Extreme floods around AD 1700 in the northern Namib Desert, Namibia, and in the Orange River catchment, South Africa - Were they forced by a decrease of solar irradiance during the Little Ice Age?

187 pp. 24 cm 187 s. 24 cm

Bibliographic Details
Published in:Journal of Hydrology
Main Authors: Heine, Klaus, Völkel, Jörg
Format: Text
Language:English
Published: IGiPZ PAN 2011
Subjects:
palaeofloods
extreme floods
slackwater deposits
tropical-temperate-trough
solar irradiance
Little Ice Age
Namib Desert
Orange River catchment
powodzie ekstremalne
promieniowanie słoneczne
osady wód stojących
mała epoka lodowa
Pustynia Namib
zlewnia Orange
Antarctic and Alpine Research
Arctic
Online Access:https://rcin.org.pl/dlibra/publication/edition/2291/content
id ftrcin:oai:rcin.org.pl:2291
record_format openpolar
institution Open Polar
collection Digital Repository of Scientific Institutes (RCIN)
op_collection_id ftrcin
language English
topic palaeofloods
extreme floods
slackwater deposits
tropical-temperate-trough
solar irradiance
Little Ice Age
Namib Desert
Orange River catchment
powodzie ekstremalne
promieniowanie słoneczne
osady wód stojących
mała epoka lodowa
Pustynia Namib
zlewnia Orange
spellingShingle palaeofloods
extreme floods
slackwater deposits
tropical-temperate-trough
solar irradiance
Little Ice Age
Namib Desert
Orange River catchment
powodzie ekstremalne
promieniowanie słoneczne
osady wód stojących
mała epoka lodowa
Pustynia Namib
zlewnia Orange
Heine, Klaus
Völkel, Jörg
Extreme floods around AD 1700 in the northern Namib Desert, Namibia, and in the Orange River catchment, South Africa - Were they forced by a decrease of solar irradiance during the Little Ice Age?
topic_facet palaeofloods
extreme floods
slackwater deposits
tropical-temperate-trough
solar irradiance
Little Ice Age
Namib Desert
Orange River catchment
powodzie ekstremalne
promieniowanie słoneczne
osady wód stojących
mała epoka lodowa
Pustynia Namib
zlewnia Orange
description 187 pp. 24 cm 187 s. 24 cm
format Text
author Heine, Klaus
Völkel, Jörg
author_facet Heine, Klaus
Völkel, Jörg
author_sort Heine, Klaus
title Extreme floods around AD 1700 in the northern Namib Desert, Namibia, and in the Orange River catchment, South Africa - Were they forced by a decrease of solar irradiance during the Little Ice Age?
title_short Extreme floods around AD 1700 in the northern Namib Desert, Namibia, and in the Orange River catchment, South Africa - Were they forced by a decrease of solar irradiance during the Little Ice Age?
title_full Extreme floods around AD 1700 in the northern Namib Desert, Namibia, and in the Orange River catchment, South Africa - Were they forced by a decrease of solar irradiance during the Little Ice Age?
title_fullStr Extreme floods around AD 1700 in the northern Namib Desert, Namibia, and in the Orange River catchment, South Africa - Were they forced by a decrease of solar irradiance during the Little Ice Age?
title_full_unstemmed Extreme floods around AD 1700 in the northern Namib Desert, Namibia, and in the Orange River catchment, South Africa - Were they forced by a decrease of solar irradiance during the Little Ice Age?
title_sort extreme floods around ad 1700 in the northern namib desert, namibia, and in the orange river catchment, south africa - were they forced by a decrease of solar irradiance during the little ice age?
publisher IGiPZ PAN
publishDate 2011
url https://rcin.org.pl/dlibra/publication/edition/2291/content
genre Antarctic and Alpine Research
Arctic
genre_facet Antarctic and Alpine Research
Arctic
op_source CBGiOS. IGiPZ PAN, call nos.: Cz.2085, Cz.2173, Cz.2406
http://195.187.71.2/ipac20/ipac.jsp?profile=geogpan&index=BOCLC&term=ee95400564
CBGiOS. IGiPZ PAN, sygn.: Cz.2085, Cz.2173, Cz.2406
op_relation Geographia Polonica
1. Altenbach, A. and Struck, U. (2006), Some remarks on Namibia's shelf environments, and a possible teleconnection to the Hinterland, in Leser, H. (ed.), The Changing Culture and Nature of Namibia: Case Studies, Basler Afrika Bibliographien Basel, Windhoek, 109–124.
