Biogeography in the Sub-Arctic. Группа авторов
Читать онлайн книгу.Bulletin 186: 29–34.
13 Bennike, O. (2002). Late Quaternary history of Washington land, North Greenland. Boreas 31: 260–272.
14 Bennike, O. (2010). Palaeoecology of Skálafjørður, the Faroe Islands. Annales Societatis Scientiarum Færoensis, Supplementum 52: 244–258.
15 Bennike, O. (2013). Radiocarbon dating of musk‐ox (Ovibos moschatus) bones from the Thule region, North‐West Greenland. Polar Record https://doi.org/10.1017/S0032247413000193.
16 Bennike, O. and Björck, S. (2000). Lake sediment coring in South Greenland in 1999. Geology of Greenland Survey Bulletin 186: 60–64.
17 Bennike, O. and Björck, S. (2002). Chronology of the last recession of the Greenland Ice Sheet. Journal of Quaternary Science 17: 211–217.
18 Bennike, O. and Böcher, J. (1992). Early Weichselian interstadial land biotas at Thule, Northwest Greenland. Boreas 21: 111–117.
19 Bennike, O. and Böcher, J. (1994). Land biotas of the last interglacial/glacial cycle on Jameson Land, East Greenland. Boreas 23: 479–487.
20 Bennike, O. and Jepsen, H.F. (2000). A new interglacial sequence from Washington Land, North Greenland. Polar Research 19: 267–270.
21 Bennike, O. and Wagner, B. (2012). Deglaciation chronology, sea‐level changes and environmental changes from Holocene lake sediments of Germania Havn Sø, Sabine Ø, northeast Greenland. Quaternary Research 78: 103–109.
22 Bennike, O. and Weidick, A. (2001). Late Quaternary history around Nioghalvfjerdsfjorden and Jøkelbugten, North‐East Greenland. Boreas 30: 205–227.
23 Bennike, O., Böcher, J., Konradi, P. et al. (1998). Macrofossil studies of lacustrine sediments from Skálafjørður, the Faroe Islands: preliminary results. Fróðskaparrit 46: 267–275.
24 Bennike, O., Björck, S., Böcher, J. et al. (1999). Early Holocene plant and animal remains from North‐east Greenland. Journal of Biogeography 26: 667–677.
25 Bennike, O., Björck, S., Böcher, J., and Walker, I. (2000). The Quaternary arthropod fauna of Greenland: a review with new data. Bulletin of the Geological Society of Denmark 47: 111–134.
26 Bennike, O., Abrahamsen, N., Israelson, C. et al. (2002a). A multi‐proxy study of Pliocene sediments from Île de France, North‐East Greenland. Palaeogeography, Palaeoclimatology, Palaeoecology 186: 1–23.
27 Bennike, O., Björck, S., and Lambeck, K. (2002b). Estimates of South Greenland late‐glacial ice limits from a new relative sea level curve. Earth and Planetary Science Letters 197: 171–186.
28 Bennike, O., Brodersen, K.P., Jeppesen, E., and Walker, I.R. (2004). Aquatic invertebrates and high‐latitude palaeolimnology. In: Long‐Term Environmental Change in Arctic and Antarctic Lakes (eds. R. Pienitz, M.S.V. Douglas and J.P. Smol), 159–186. Dordrecht: Springer.
29 Bennike, O., Sørensen, M., Fredskild, B. et al. (2008a). Late Quaternary environmental and cultural changes in the Wollaston Forland region, Northeast Greenland. Advances in Ecological Research 40: 45–79.
30 Bennike, O., Goodsite, M., and Heinemeier, J. (2008b). Palaeoecology of Holocene peat deposits from Nordvestø, north‐west Greenland. Journal of Paleolimnology 40: 575–565.
31 Bennike, O., Knudsen, K.L., Abrahamsen, N. et al. (2010). Early Pleistocene sediments on Store Koldewey, northeast Greenland. Boreas 39: 603–619.
32 Bennike, O., Hedenäs, L., Lemdahl, G., and Wiberg‐Larsen, P. (2018). A multiproxy study of Eemian deposits from Klaksvík, the Faroe Islands. Boreas 47: 106–113.
33 Björck, S., Bennike, O., Rosén, P. et al. (2002). Anomalously mild Younger Dryas summer conditions in South Greenland. Geology 30: 427–430.
