations into a geopolitically central role as mediators of trade up and down the Yukon River. Ticasuk [27] (p. 29) says that the Kuvunmute Iñupiaq people arrived at Unalakleet from the north from the Kobuk River area. She [27] (p. 49) points also to the Yupiaq influence in the community associated with the proliferation of trade following the contact with the settlers (Russians) in the 1700s. Pratt [24] (p. 95) provides that the first contact happened in 1778 (while Ray [20] (p. 252) points out that King Island, Ukivuk, was re-  The place name Unalakleet has been defined as "From the South Side" (some sources earlier translated it as "Where the East Wind Blows", but this is today considered inaccurate ( [19,24]). Ray [20] also says "One river to the south, or where the south wind blows"). Ray [20] and Pratt [24] offer the historical evolution of the place name: From "Uliakagmiut/Ungalaklik/Unalaklik" (this referred specifically to the Yupiaq community south of the river mouth. The Iñupiaq had their settlement north of the river) into "Ulukagmiut" (in 1800s) into the present-day Unalakleet (these toponyms have also referred to the ethnic communities in place across time). Pratt [24] (p. 112) says that Ungalaqliq referred to "from where the south wind blows" amongst other meanings.
Ticasuk [27] (p. 29) says that the Kuvunmute Iñupiaq people arrived at Unalakleet from the north from the Kobuk River area. She [27] (p. 49) points also to the Yupiaq influence in the community associated with the proliferation of trade following the contact with the settlers (Russians) in the 1700s. Pratt [24] (p. 95) provides that the first contact happened in 1778 (while Ray [20] (p. 252) points out that King Island, Ukivuk, was reported by Daurkin in 1765). He says [24] (p. 95) that the first European to visit Unalakleet was Andrei Glazunov in 1833. Ray [37] and [16,23] report that the first firearms arrived in the region in 1819. Pratt [38] offers criticism of this theory and links these herds to a larger Western Arctic caribou herd (WAH), pointing that Burch's assessment of the firearms was vague. According to them, the introduction of firearms may not be a valid argument in losses of caribou populations in the region. Instead, other reasons such as cyclical population dynamics may be at play. Mager [39] has also continued the assessment but comes close to [23] genetic evidence.
The earliest recorded notes from Unalakleet are from the Russian-American company who constructed a post there in 1830s. Ray [18] points to the number of ships associated with the search of the Franklin expedition that caused major social impacts in 1849-1853. In 1892-1898, reindeer herders were brought into the region to introduce this northern trade to Alaska [23] (p. 17). These herds dwindled after 1936 for the most part, with some exceptions such as in Stebbins [40].
Ticasuk [27] offers a view on the pre-contact and early-contact Unalakleet society as observed by the peoples themselves and "handed down" from the past using Iñupiaq knowledge transfer. She provides a view of the royalty, kinship and a description of the endemic [13] decision-making processes in the community. Her account describes the Iñupiaq traditional royalty from the region, including Alluyagnak I and II ( [18] she spells them as Alluiyanuk) and Queen Masu. Ray [18] says that majority of the Iñupiaq population in Norton Sound is related to Alluiyanuk. Hykes-Steere [41] describes these royalties in her recent reflection: "Dorothy Jean Ray did field work in Unalakleet in the 1960s and stayed with my great-grandmother, my grandmother's mom and our last traditional Queen. Her father was Chief Nashalook (see also [27])-the last one Unalakleet had. His two brothers, (the oldest) and Paniptchuk were co-Chiefs, but Nashalook, the youngest brother, was made Chief when he was 20 or 21. Their dad was Chief. There are five Iñupiaq languages in Unalakleet, so unlike most villages we were not all related." According to Ticasuk [27] (p. 27), the Norton Sound Iñupiaq practiced their seasonal rounds according to ecology and the species and food available. Freeze-up and ice-melt defined the uses of the marine and terrestrial areas for hunting, fishing, gathering, trading and other activities [27]. The authors of [20,28] point to the fact that, historically, the Unaligmiut had been living as far west as in Golovin Bay, influencing the linguistic situation there.
A major social change event was the arrival of the Reverend Axel E. Karlson (originally from Sweden) who became a significant advocate of Christianity in the village and in the region. He arrived into the Norton Sound Region in 1887 and from there on started to expand his missionary work [27] (p. 95). This has been summarized as follows: "On June 25, 1887, Evangelical Covenant missionary A.E. Karlson arrived in St. Michael. In St. Michael, he happened to meet Nashoalook of Unalakleet, who spoke some English and Russian. Nashoalook, a medicine man and the last traditional chief of Unalakleet, was one of five tall, dark brothers who had moved to Unalakleet from Malemiut country, which is east of Kotzebue. Nashoalook invited Karlson to Unalakleet, and travelled there on July 12, 1887. In Unalakleet, not all of the locals were as friendly to Karlson as Nashoalook was, and a plan was hatched by three men to kill Karlson. Upon learning of this murderous plan, Nashoalook hid Karlson in his home for three months until the angry men could be persuaded not to kill Karlson" [42].
Ticasuk [27] (p. 97) describes that there used to be a "kargii" (kazgi is the spelling cited in [17]) surrounded by sodhouses in the area, reflective of the Iñupiaq customary rule and governance. She points to a fact that many earlier residents of Unalakleet had "died" before the re-settlement was underway in the 1880s. Ray [20,28] confirms this and points to a small-pox epidemic of 1838-1839, which left the community with only "13 survivors".
This indicates the massive role of the epidemics of the region [15,16]. According to Ray [18], subsequent epidemics included measles and pneumonia in 1900 and the 1918 influenza epidemic. She also refers to the 1830 tsunami that affected coastal villages. A major outside driver in the region was also the number of gold rushes between 1898 and 1900.
Ulukagmiut also entered into regional conflicts with the Athabascans, including the Nulato Massacre in 1846-1851 ( [24] p. 97). However, at the time of the 1838 epidemic, there was an Iñupiaq settlement on the north side of the river (the one Karlson saw), which amalgamated the 13 survivors from the Unalit (Snowchange Unalakleet Oral History Archive 2019).
Ray [28] (pp. 150-151) says that the Iñupiaq arrival to the Unalakleet region was also driven by the accelerating status of the Russian fur trade, which was prominent between 1836 and 1868 ( [24] p. 97). By establishing personal kinships in the region with the Unaligmiut, the Iñupiaq were able to establish their presence in the area (see also in [27] on the personal kinship relations of Norton Sound). Ray [28] (p. 151) says that the key period for co-existence of the Iñupiaq and the Unaligmiut happened around 1865-1867. The amalgamation process sped up with the missionary work by Karlson.
Karlson was involved also in the construction of the "new" village of Unalakleet [27]. The area had been used for a long time as an Indigenous trading and occupancy site, yet the 1887 events saw the fixing of the village site to its present location. At this time Russian was a common trading language in the area due to the history of the Russian-American company trading and settling since 1700s. In later years, English became dominant.
The question of land rights has persisted in Alaska beginning with the 1867 transfer officially to the US from Russia [29]. A range of legislation, including the Dawes Act and the Wheeler-Howard Act, advocated either for recognition of "Native lands" or extinguishment. A central driver of these political-legal actions was the question of how the lands of Alaska could be utilized. The people themselves were equally active early on. Already in 1912, the Alaska Native Brotherhood struggled for recognition of Indigenous rights. Between 1942 and 1946, Unalakleet was included in a group of seven reservations, similar to the mainland United States. Unalakleet was the smallest with a land base of only 870 acres [43] (p. 87).
In modern history, Alaska was established as a state in 1959. The twin drivers of unsettled Indigenous rights and the discovery of oil and gas as well as other resources led the U.S. Congress to pass the Alaska Native Claims Settlement Act (ANCSA) of 1971 (see critical views in [29,44] and supporting views in [43]). This Act transferred Indigenous lands and governance areas into ownership by regional and village for-profit corporations-a solution that has not been used elsewhere. The city of Unalakleet was incorporated in 1974 (https://kawerak.org/our-region/unalakleet/) (accessed on 15 January 2020).
According to Hykes-Steere [29] the ANSCA transformed the land governance away from the traditional governments into the hands of "western"-defined corporations. Hykes-Steere [29] (p. 384) says that "congress . . . forced (Indigenous hunters, fishers and gatherers) into the market economy and the 20th century, the largest land grab in U.S. history and a marvel of social engineering designed to destroy the social fabric of our communallybased societies."