2. Baker, V. (1987), Palaeoflood hydrology and extraordinary flood events, Journal of Hydrology, 96: 79–99.
http://dx.doi.org/10.1016/0022-1694(87)90145-4 -
3. Baumgartner, T.R., Struck, U. and Alheit, J. (2004), GLOBEC Investigation of Interdecadal to Multi-Centennial Variability in Marine Fish Populations, Pages Newsletter, 12 (1): 19–23.
4. Benito, G., Botero, B.A., Thorndycraft, V.R., Rico, M.T., Sánchez Moya, Y., Sope-a, A. and Pérez González, A. (2009), Palaeoflood records applied to estimate aquifer recharge in ephemeral rivers (Buffels River, Namaqualand, South Africa), in Enzel, Y., Greenbaum, N. and Laskow, M. (eds.), GLOCOPH Israel 2009 (Oct. 25 – Nov. 3, 2009), Program and Abstracts, The Hebrew University of Jerusalem, Jerusalem, 25.
5. Borgaonkar, H.P., Kolli, R.K. and Pant, G.B. (2002), Tree-Ring Variations over the Western Himalaya: Little Evidence of the Little Ice Age?, Pages News, 10 (1): 5–6.
6. Bremner, J.M., Rogers, J. and Willis, J.P. (1990), Sedimentological aspects of the 1988 Orange River floods, Transactions of the Royal Society of South Africa, 47: 247–294.
7. Brunotte, E. and Sander, H. (2000), Das Alter der Auensedimente des Kunene zwischen Epupa und Ruacana (Namibia): erste 14C-Daten, Zentralblatt für Geologie und Paläontologie, Teil I, 1999 (5–6): 615–621.
8. Chase, B.M., Meadows, M.E., Scott, L., Thomas, D.G.S., Marais, E., Sealy, E. and Reimer, P.J. (2009), A record of rapid Holocene climate change preserved in hyrax middens from southwestern Africa, Geology, 37: 703–706.
http://dx.doi.org/10.1130/G30053A.1 -
9. Chase, B.M., Meadows, M.E., Carr, A.S. and Reimer, P.J. (2010), Evidence for progressive Holocene aridification in southern Africa recorded in Namibian hyrax middens: Implications for African Monsoon dynamics and the ''African Humid Period'', Quaternary Research, 74: 36–45.
http://dx.doi.org/10.1016/j.yqres.2010.04.006 -
10. Compton, J.S. and Maake, L. (2007), Source of the suspended load of the upper Orange River, South Africa, South African Journal of Geology, 110: 339–348.
11. Crowley,T.J., Zielinski, G., Vinther, B., Udisti, R., Kreutz, K., Cole-Dai, J. and Castellano, E. (2008), Volcanism and the Little Ice Age, Pages News, 16 (2): 22–23.
12. Duller, G.A.T. (2004), Luminescence dating of Quaternary sediments: recent advances, Journal of Quaternary Science, 19: 183–192.
http://dx.doi.org/10.1002/jqs.809 -
13. Efrat, M., Grodek, T., Dahan, O., Benito, G., Kulls, C., Jacoby, Y., van Langenhove, G., Seely, M. and Enzel, Y. (2009), Flood routing and alluvial aquifer recharge along the ephemeral arid Kuiseb River, Namibia, in Enzel, Y., Greenbaum, N. and Laskow, M. (eds), GLOCOPH Israel 2009 (Oct 25 – Nov 3, 2009), Program and Abstracts, The Hebrew University of Jerusalem, Jerusalem, 23.
14. Eitel, B., Blümel, W.-D. and Hüser, K. (1999a), River silt terraces at the eastern margin of the Namib Desert (NW-Namibia): Genesis and paleoclimatic evidence, Zentralblatt für Geologie und Paläontologie, Teil I, 1998: 243–254.
15. Eitel, B., Blümel, W.-D., Hüser, K. and Zöller, L. (1999b), Dust and river silt terraces at the eastern margin of the Sceleton Coast Desert (northwestern Namibia): genetic relations and palaeoclimatic evidence, in Derbyshire, E. (ed.), Loessfest '99. Loess: Characterization, Stratigraphy, Climate and Societal Significance, Centre for Quaternary Research (CQR), Royal Holloway University, London, 56–59.
