- Page 2 and 3: Smithsonian at the Poles Contributi
- Page 4 and 5: Contents FOREWORD by Ira Rubinoff i
- Page 6 and 7: Elaina Jorgensen, Alaska Fisheries
- Page 10 and 11: Foreword On behalf of Smithsonian c
- Page 12 and 13: Executive Summary Smithsonian at th
- Page 14 and 15: “Smithsonian at the Poles”: A 1
- Page 16: offers an unparalleled vantage poin
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- Page 40 and 41: The Policy Process and the Internat
- Page 42 and 43: in the 1930s, played a key role in
- Page 44 and 45: tional scientifi c organizations fi
- Page 46 and 47: see it move out where it will do go
- Page 48 and 49: the world were encouraged to ensure
- Page 50 and 51: NOTE 1. In a similar fashion, the p
- Page 52 and 53: Preserving the Origins of the Space
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it something useful within 90 days,
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IGY-RELATED COLLECTIONS: LAUNCH VEH
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and Van Allen played a signifi cant
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events, episodes and eras that made
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60 SMITHSONIAN AT THE POLES / BROAD
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62 SMITHSONIAN AT THE POLES / FITZH
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Yup’ik Eskimo Contributions to Ar
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FIGURE 1. Map of Southwest Alaska,
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2002 hit D.C. the night before we w
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elating in Yup’ik how the goggles
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important instructions that guided
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Smithsonian Contributions to Alaska
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considerable hostility, met Kasheva
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372, 374, 423) cite Herendeen as ha
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tells how many of them were made. I
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LITERATURE CITED Barr, William, ed.
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The Art of Iñupiaq Whaling: Elders
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the whaling industry shifted its fo
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FIGURE 3. Umialik sitting beneath w
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FIGURE 4. Harpoon rest, Barrow, 188
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FIGURE 7. Whale plaque/seat for umi
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An ivory handle with whale fi gures
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lages would still be whaling and th
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Simpson, J. 1875. “Observations o
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“The Way We See It Coming”: Bui
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their environmental expertise is va
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words, upon multifaceted data colle
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FIGURE 4. Leonard Apangalook Sr., S
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FIGURE 9. Hunting in boats in dense
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we hunt, are truly at the mercy of
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Bobylev, L. H. Pettersson, K. Hasse
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Species Diversity and Distributions
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(1971) on postnaupliar developmenta
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Descriptions of the geographical di
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this same inshore habitat (Fontaine
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unpublished observations); this spe
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off Uruguay (34º43�S, 49º28�W
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Region Species name Abundance 1 2 3
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PELAGIC CALANOID COPEPODS OF THE SO
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four percent of these species have
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TABLE 7. Very common deepwater cala
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PELAGIC CALANOID COPEPODS OF THE SO
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Ocean endemic. These two species, t
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Candacia falcifera Calanus australi
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occur broadly throughout the world
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———. 1893. Systematik und Fau
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Steuer, A., and E. Hentschel. 1937.
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Euaugaptilus nodifrons (Sars, 1905)
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Paralabidocera hodgsoni Wolfenden,
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Augaptilidae Augaptilus Centraugapt
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Cold Comfort: Systematics and Biolo
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we attempted to learn more about th
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BIOLOGY AND ECOLOGY OF ANTARCTIC BR
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yozoans (14.6%) and coelenterates,
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Himantozoum, and Kymella, averaging
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nanoplankton making up 83% of phyto
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SYSTEMATICS AND BIOLOGY OF ANTARCTI
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of benthic-pelagic coupling, factor
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Waters, A. W. 1904. Bryozoa. Result
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254 SMITHSONIAN AT THE POLES / MARS
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Milestones in the Study of Diving P
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airstrip and a few offshore marine
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(Falke et al., 1985) (Figure 3). Th
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Interannual and Spatial Variability
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FIGURE 1. The project study area sh
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transects. Transects radiated from
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INTERANNUAL VARIABILITY IN LIGHT AT
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INTERANNUAL VARIABILITY IN LIGHT AT
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TABLE 4. Mean PAR for each site for
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We derived measures of light attenu
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Life under Antarctic Pack Ice: A Kr
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primary producers and the upper tro
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Variability in the environment, inc
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TABLE 1. Diving projects at Palmer
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FIGURE 2. Growth rate (mm d �1 )
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has declined by 40%- 45% (Figure 4)
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Melnikov, I. 1998. Winter Productio
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Inhibition of Phytoplankton and Bac
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MATERIALS AND METHODS IRRADIANCE ME
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are seen to increase along with the
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INHIBITION OF PHYTOPLANKTON AND BAC
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Cullen, J. J., and P. J. Neale. 199
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Southern Ocean Primary Productivity
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ary at 58ºS. Ice concentrations an
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FIGURE 3. Mean monthly productivity
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Ross Sea. Tremblay and Smith (2007,
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and will provide insights into the
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Chromophoric Dissolved Organic Matt
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concentrations are lower and the wa
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from 400 to 700 nm. The irradiance
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DOWNWELLING ATTENUATION COEFFICIENT
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y-intercept in Figure 7C denotes th
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our cruise, chl a concentrations va
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in coastal environments and propert
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Derived Organic Matter. Limnology a
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Feeding the Black Hole at the Cente
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WHAT IS THIS GAS DOING? Much has be
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HEAT: The High Elevation Antarctic
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star formation rate, so that we mig
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timately covering up to 240 square
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spheric opacity above the site is e
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394 SMITHSONIAN AT THE POLES / MCCO
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396 INDEX Antarctic Circumpolar Cur
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398 INDEX Dall, William Healy, 18,
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400 INDEX International Polar Year,
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402 INDEX NMAI. See National Museum
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404 INDEX crustaceans, 191-192 iron