Climate Change
According to Indigenous observations from Unalakleet, climate change impacts began to emerge primarily during the post-ANSCA era. We call this period "modern Unalakleet". Climate change impacts, as perceived by the people in the community, started in the early 1990s. Major visible climate change impacts as perceived locally include coastal erosion, sea level rise and storm surges. The community has been chosen as one of the most vulnerable in Alaska because of this by NOAA [45]. Emery, Redlin and Young [36] (p. 481) estimate that 86% of the Alaska Native villages in Alaska will face "destruction" because of these drivers.
Aronson [45] (p. 7) stresses the spirit of survival in the community. This has led the community to take a range of actions overall, including erosion monitoring with the U.S. Army Corps of Engineers, sales of uphill land lots to residents to have new housing areas, construction of a sea wall and wind power installations to diversify community energy sources.
We have chosen one marine and one terrestrial species of central importance to the Unalakeleet residents as keystone species (Pacific salmon and caribou). This allows for an ecosystem-crossing view and to position and discuss the community-based Indigenous observations from several co-researchers between 2002 and 2019, several of whom have passed on. We wished to allow a rigorous dialogue with scientific indicators of the same species to take place and, hence, chose only two species, a terrestrial and an anadramous example, even though, as is often said, Indigenous knowledge does not separate or uplift certain species over others. Two final categories refer to weather change and an open-ended space for "Indigenous wisdom" where the undefined free expression of Iñupiaq knowledge can be outlined.
Even this method of expressing observations remains limited. The space here does not allow for linguistic scaling, Indigenous evaluation [29] or a full oral history disclosure of the nuances and details of change. Our purpose is, however, to position observations into a twenty-year frame and meaning in order to offer a coherent view of change. Table 2 lists key observations, an interpretation of meaning in the given context and the source material where the observation can be referenced for each indicator species listed. Brief summaries from the observations listed in the table are in the sections below. Table 2. Key observations, meaning and source material references for Pacific salmon and caribou.

Pacific Salmon (Oncorhynchus sp.) Key Observation Meaning Reference
Salmon harvested for dry fish; important seasonal food Major dependency on Pacific Salmon [19] Salmon populations started to dip in 1992; warmer ocean Moreover, birds and salmon dip in numbers.
The ocean is warmer [19] Ocean bottom vegetation is increasing and affects salmon Warmer trend noticed in 2002 (nets) [19] Overharvesting of salmon in the Bering Sea (international) International boats take too much in 2002 [19] Salmon have more lesions, 2002 More disease in salmon [19] Everything depends on the nutrients of the salmon on river Salmon is the key to river health [

