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1. Northern Dene Constellations as Worldview Projections with Case Studies from the Ahtna, Gwich’in, and Sahtúot’ı̨nę

   https://doi.org/10.3368/aa.56.2.1  

   Cannon, C.; Justin, W.; Herbert, P.; Hubbard, C.; Neyelle, C. (January 2019, Arctic anthropology)

   null (Ed.)

   The sky is routinely overlooked in Northern Dene ethnology as a meaningful domain of linguistic and cultural knowledge. However, a decade of comparative ethnological research in Alaska and Canada has shown that Dene stellar knowledge is largely tied to sacred and covert knowledge systems. In this paper, we describe an Ahtna, Gwich'in, and Sahtúot'ı̨nę constellation identified as the incarnated spirit of an ancient Traveler-Transformer figure who circled the world in Distant Time. Although this Traveler is widely known in mythology, his enigmatic transformation to the sky embodies a specialized domain of knowledge rooted in the traditional beliefs and practices of medicine people. This "Traveler" constellation is not only a world custodian and archetype of an idealized medicine person, but it is also a teacher, ally, gamekeeper, and the embodiment of the world. We identify variations of this constellation throughout the Northern Dene region. 

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2. MITIGATING SATELLITE CONSTELLATION IMPACTS ON ASTRONOMY

   Eggl, S; Peel, M; Rawls, ML; Walker, CE (May 2025, European Space Agency Space Debris Office)

   Lemmens, S; Flohrer, T; Schmitz, F (Ed.)

   The protection of the dark and (radio) quiet sky is a key aspect of the European Space Agency Zero Debris Charter. The International Astronomical Union Centre for the Protection of the Dark and Quiet Sky from Satellite Constellation Interference (IAU CPS) is one of the partners working to develop and implement technical and policy recommendations. In this contribution, we summarize and discuss existing recommendations and guidelines that are aimed at enabling the coexistence of satellite constellations and ground based astronomy. Many individuals and groups, including astronomers and industry partners, are working on strategies for more effectively sharing access to space. As a result, the IAU CPS recommendations touch on a variety of subjects ranging from satellite constellation design, to operational modes, to establishing standards for information sharing. The IAU CPS uniquely enables development of publicly accessible tools and services alongside these recommendations, and we endeavor to engage all parties in an open and constructive manner. 

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3. Yellowknives Dene and Gwich’in Stellar Wayfinding in Large-Scale Subarctic Landscapes

   https://doi.org/10.14430/arctic75292  

   Cannon, Chris M.; Herbert, Paul; Sangris, Fred (June 2022, ARCTIC)

   Indigenous systems of stellar wayfinding are rarely described or robustly attested outside of maritime contexts, with few examples reported among peoples of the high Arctic and some desert regions. However, like other large-scale environments that exhibit a low legibility of landmarks, the barrenlands of the Northwest Territories and the Yukon Flats of Alaska generally lack views of prominent or distinguishing topography for using classic route-based navigation. When travelling off trails and waterways in these respective inland subarctic environments, the Yellowknives Dene and the Alaskan Gwich’in utilize drastically different stellar wayfinding approaches from one another while essentially sharing the same view of the sky. However, in both systems the use of celestial schemata is suspended in favor of route-based navigation when the traveller intersects a familiar geographical feature or trail near their target destination, suggesting strong preference for orienting by landmarks when available. A comparison of both wayfinding systems suggests that large-scale environments that lack a readily discernible ground pattern may be more conducive to the development and implementation of a celestial wayfinding schema when combined with other influential factors such as culture, individual experience, and travel behavior. These are likely the first stellar wayfinding systems described in detail for any inland subarctic culture. 

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4. The Resilience of Dene Generative Geography, Considering "the Nen' Yese' Ensemble."

   Kari, James (October 2019, Alaska journal of anthropology)

   ¶Kari 2019 introduces a theory of Na-Dene prehistory, "the Proto-Dene Lex Loci" that derives from Lexware dictionary files and cumulative place name for seven adjacent Alaska Dene languages. To investigate Dene prehistory in the Copper River and circum–Glacial Lake Atna (GLA) region, we discuss a selection of 67 Dene place names from seven Dene languages in four Alaska river basins. Dene geolinguistic data are information-rich; highly noticeable are various watershed tenure devices (hydronymic districts, patterned duplications, geoduplicates) that reflect ancient Dene vernacular collaborations to facilitate landscape recognition. ¶As few as three Dene place names establish that the Dene occupation of Tanana River preceded the initial Dene names in the Copper River Basin. A group of about 20 Ahtna names termed "the Nen’ Yese’ Ensemble (NYE)" are overtly descriptive of the geology and hydrology at the Tyone Spillway. One subset of 9 to 10 names plausibly were coined during "a first season on the NYE" (starting at Hogan Hill, K'ey Tsaaygha). Another subgroup of 11 names has four pairs of patterned duplications that indicate spatial-temporal seriation. Plausibly this group of names were coined prior to, during, and after the names of the NYE (11,000 to 9000 years ago) in the time frame of major GLA drainage shift. As geological, paleo-ecological records for GLA become refined, geo-temporal benchmarks may be attainable. Alaska Dene geolinguistic data sets can broaden discussions of Alaska and Beringian prehistory as well as theories of language change. 

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5. UNDERSTANDING THE IMPACT OF SATELLITES ON RADIO ASTRONOMY OBSERVATIONS

   Peel, M; Eggl, S; Rawls, ML; Qui, H; Clements, DL (May 2025, European Space Agency Space Debris Office)

   Lemmens, S; Flohrer, T; Schmitz, F (Ed.)

   Radio telescopes observe extremely faint emission from astronomical objects, ranging from compact sources to large scale structures that can be seen across the whole sky. Satellites actively transmit at radio frequencies (particularly at 10±20 GHz, but usage of increasing broader frequency ranges are already planned for the future by satellite operators), and can appear as bright as the Sun in radio astronomy observations. Remote locations have historically enabled telescopes to avoid most interference, however this is no longer the case with dramatically increasing numbers of satellites that transmit everywhere on Earth. Even more remote locations such as the far side of the Moon may provide new radio astronomy observation opportunities, but only if they are protected from satellite transmissions. Improving our understanding of satellite transmissions on radio telescopes across the whole spectrum and beyond is urgently needed to overcome this new observational challenge, as part of ensuring the future access to dark and quiet skies. In this contribution we summarise the current status of observations of active satellites at radio frequencies, the implications for future astronomical observations, and the longer-term consequences of an increasing number of active satellites. This will include frequencies where satellites actively transmit, where they unintentionally also transmit, and considerations about thermal emission and other unintended emissions. This work is ongoing through the IAU CPS. 

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