16. Eitel, B., Blümel, W.-D., Hüser, K. and Mauz, B. (2001), Dust and loessic alluvial deposits in northwestern Namibia (Damaraland, Kaokoveld): sedimentology and palaeoclimatic evidence based on luminescence data, Quaternary International, 76/77: 57–65.
http://dx.doi.org/10.1016/S1040-6182(00)00089-6 -
17. Eitel, B., Blümel, W.-D. and Hüser, K. (2002), Environmental transition between 22 ka and 8 ka in monsoonally influenced Namibia – A preliminary chronology, Zeitschrift für Geomorphogie Neue Folge, Supplement Band, 126: 31–57.
18. Eitel, B., Kadereit, A., Blümel, W.-D., Hüser, K. and Kromer, B. (2005), The Amspoort Silts, northern Namib desert (Namibia): formation, age and palaeoclimatic evidence of river-end deposits, Geomorphology, 64: 299–314.
http://dx.doi.org/10.1016/j.geomorph.2004.07.006 -
19. Eitel, B., Kadereit, A., Blümel, W.-D., Hüser, K., Lomax, J. and Hilgers, A. (2006), Environmental changes at the eastern Namib Desert margin before and after the Last Glacial Maximum: New evidence from fluvial deposits in the upper Hoanib River catchment, north-western Namibia, Palaeogeography, Palaeoclimatology, Palaeoecology, 234: 201–222.
http://dx.doi.org/10.1016/j.palaeo.2005.10.015 -
20. Ellerbrock, R. (2000), Carbonatgehalt in Boden und Wasser, in Barsch, H., Billwitz, K. and Bork, H.-R. (eds), Arbeitsmethoden in Physiogeographie und Geoökologie, Perthes, Gotha, 328–332.
21. Frimmel, H.E., Basei, M.S. and Gaucher, C. (2011), Neoproterozoic geodynamic evolution of SW-Gondwana: a southern African perspective, International Journal of Earth Sciences, 100: 322–354.
http://dx.doi.org/10.1007/s00531-010-0571-9 -
22. Greenbaum, N., Schwartz, U., Porat, N., Enzel, Y. and Benito, G. (2007), Palaeofloods in the ephemeral Swakop and Khan Rivers, western Namibia, in Tooth, S. and Woodward, J.C. (eds.), 4th International Palaeoflood Workshop, Crete, Greece, 24th – 30th June 2007, Programme and Abstracts, 34.
23. Grodek, T., Enzel, Y., Benito, G., Botero, B., Jacoby, Y., Porat, N., Porat, R. and Morin, E. (2009), Large floods lifetime across the hyperarid Namib, in Enzel, Y., Greenbaum, N. and Laskow, M. (eds.), GLOCOPH Israel 2009 (Oct. 25 – Nov. 3, 2009), Program and Abstracts, The Hebrew University of Jerusalem, Jerusalem, 22.
24. Heine, K. (2004a), Little Ice Age climatic fluctuations in the Namib Desert, Namibia, and adjacent areas: evidence of exceptionally large floods from slack water deposits and desert soil sequences, in Smykatz-Kloss, W. and Felix-Henningsen, P. (eds.), Palaeoecology of Quaternary Drylands, Lecture Notes in Earth Sciences, Springer, Berlin – Heidelberg, 102: 137–165.
25. Heine, K. (2004b), Flood Reconstructions in the Namib Desert, Namibia, and Little Ice Age Climatic Implications: Evidence from Slackwater Deposits and Desert Soil Sequences, in Kale, V.S., Gregory, K.J. and Joshi, V.U. (eds), Progress in Palaeohydrology: Focus on Monsoonal Areas (Special Issue of the Journal Geological Society of India, 64), Bangalore, 535–547.
26. Heine, K. (2005), Holocene Climate of Namibia: a Review based on Geoarchives, African Study Monographs (Kyoto), Supplementary Issue, 30: 119–133.
27. Heine, K. (2010), Climate reconstructions based on fluvial deposits in hyper-arid desert environments: the Namib case, Palaeoecology of Africa, 30: 27–52.
28. Heine, K. and Völkel, J. (2009), Desert flash flood series. Slackwater deposits and floodouts in Namibia: their significance for palaeoclimatic reconstructions, Zentralblatt für Geologie und Paläontologie, Teil I, 2007 (3–4): 287–308.
29. Heine, K. and Völkel, J. (2010), Soil clay minerals in Namibia and their significance for the terrestrial and marine past global change research, African Study Monographs (Kyoto), Supplementary Issue, 40: 15–34.