Abundance of Pink Salmon in 1940s
Loss of plentiful stocks [19] Pink salmon years are "even" Pink salmon plentiful in even years; cyclic nature of pink salmon stocks [19] Average Thousands of Pink Salmon dead in Unalakleet in 2019 Water temperatures high; will impact mammals and birds [40] King salmon returned plenty in summer 2019 Have been mostly gone for 15 years; closures have worked [40] So many dead fish that youth could not jump from the bridge to swim Salmon deaths noticed by all age groups [49] Best King harvest since 2014, but mostly small fish Improved king situation, but size is small [  Key summary: The authors of [6] (p. 127) describe the fish species important in the community (including Pacific herring, King salmon, Chum salmon, Pink salmon, Silver salmon and trout species), and how they are fished and used. Pacific salmon species are central for food security and culture. Major declines in numbers occurred between 1983 and the 2002-2007 period. After this, Silvers rebounded for a while, whilst King salmon numbers were very low until 2019 when they made a return. Pink salmon mass death events triggered widespread concern in 2019, alongside changing ocean and river conditions. Industrial harvests (by "foreign pirates", pollock by-catch, major fisheries in the Alaska Peninsula and Aleutian Islands Management area and. to a much smaller extent, the local commercial fishery) affected the subsistence catch. Trout are increasingly affecting salmon smolts.

Caribou (Rangifer tarandus)
Key summary: Early crashes of caribou stocks in Northwest Alaska triggered a migration of some of the Iñupiaq further south [23]. In 1867 there were large numbers of caribou in Unalakleet. During the early 1900s, the caribou were not as plentiful, and reindeer introduced by Sámi herders in 1891 [51] eventually joined the caribou herds. Caribou were abundant and provided for the village during 1980-2000, but since then numbers have dwindled, and animals have moved further away from the village ( [28] gives a base number of 200,000 caribou in the Bering Strait region, with 15,000 annually on average). Table 3 shares key observations related to weather observations and changes, including references for the source material. The information includes how Elders and earlier generations could predict weather accurately, and some people could even influence the wind and weather, but those skills are being lost as a community. Snow amounts and storms have been observed to change significantly. The timing and process of break up and freeze up have also been affected in recent years. Continuing coastal erosion is a concern, as are algal blooms in the ocean. There is less sea ice, and it is thinner. Major storms and lack of sea ice have occurred more recently in 2010s. Table 3. Key observations related to weather and source material references (including summarized observations and direct quotes; direct quotes are indicated with quotation marks).

Weather Key Observation Reference
1830: A major tsunami event in Bering part of Alaska. [18] Only in 1892, Bering Strait could be crossed on ice. [18] 1892: Winter was unusually cold, fall was late and was spring early. [18] Shaktoolik suffering from erosion (caused by river) already in 1931. [18] In 1950s, weather was "normal". [6] In 1960s, ocean conditions started to be "rougher". [6] Freeze-up happened from September to October in 1960s. [6] Weather was more consistent. [6] Change started in 1970s. [6] Ocean frozen solid last time in 1970s; polar bears close by. [49] [When asked about weather prediction] "I... you know we grew up without grandparents, the ones that have grand-parents are the ones that... they sure know how to predict. There's one lady we used to go camping with a boat down the shore for salmon berries; she'll predict the weather in the evenings. She'll go out and put her hands inside her parka and stand around and look at the clouds, and look at the hills, and some evening she'd come in and say: 'tomorrow will be nice,' other days then, 'tomorrow won't be too good, either rains, or be real windy.' If it's windy they enjoy it, because of the mosquitoes." [19] "I would say that there's gonna be years with really heavy snow, and that gives us a reminder of when I grew up. But it seems like it was like that every year. And now, maybe once in a decade we'll have a really good heavy snow year. In fact, several of the last ones have been pretty dry, not as much snow as I could remember. But it seems like when I grew up we had lots of snow every year. But it does not seem to be the case now." [19] "I moved in to my grandfather's home back in 1939, and there's a lotta change since. It's noticeable. We used to have, you know, the break-up of the Unalakleet River used to occur late in May and in June. And now it's late April or first week of May It's much earlier and much warmer, than it used to be. And when I was a kid, during the middle forties, it was a fun game for us to jump from ice cake to the water, and it'd be middle of June!" [19] "The first time I really can remember having rain in winter time was when I was in grade school, and then it froze the next day, and everybody went skating all over the place. It's a long time ago. Around 1951, or somewhere around there." [19] "It just doesn't seem like we've had too much of the blizzards, like we used to have when I was younger. And long period of bell blizzards in, you know, not the one-day, two-day kind. I mean it used to blow seven to ten days in a row, you can't see anything, that's why we had the big snow banks. But it seems a little bit warmer." [19] "There has been changes since I've lived here. I came here in 1978, and I've noticed that one of the big changes in the winter is that there is no more big huge snow banks in town. They were very, very high above buildings each winter. Now there is practically none. And when I sit around with people, and visit maybe the older ladies, they talk about how the summers are hotter than when they were young. Or ever since I've been here maybe it seems like the summers are hotter." [19]