34 Blake, W. Jr., Boucherle, M.M., Fredskild, B. et al. (1992). The geomorphological setting, glacial history and Holocene development of ‘Kap Inglefield Sø’, Inglefield Land, North‐west Greenland. Meddelelser om Grønland, Geoscience 27: 42.
35 Böcher, T.W. (1956). Area limits and isolations of plants in relation to the physiography of the southern part of Greenland. Meddelelser om Grønland 124 (8): 40.
36 Böcher, J. (1988). The Coleoptera of Greenland. Meddelelser om Grønland, Bioscience 26: 100.
37 Böcher, J. (1989). First record of an interstadial insect from Greenland: Amara alpina (Paykull, 1790) (Coleoptera: Carabidae). Boreas 18: 1–4.
38 Böcher, J. (1995). Palaeoentomology of the Kap København Formation, a Plio‐Pleistocene sequence in Peary Land, North Greenland. Meddelelser om Grønland, Geoscience 33: 82.
39 Böcher, J. (2012). Interglacial insects and their possible survival in Greenland during the last glacial stage. Boreas 41: 644–659.
40 Böcher, J. and Bennike, O. (1996). Early Holocene insect and plant remains from Jameson Land, East Greenland. Boreas 25: 187–193.
41 Böcher, J. and Fredskild, B. (1993). Plant and arthropod remains from the palaeo‐Eskimo site on Qeqertasussuk, West Greenland. Meddelelser om Grønland, Geoscience 30: 35.
42 Böcher, J., Bennike, O., and Wagner, B. (2012). Holocene insect remains from South‐Western Greenland. Polar Research 31: 18367.
43 Briner, J.P., Axford, Y., Forman, S.L. et al. (2007). Multiple generations of interglacial lake sediment preserved beneath the Laurentide ice sheet. Geology 35: 887–890.
44 Brodersen, K. and Bennike, O. (2003). Interglacial Chironomidae (Diptera) from Thule, Northwest Greenland: matching modern analogues to fossil assemblages. Boreas 32: 560–565.
45 Buckland, P.C. and Coope, G.R. (1991). A Bibliography and Literature Review of Quaternary Entomology, 85. Department of Archaeology and Prehistory, University of Sheffield: J.R. Collis Publications.
46 Buckland, P.C. and Panagiotakopulu, E. (2010). Reflections on North Atlantic island biogeography: a quaternary entomological view. Annales Societas Scientarum Færoensis Supplementum 52: 187–215.
47 Buckland, P.C., Perry, D.W., Gíslason, G.M., and Dugmore, A.J. (1986). The pre‐Landnám Fauna of Iceland: a palaeontological contribution. Boreas 15: 173–184.
48 Campos, P.F., Willerslev, E., Sher, A. et al. (2010). Ancient DNA analyses exclude humans as the driving force behind late Pleistocene musk ox (Ovibos) population dynamics. Proceedings of the National Academy of Sciences of the United States of America 107: 5675–5680.
49 Caseldine, C. (2001). Changes in Betula in the Holocene record from Iceland – a palaeoclimatic record or evidence for early Holocene hybridisation? Review of Palaeobotany and Palynology 117: 139–152.
50 Caseldine, C., Langdon, P., and Holmes, N. (2006). Early Holocene climate variability and the timing of the Holocene thermal maximum (HTM) in northern Iceland. Quaternary Science Reviews 25: 2314–2331.
51 Christiansen, H.H., Bennike, O., Böcher, J. et al. (2002). Holocene environmental evidence from the Zackenberg Delta, NE Greenland. Journal of Quaternary Science 17: 145–160.
52 Coope, G.R. (1969). The contribution that the Coleoptera of Glacial Britain could have made to the subsequent colonisation of Scandinavia. Opuscula Entomologica 34: 95–108.
53 Coope, G.R. (1970). Interpretation of Quaternary insect fossils. Annual Review of Entomology 15: 97–120.
54 Coope, G.R. (1978). Constancy of insect species versus inconstancy of Quaternary environments. In: Diversity of Insect Faunas, Symposia of the Royal Society of London, vol. 9 (eds. L.A. Mound and N. Waloff), 176–187. Oxford: Blackwell.
55 Coope, G.R. (1979). Late Cenozoic fossil Coleoptera: evolution, biogeography and ecology. Annual Review of Ecology and Systematics 10: 247–257.
56 Coope, G.R. (1986). The invasion and colonisation of the North Atlantic islands: a palaeoecological solution to a biogeographic problem. Philosophical Transactions of the Royal Society of London B314: 619–635.
57 Dahl‐Jensen,