30. Holmgren, K., Karlén, W., Lauritzen, S.E., Lee-Thorp, J.A., Partridge, T.C., Piketh, S., Repinski, P., Stevenson, C., Svanered, O. and Tyson, P.D. (1999), A 3000-year high-resolution stalagmite-based record of palaeoclimate for northeastern South Africa, The Holocene, 9: 295–309.
http://dx.doi.org/10.1191/095968399672625464 -
31. Hövermann, J. (1978), Formen und Formung in der Pränamib (Flächen-Namib), Zeitschrift für Geomorphologie Neue Folge, Supplement Band, 30: 55–73.
32. Jacobson, P.J., Jacobson, K.M. and Seely, M. (1995), Ephemeral Rivers and their Catchments. Sustaining People and Development in Western Namibia, Desert Research Foundation of Namibia [DRFN], Windhoek.
33. Jansen, E., Overpeck, J., Briffa, K.R., Duplessy, J.-C., Joos, F., Masson-Delmotte, V., Olago, D., Otto-Bliesner, B., Peltier, W.R., Rahmstorf, S., Ramesh, R., Raynaud, D., Rind, D., Solomina, O., Villalba, R. and Zhang, D. (2007), Palaeoclimate, in Solomon, S., D. Qin, D., Manning, M., Chen, Z., Marquis, M., Averyt, K.B., Tignor, M. and Miller, H.L. (eds.), Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 433–497.
34. Jiang, H., Eiriksson, J., Schulz, M., Knudsen, K.-L. and Seidenkrantz, M.S. (2005), Evidence for solar forcing of sea-surface temperature on the North Icelandic shelf during the late Holocene, Geology, 33: 73–76.
http://dx.doi.org/10.1130/G21130.1 -
35. Jones, P.D., Briffa, K.R., Osborn, T.J., Lough, J.M., van Ommen, T.D., Vinther, B.M., Luterbacher, J., Wahl, E.R., Zwiers, F.W., Mann, M.E., Schmidt, G.A., Ammann, C.M., Buckley, B.M., Cobb, K.M., Esper, J., Goosse, H., Graham, N., Jansen, E., Kiefer, T., Kull, C., Küttel, M., Mosley-Thompson, E., Overpeck, J.T., Riedwyl, N., Schulz, M., Tudhope, A.W., Villalba, R., Wanner, H., Wolff, E. and Xoplaki, E. (2009), High-resolution palaeoclimatology of the last millennium: a review of current status and future prospects, The Holocene, 19: 3–49.
36. Jungclaus, J.H. (2009), Lessons from the past millennium, Nature Geoscience, 2: 468–470.
http://dx.doi.org/10.1038/ngeo559 -
37. Kononov, Yu.M., Friedrich, M. and Boettger, T. (2009), Regional Summer Temperature Reconstruction in the Khibiny Low Mountains (Kola Peninsula, NW Russia) by Means of Tree-ring Width during the Last Four Centuries, Arctic, Antarctic, and Alpine Research, 41: 460–468.
38. Krapf, C.B.E., Stollhofen, H. and Stanistreet, I.G. (2003), Contrasting styles of ephemeral river systems and their interaction with dunes of the Skeleton Coast erg (Namibia), Quaternary International, 104: 41–52.