Weather Key Observation Reference
"We notice these things, so maybe the global warming may have affected them. It wasn't that noticeable. One other thing that I noticed is that even the snow... that may not be natural, I'm almost certain it's because of global warming. Because in the fall, we used to get snow all the way from October and December-January, and the snow used to be all over, you know, and the snow banks. But during the last few years the snow doesn't seem to come until January, or so late. And last year, we got quite a bit of snow, and when the warm weather come, and the snow just dissolved more or less." [19] "My step grandfather said years ago the winter was severe. They used to go dog teaming to go to St. Michael's, and they used to make straight cut. But now they say the weather is changing on account of the wind, and this keeps it from forming solid [ice where] the wind would blow. We do have a lot of east wind during winter months. And it is not as solid as it used to be, to go right straight to St. Michael's." [19] "I've hunted seals ever since I was a little boy. My dad took me up when I was so small, and I could not see the land in any direction, and I was worried. I was hoping that he'd know the way back, because I didn't know where I was. He taught me how, and he taught me wind direction and how to catch the seals. You know, when I am looking for seals, cause minor problem, but if I'm not looking for the oogruk [bearded seal], I need the leave the shore-fast ice and get out there, you know, twenty-three miles out on the ocean. And if I am looking for walrus I gotta go even further. But he taught me how and basically where to find them, and how to catch them and how to take them a part. And what to bring home and what not to bring home; there was not too much we left behind." [19] "It's warmer! Yeah it's warmer, and I'm told that the scientists are seeing a lot of different types of algae growing out there. And blue whale... blue whale is right in it. They're not supposed to be up here! But they're out here on the Bering Sea, in that green stuff. So, I don't know maybe they're just using it for shade or something, but... there's a lot of change in the ocean! When they first started reporting [changes in birds]... that's when our salmon started taking a dip in population. It was about ten years ago; they said that birds are dying out there.
And it showed here, in the fish; we get less fish." [19] "The sea ice is thinner in the winter-time. Here it blows out frequently, cause we have east winds, and after freeze up when the wind blows the ice off, and that might be a contributing factor too. I've noticed that the ocean ice is considerably thinner. Because of it's thinner it breaks up sooner. " [19] "You can also use the wind and the tide, somehow I can't think of how you can do it right now. But you can tell which way the wind is going to blow by just looking at the tide. Also, when we are out berry picking and it's very calm and all the mosquitoes are there, we usually whistle. You know, and it'll bring the breeze. So we still do that." [19] 2012: Extratropical cyclone produced storm surged up to 3-4 m. [45] 1994: A really high flood on the river. [45] Really early winter, 1992. [45] There is more rain now affecting the drying of fish in 2014. [6] Floods affect the salmon spawning in 2014. [6] Decreased snowfall makes the river freeze to the bottom affecting fish and spawning survival. [6] New storms cause substantial erosion. [6] Breakup in 2014 was noted to be different than in the past, ice melts on the place, no bangs.

Weather Key Observation Reference
Freeze-up has been delayed in the autumn 2014, now it happens October-November. [6] Sea ice is less, with more open water areas. [6] Loss of dog teams means that the fish are not used as much. [6] Sea ice formation usually in October; in 2018, open water well into Autumn. [32] Disappearance of the Bering Sea "cold pool". [31] Projected disappearance of sea ice by 2037. [31] Hurricane in Savoonga 2017 damaged over 60 homes. [31] Energy infrastructure affected. [31] Four feet of ice in June during seal hunt in 1970s. [46] No sea ice and hard sealing in 2018 on March 14th, 60 miles one way for hunt trip. [46] 3rd August 2019: massive storm with flood events. [46] Lack of sea ice and 35 mph winds cause significant erosion. [46] Permafrost thaw events on the coast reported and documented; sinkholes. [46] New storms are so massive that people need to evacuate. [40] Plants bigger because of warmer weather. [40] Winter 2018-2019 no sea ice at all. Seagulls stay longer. [40] Algae forming in bay and caught in nets. [49] Elders saw the changes in visions beforehand. [49] 3.2.4. Indigenous Wisdom Table 4 provides space for the open-ended sharing of Indigenous wisdom that occurred in interviews and materials. By highlighting these specific statements, we are pinpointing what constitutes as meaningful as perceived by Indigenous evaluation methods. In summary, climate change is observed to be caused by greed and loss of traditional Indigenous values. Survival and well-being in Unalakleet is understood to be deeply connected to the health of animals and fish and the environment. The "ownership" of Alaska was described to have been wrongly transferred to parties that are not managing the environment well. The Alaska Native Claims Settlement Act has not delivered the promised rights or solved the crisis in the villages. Table 4. Open-ended Indigenous wisdom, including source material references.

Indigenous Wisdom Key Observation Reference
"If the global warming really affects the salmon and I think it does, salmon and all these other resources that natives subsist and rely on, when those are gone, it will be hard on a lot of people here in our area". [19] "Our ability to survive as native people been depends a lot on that fish and it's staple in our diet." [19] "We grew in a times, where we were the only ones here and we owned the whole state. You know, the native people did. That forty million acres, sound [like] an awful lot of land that they say they give us. But there's 364 million acres in the State of Alaska. What happened to the other 328 million, that was divided up between the federal government and state government? Our land, and they have taken the land. They've taken the money derived from that land. They've taken the money derived from the oil, and they've spent it in urban centers. While our communities go without water and sewer yet." [19]

Indigenous Wisdom Key Observation Reference
"Native people have to be a part of the society. They have the right to be here, and we have a right to be here. And I'd like to keep fishing and hunting, and pass on what my dad taught me, plentiful, bounty of the ocean, and the bounty of our land that we live in." [19] "I worry if they kill the resources, that not only we depend, but the marine mammals depend on. If those fish species are gone, what are they gonna eat? If they change the cycle of life, that we depend on, there is a missing part of that cycle that [reverberates] throughout the whole cycle. You end up with nothing. It's kind of scary." [19] "I have really deep concerns about oil and gas development. I think it benefits primarily the huge companies and the nation as whole. And they don't take care of the local people, I mean, they say they do. And they do indirectly through taxes and the employment. But based on their experience with the North Slope development, there were very few native people that got hired up there permanently. There's some. You know, there's no question that there's benefit there. But the majority of people didn't really have an opportunity. Most of the people employed were outside people, imported to do the work. And that's been common in Alaska since the beginning of world trade." [19] "And then how long does oil pollution last? It's really... it's really hard. You know, there's always the argument of scientists. Western scientists versus aboriginal people, and how they know their area. And generally the scientists are written-language based, and document -based. And they don't believe anybody unless several people saw it. And when they're dealing with fish and game, and wildlife, there's no way, you know, they're always behind schedule by fifty years. I summarized Western science being 'oops' science." [19] "If you judge by the fish, no the sea is not healthy, but there's something going wrong, there's something going on." [19] "I think it [knowledge of weather] changes gradually. Right now you got satellites and television, and they... they keep communications going. But, I think some people can read weather very well, and for what they do. I mean, they take care of themselves, like the fishermen and hunters. And they know what's going on, and they can tell what is gonna happen. So, they're prepared for what's coming up. I know, one of my friends told me that he was suspicious about his weather forecasting ability, because of the change. He said, 'The ice isn't as thick as it used to be, the currents are different, and the weather patterns changed a bit.' So, when you see the different cloud formations in relation to the hills, you know there is a change. It changed a bit. It's harder to tell, how the weather's going to act with his knowledge. So, we, the younger ones we are a bit more dependent on... they're using the Internet now. And there's more observation in points that's formalized. A long time ago you just depended on yourself. You know, where you are at and you had to read the weather for your own benefit, and your memory of what happened before.  [19] "Etok (Charles Edwardsen from Barrow) and the others who began fighting for land rights in Alaska where when the oil companies joined them in their fight to clear title for the right-of-way to build the Trans Alaska pipeline to access the oil in Prudhoe Bay. Most of the leaders, including Etok, accepted credit cards to pay for their travel to DC. Their travel had been funded by bake sales, raffles, bingo and often they ended up sleeping at the airport, which at the time had showers in DC. This lead them down a very precarious road and in the end we lost our hunting and fishing rights, the land went to corporations and the villages lost control of the land." [53] Given the speed of climate change, tribes cannot rely on state or federal action for decisions. [54] "Though the Earth changes, it is still giving. Providing. Nurturing. Inuqtaq (a small boy in 2018) will still learn respect for what gives life. I hope the rest of the world quickly adapts and also respects the Earth-as we have for milleniums and will continue to do so." [32]

Indigenous Wisdom Key Observation Reference
"What scares me more than that, and the observation, is the effects it's having on our resources. And this summer is the scariest I've ever seen. I'm really scared of what's happening in our ocean. The Bering Sea is the richest sea in the entire world, or was. We are now seeing die-offs from the killer whale to the krill. Zooplankton, you know, like the bowheads eat. Without the ice, you know, I don't know what's happening. When you see even killer whale die from something out there, all the way, we've got Killer whale, belugas, bearded seals or oogruks, ring seals, spotted seals, harbor seals, you know, all dying. Birds, auklets, murres, you know, puffins, a lot of them just belly up dying. This summer as a commercial fisherman I've seen more fish come belly up, floating out of our river. Normally they spawn, and then they rot trying to go upriver, and they feed the little fish, as they, you know, when they decay and fall or sink to the bottom. The bears eat them, everything becomes part of the food chain. But if they die and they float out into the river, then they're not part of the food chain. And I don't know if that, um, is a way that God kinda controls things, you know, if we got too much in our river, and there's only so much oxygen, and if you got 7 million humpies out there then naturally there's gonna be some natural death. But this looked unnatural." [46] "For the first time in all my years of fishing, at the end of the season my nets were so stinky I had to strip them, and they're no more good. And it scares me, with the ocean warming 10-15 degrees in Norton Sound this summer they didn't catch their crab. The crabbers couldn't find them. I worry that the food chain is tremendously impacted by climate warming. And I worry about the climate warming, but even more worrisome is the effect of Fukushima. I studied nuclear waste. Nuclear waste lasts for thousands of years. And, so it's been two years maybe, so it's got another 998 years to kill, you know, long afterward. And then even before Fukushima up north was Chernobyl. And they just dump their nuclear waste into the ocean, as I understand it. And that was, what? Thirty years ago. So it's still got 970 years to kill. And it's killing today, yet." [46] "Basically if we kill what we depend on to sustain life, then we're basically cutting our own throat. And the powers that be need to realize that this is not a red or yellow, black or white thing. It's an everybody thing. And money is not gonna be able to pay your way back to a healthy ecosystem, which we need. But, those are my observations. No snow, no ice, the platform for our marine mammals, where they feed and raise their young, is not there anymore, so they're hauling out on land. Our actions are having effects on the walrus that have to haul out on land, which makes it more dangerous." [46] "For me as an Alaskan Eskimo, born and raised in Unalakleet, Alaska, I have a tremendous respect for my land. I don't pollute it. Same way, tremendous respect for my ocean I don't pollute it. I clean up, and teach my children to clean up. If you go camping, make it cleaner than when you get there." [46] "The changes are happening. We see it coming, with social media and everything. In terms of climate change, it's happening and it's happening really fast. And it's accelerated. It's accelerated to the point where we had no longer have the ice to keep the people out of our Bering Sea. The super tanker ships that are going through our northwest passage. Before it was quiet, there was no noise pollution. There was no wastewater, gray water pollution, there was no oil being dumped. But with this global warming and the climate change, our northwest passage is open. Which opens up another avenue of pollution, another avenue of disruption to the habitat that we, our resources depend on, and we depend on these resources." [46] "Things have changed. You have to go far. We don't get walrus anymore, at all. Zero. That's been gone for many years. When I first came here in the late 70s people used to hunt walrus and eat walrus, but it's no longer available cause there's no more ice." [40] "It's crazy how we're losing so much. Even the river's changing. The river is changing, eroding, so much that it's changed, it's changing its path it's like it's alive, you know. And then the coast, the erosion is so huge. And then we have, if you fly over and you land towards the village you can see these huge craters, and they look very bizarre. All along north and south, just melting of permafrost and just, it's very ugly and it's kinda dangerous for, like, berry pickers. Yeah. A lot of mammoth tusk being exposed. (laughs) Very weird. It's very bizarre." [40] 3.3. "Children's Voices" Listening to the voices of the youth of a community provides an important perspective on the present and future and what it means for them to experience and adapt to the present changes. Mustonen and Mustonen [19] collected a range of oral histories from the youth of the early 2000s. In these materials, the presence of communal distribution of catches and the presence of a number of cultural practices, such as feeding the seal salt water after a hunt, are still prominent. Young boys recounted harvesting beluga whale with nets and the knowledge to cut the whale using Indigenous patterns.
Between 2008 and 2018, the school of Unalakleet and two schools in the Eurasian North, Selkie in Finland and Norya in Udmurtia, Russia, initiated a traditional knowledge education programme and exchanges. This revitalisation of educational and cultural aspects has included activities on the land, weather observation and prediction, painting and dancing, to name some examples.
In 2015, the children in Unalakleet school created animated stories about a "School of Dreams" (Available online: http://www.snowchange.org/2015/02/school-of-dreamsproduced-animations-and-a-look-to-the-future-in-urals-bering-straight-and-boreal-finland/) (accessed on 14 February 2015). The topics of the animations were focused around a faith in a technological future, including Antigravity, Flying Books, Jet Pack, Robot Girl, Time Traveller and Village in a School [55].
In 2019, the third grade class in the Unalakleet school shared their visions of the future of Unalakleet through a painting exercise (Available online: http://www.snowchange.org/ 2020/02/children-of-unalakleet-alaska-paint-their-future-2020/) (accessed on 14 February 2020). Themes in the paintings incorporated aspects of observed climate change and adaptations, as well as village changes and desires. For example, students painted other families moving to the hills above town, a rising ocean, snow, warming temperatures, more trees in town, a water park and airplanes.

Science Results
Information from western scientific methods indicate that the Arctic is undergoing a period of unprecedented change [56]. It is well established in the scientific literature that greenhouse gas emissions from the industrialized world and land use changes are causing far-reaching and accelerating change to the climate and ecosystems of the Circumpolar north. Temperature increases across Alaska vary greatly by season and location, with the fall and winter periods in the western and northern regions of the state experiencing the greatest temperature increase [57][58][59]. Figure 3 shows the trend in annual average surface air temperature at Unalakleet for the available record, from 1950 to 2019 ( [60]; NOAA NCEI ISD dataset as described in [61]). There has been an approximately 2 • C change in the annual average surface air temperature in Unalakleet since 1950, based on a least-squares linear fit.   [61]. The data were accessed through the IMIQ Data Portal [60]. The red line is a 10 year moving average.
Seasonal sea ice in the Bering Sea is crucial for coastal communities, marine and terrestrial ecosystems and regional climate. The annual variation in sea ice extent between 1850 and 2020 in the Bering Sea is shown in Figure 4. The winters of 2017-2018 and 2018-2019 represent an unprecedented deviation from the over 160 year record of sea ice extent in the Bering Sea. The record low sea ice extent observed in the Bering Sea during these recent winters is an integral part of the massive ecosystem shifts underway in this region due to the importance of sea ice as a control on ocean temperature and by initiating primary production in spring through the provision of algae that forms under the ice in winter [62][63][64]. The conditions that contributed to ice loss during these years include unusu-  . Air temperature data are from a meteorological station at Unalakleet, from the NOAA National Center for Environmental Information (NCEI) Integrated Surface Database (ISD), a quality-controlled global repository of surface meteorological observations from governmental and meteorological organizations worldwide [61]. The data were accessed through the IMIQ Data Portal [60]. The red line is a 10 year moving average. Seasonal sea ice in the Bering Sea is crucial for coastal communities, marine and terrestrial ecosystems and regional climate. The annual variation in sea ice extent between 1850 and 2020 in the Bering Sea is shown in Figure 4. The winters of 2017-2018 and 2018-2019 represent an unprecedented deviation from the over 160 year record of sea ice extent in the Bering Sea. The record low sea ice extent observed in the Bering Sea during these recent winters is an integral part of the massive ecosystem shifts underway in this region due to the importance of sea ice as a control on ocean temperature and by initiating primary production in spring through the provision of algae that forms under the ice in winter [62][63][64]. The conditions that contributed to ice loss during these years include unusually warm southerly winds during the winters that caused substantial ice retreat, delayed ice arrival in the Northern Bering Sea due to late freeze-up of the southern Chukchi Sea in 2017 and 2018 and warm ocean temperatures [65]. Work by Thoman et al. [66] indicates that the 2018 extreme low sea ice extent in the Bering Sea may become the mean level by the 2040s.
Typically, shore-fast sea ice in Norton Sound dampens the impact of late fall and winter storms. The lack of sea ice combined with winter storms during the 2017-2018 and 2018-2019 winters resulted in coastline erosion, infrastructure damages and unprecedented winter flooding events in villages along the northern and western coasts of Alaska, including Unalakleet [59,67,68]. In other regions of coastal Northern Alaska, the lengthening sea ice free season is resulting in an extended fall storm season with more destructive waves and damage later in the year, including increased flooding and erosion [69].  Summer sea surface temperatures along Alaska's west coast were 2.5 to 6 C warmer than average during the summer of 2019 [58]. Historically, the thermal barrier that existed between the southeastern region of the Bering Sea and the Northern Bering Sea was an important division between the linked but separate ecosystems in these regions [64,71]. The location and extent of the "cold pool" (water temperature less than 2 C) at the ocean bottom is primarily determined by the southern extent of sea ice during the preceding year and its melt-out date. This cold pool is a critical aspect of the ecosystem of the Northern Bering Sea, as it provides habitat and refuge for cold-tolerant species such as Arctic Summer sea surface temperatures along Alaska's west coast were 2.5 to 6 • C warmer than average during the summer of 2019 [58]. Historically, the thermal barrier that existed between the southeastern region of the Bering Sea and the Northern Bering Sea was an important division between the linked but separate ecosystems in these regions [64,71].
The location and extent of the "cold pool" (water temperature less than 2 • C) at the ocean bottom is primarily determined by the southern extent of sea ice during the preceding year and its melt-out date. This cold pool is a critical aspect of the ecosystem of the Northern Bering Sea, as it provides habitat and refuge for cold-tolerant species such as Arctic cod (Boreogadus saida) [72,73] and acts as a barrier for adult subarctic fishes such as walleye pollock (Gadus chalcogrammus) and Pacific cod (Gadus macrocephalus) [74,75].
The extent of the cold pool was substantially reduced in the summers of 2017-2019, and temperatures in the Northern Bering Sea near the seafloor have been above 0 • C in general for an increasing amount of time [64]. The loss of sea ice, lack of thermal barrier and warm ocean and atmospheric temperatures have triggered massive ecological shifts 2017-2019. Increases in Pacific cod, walleye pollock, and several flatfish species were observed in the Northern Bering Sea [76]. Work by Thorson et al. [72] demonstrates a northern shift and reduced area of the Arctic community assemblage (which includes Arctic cod and other species) between 2010 and 2018. Genetic analyses indicate that the increase observed in Pacific cod biomass in the Northern Bering Sea in 2017 was a result of northward migration from their historical range in the Southeastern Bering Sea during the anomalously warm summer conditions [77].
In addition to fish community assemblage and species range shifts as described above, ecosystem changes have reverberated elsewhere throughout land, ocean and air. Harmful algal species that are responsible for toxic algal blooms are expanding in the Arctic alongside warming ocean conditions [78,79]. Seabird surveys and monitoring demonstrated low seabird abundances at sea and low reproductive success, partially due to low forage fish abundance [63]. An increase in seabird die-off events in 2018 in the Northern Bering and Chukchi Seas continued through summer of 2019, with preliminary studies indicating starvation as the likely cause of death [80,81]. In 2019, NOAA declared an UME for three of the four Alaskan ice seal species in the Bering and Chukchi Seas (bearded (Erignathus barbatus), ringed (Pusa hispida) and spotted (Phoca largha) seals were affected; ribbon seals (Histriophoca fasciata) were not) [82].

Pacific Salmon
Pacific salmon species are experiencing various changes across Alaska. To the south, climate change and habitat loss threaten their distribution. While in the north, a warming Arctic has provided opportunity for range expansion of some species [83]. In the Norton Sound region, the size of chum salmon has been declining steadily since 2000, potentially impacted by factors such as a warming climate, changing ocean ecosystem and fisheriesinduced evolution [84]. Juvenile pink salmon, measured as catch per unit effort during trawl surveys in the Northern Bering Sea, increased markedly in 2017 [64].
A major event was the high atmospheric and water temperatures in July 2019, which is the likely cause of a large death event in pre-spawned pink salmon in multiple river systems in the Norton Sound Region [31,85]. This event is of great concern for salmon species in the region, as the observed high temperatures are likely to become more frequent under future climate change.

Caribou
Specific to Northwest Alaska, Burch [16,23] outlines the existence of the now-disappeared Nulato Hills caribou herd (NHCH) that partly overlaps with today's Western Arctic Herd (WAH; November to March overlap); there might have been seven specific herds before the 1800s in Northwest Alaska. Burch [23] says that after the population crash of the 1800s, only the WAH and Porcupine herds remained, with the NHCH disappearing by 1900. A herd can be identified based on their calving area. Burch [23], by documenting the changes on caribou in 1850-2000, identifies the dynamics of fluctuation and says that the key driver of the territorial dispersal is the size of the herd, with the calving area as the center of dispersal (see the seasonal herd dynamics in [23] and Figure 5). The WAH calves in the Utuktok highlands [50,51]. According to scientists, the herd fluctuates on a decadal scale. Burch [23] (p. 67) says that the herd was at around 400,000-500,000 in 1840-1860; in his words, "immense herds" occupied and passed Unalakleet in 1867. There was a recent low of 75,000 animals in 1976 which then rebounded to the present 259,000 (peaking at 463,000 in 1996 and 493,000 in 2003, [50,51]). This also indicates that Unalakleet is at the southern edge of the herd, meaning a loss of caribou near the community if numbers go down ( [23,50,51] see also continued and critical assessment of this model in [38] and [39]). Across their circumpolar range, caribou and reindeer herds have declined in response to factors related to climate warming and anthropogenic landscape changes [86,87].
The mixing of reindeer and caribou in the earlier parts of the 1900s was also a cause of changes [23]. Caribou behaviour has been puzzling both to local Iñupiaq reindeer herders and scientists in trying to determine why the WAH caribou use the Seward peninsula irregularly [51]. The author of [54] points to the knowledge that the loss of caribou cascades in the community, including lack of intergenerational knowledge sharing.

Discussion: Positioning Indigenous Knowledge and Wisdom with Science from Unalakleet
Western science demonstrates the main drivers of climate change to be the burning of fossil fuels by industrialized societies and land use changes [88]. Indigenous knowledge from community voices takes this understanding a step further: the messages of the changing ocean, lands and waters of Unalakleet are understood to be caused by greed and the industrial (mis) use of resources, especially oil and gas [19,49]. This link has been established by individuals [29,32,46] as well as numerous community participants [19,49].
The impacts of climate change have accelerated, especially the Bering Sea warming that is reflected in the lack of sea ice, health and numbers of animals and other key indicators of a sub-Arctic ecosystem that is now suffering from the lack of its key components. These processes manifest both in western science and Indigenous knowledge materials (Table 5). We recognize that the understanding of the "why" and "how" of climate change is not the same across all coastal communities in Alaska. The WAH calves in the Utuktok highlands [50,51]. According to scientists, the herd fluctuates on a decadal scale. Burch [23] (p. 67) says that the herd was at around 400,000-500,000 in 1840-1860; in his words, "immense herds" occupied and passed Unalakleet in 1867. There was a recent low of 75,000 animals in 1976 which then rebounded to the present 259,000 (peaking at 463,000 in 1996 and 493,000 in 2003, [50,51]). This also indicates that Unalakleet is at the southern edge of the herd, meaning a loss of caribou near the community if numbers go down ( [23,50,51] see also continued and critical assessment of this model in [38,39]). Across their circumpolar range, caribou and reindeer herds have declined in response to factors related to climate warming and anthropogenic landscape changes [86,87].
The mixing of reindeer and caribou in the earlier parts of the 1900s was also a cause of changes [23]. Caribou behaviour has been puzzling both to local Iñupiaq reindeer herders and scientists in trying to determine why the WAH caribou use the Seward peninsula irregularly [51]. The author of [54] points to the knowledge that the loss of caribou cascades in the community, including lack of intergenerational knowledge sharing.

Discussion: Positioning Indigenous Knowledge and Wisdom with Science from Unalakleet
Western science demonstrates the main drivers of climate change to be the burning of fossil fuels by industrialized societies and land use changes [88]. Indigenous knowledge from community voices takes this understanding a step further: the messages of the changing ocean, lands and waters of Unalakleet are understood to be caused by greed and the industrial (mis) use of resources, especially oil and gas [19,49]. This link has been established by individuals [29,32,46] as well as numerous community participants [19,49].
The impacts of climate change have accelerated, especially the Bering Sea warming that is reflected in the lack of sea ice, health and numbers of animals and other key indicators of a sub-Arctic ecosystem that is now suffering from the lack of its key components. These processes manifest both in western science and Indigenous knowledge materials (Table 5). We recognize that the understanding of the "why" and "how" of climate change is not the same across all coastal communities in Alaska. Table 5. Summarizing Indigenous knowledge and western science related to changes in the two keystone species and observed weather.

Pacific Salmon
Major losses in salmon from 1983 to 2002-2007; high summer temperatures in July 2019 led to mass death event in pre-spawn pink salmon. Impacts from industrial harvests.
High summer temperatures in July 2019 led to mass death event in pre-spawn pink salmon.

Caribou
Caribou have declined and moved further from the village since early 2000s. WAH has declined; at least in part due to impacts of climate change and anthropogenic landscape changes.

Weather Patterns Indigenous Knowledge Summary Western Science Summary
Snow amounts have changed a lot and increased storms. Break up and freeze up of ocean and river are very different. Coastal erosion is intensified. Algal blooms out in the ocean. Less sea ice, major storms in recent years. Death events in marine mammals and seabirds and salmon.
Increased temperatures. Increased storms, flooding events and coastal erosion. Sea ice drastically reduced in recent years, with cascading effects throughout marine ecosystem, including harmful algal blooms and seabird and marine mammal deaths.
Hykes-Steere [29] (on her criticism of the corporation models and see also [44]) says that a central value for the Iñupiaq traditional society was to shy away from greed. One of the remedies for the misuse and overuse of natural resources, therefore, might be to re-establish an Iñupiaq-based value and management system of the traditional kind that would mind the limits and value of these resources (see also [16]). Weaver Ivanoff already identified in the 1980s how the new layers of government were complex in terms of the relationship to the traditional governance of Unalakleet (in [44] p. 149).
Pointing towards this direction, Hykes-Steere [29] (p. 384) recounts her grandmother's words stressing that each person is born with "gifts". This points to the presence of an Indigenous sense of the cosmos and the world still relatively in place in the early 1900s. Later the grandmother, reflecting on her life experiences of the tumultuous 20th century, had said: "I was born free. I won't die free. What happened to us?" ( [29] p. 384).

Conclusions
By tracing the histories of Unalakleet, we have observed a place that has been continuously inhabited at least for thousands of years. There have been waves of abandonment such as the epidemics of the 1800s [24,28]. The area used for trading and settlement has welcomed many Indigenous Nations in the past, including the "original" Yupiaq Unaligmiut and "northern" Iñupiaq as well as other Yupiaq and Athabascans before the European settlement. The people had Indigenous self-governance and customary justice system of their lands, including royalty [27].
A tumultuous era starting in the 1830s introduced small-pox and other epidemics to the Unaligmiut and other peoples of the region, resulting in what Napoleon [15] has called the "Great Death". The impact over generations of this massive tragedy has only in recent decades been discovered, as observed from within the cultures [15]. The disruption of endemic, Indigenous governance and sheer loss of populations allowed the United States to settle Alaska in a speedy manner, following the early Russian influence.
A central driver for the settlement of land rights was the desire at the US Federal level to secure Alaska oil and gas for industrial uses. Western science and Indigenous knowledge shared from the Norton Sound region agree that the burning of such fossil fuels is the root cause of climate change and, thus, the present-day collapse of animal, fish and bird populations as well as the major changes on land and out at sea.