op_rights Rights Reserved - Free Access
Prawa zastrzeżone - dostęp nieograniczony
op_doi https://doi.org/10.1016/0022-1694(87)90145-4
https://doi.org/10.1130/G30053A.1
https://doi.org/10.1016/j.yqres.2010.04.006
https://doi.org/10.1002/jqs.809
https://doi.org/10.1016/S1040-6182(00)00089-6
https://doi.org/10.1016/j.geomorph.2004.07.0
container_title Journal of Hydrology
container_volume 96
container_issue 1-4
container_start_page 79
op_container_end_page 99
_version_ 1766287034555564032
spelling ftrcin:oai:rcin.org.pl:2291 2023-05-15T14:14:43+02:00 Extreme floods around AD 1700 in the northern Namib Desert, Namibia, and in the Orange River catchment, South Africa - Were they forced by a decrease of solar irradiance during the Little Ice Age? Geographia Polonica Vol. 84 Special Issue Part 1 (2011) Heine, Klaus Völkel, Jörg 2011 File size 0,9 MB application/pdf Rozmiar pliku 0,9 MB https://rcin.org.pl/dlibra/publication/edition/2291/content eng eng IGiPZ PAN Geographia Polonica 1. Altenbach, A. and Struck, U. (2006), Some remarks on Namibia's shelf environments, and a possible teleconnection to the Hinterland, in Leser, H. (ed.), The Changing Culture and Nature of Namibia: Case Studies, Basler Afrika Bibliographien Basel, Windhoek, 109–124. 2. Baker, V. (1987), Palaeoflood hydrology and extraordinary flood events, Journal of Hydrology, 96: 79–99. http://dx.doi.org/10.1016/0022-1694(87)90145-4 - 3. Baumgartner, T.R., Struck, U. and Alheit, J. (2004), GLOBEC Investigation of Interdecadal to Multi-Centennial Variability in Marine Fish Populations, Pages Newsletter, 12 (1): 19–23. 4. Benito, G., Botero, B.A., Thorndycraft, V.R., Rico, M.T., Sánchez Moya, Y., Sope-a, A. and Pérez González, A. (2009), Palaeoflood records applied to estimate aquifer recharge in ephemeral rivers (Buffels River, Namaqualand, South Africa), in Enzel, Y., Greenbaum, N. and Laskow, M. (eds.), GLOCOPH Israel 2009 (Oct. 25 – Nov. 3, 2009), Program and Abstracts, The Hebrew University of Jerusalem, Jerusalem, 25. 5. Borgaonkar, H.P., Kolli, R.K. and Pant, G.B. (2002), Tree-Ring Variations over the Western Himalaya: Little Evidence of the Little Ice Age?, Pages News, 10 (1): 5–6. 6. Bremner, J.M., Rogers, J. and Willis, J.P. (1990), Sedimentological aspects of the 1988 Orange River floods, Transactions of the Royal Society of South Africa, 47: 247–294. 7. Brunotte, E. and Sander, H. (2000), Das Alter der Auensedimente des Kunene zwischen Epupa und Ruacana (Namibia): erste 14C-Daten, Zentralblatt für Geologie und Paläontologie, Teil I, 1999 (5–6): 615–621. 8. Chase, B.M., Meadows, M.E., Scott, L., Thomas, D.G.S., Marais, E., Sealy, E. and Reimer, P.J. (2009), A record of rapid Holocene climate change preserved in hyrax middens from southwestern Africa, Geology, 37: 703–706. http://dx.doi.org/10.1130/G30053A.1 - 9. Chase, B.M., Meadows, M.E., Carr, A.S. and Reimer, P.J. (2010), Evidence for progressive Holocene aridification in southern Africa recorded in Namibian hyrax middens: Implications for African Monsoon dynamics and the ''African Humid Period'', Quaternary Research, 74: 36–45. http://dx.doi.org/10.1016/j.yqres.2010.04.006 - 10. Compton, J.S. and Maake, L. (2007), Source of the suspended load of the upper Orange River, South Africa, South African Journal of Geology, 110: 339–348. 11. Crowley,T.J., Zielinski, G., Vinther, B., Udisti, R., Kreutz, K., Cole-Dai, J. and Castellano, E. (2008), Volcanism and the Little Ice Age, Pages News, 16 (2): 22–23. 12. Duller, G.A.T. (2004), Luminescence dating of Quaternary sediments: recent advances, Journal of Quaternary Science, 19: 183–192. http://dx.doi.org/10.1002/jqs.809 - 13. Efrat, M., Grodek, T., Dahan, O., Benito, G., Kulls, C., Jacoby, Y., van Langenhove, G., Seely, M. and Enzel, Y. (2009), Flood routing and alluvial aquifer recharge along the ephemeral arid Kuiseb River, Namibia, in Enzel, Y., Greenbaum, N. and Laskow, M. (eds), GLOCOPH Israel 2009 (Oct 25 – Nov 3, 2009), Program and Abstracts, The Hebrew University of Jerusalem, Jerusalem, 23. 14. Eitel, B., Blümel, W.-D. and Hüser, K. (1999a), River silt terraces at the eastern margin of the Namib Desert (NW-Namibia): Genesis and paleoclimatic evidence, Zentralblatt für Geologie und Paläontologie, Teil I, 1998: 243–254. 15. Eitel, B., Blümel, W.-D., Hüser, K. and Zöller, L. (1999b), Dust and river silt terraces at the eastern margin of the Sceleton Coast Desert (northwestern Namibia): genetic relations and palaeoclimatic evidence, in Derbyshire, E. (ed.), Loessfest '99. Loess: Characterization, Stratigraphy, Climate and Societal Significance, Centre for Quaternary Research (CQR), Royal Holloway University, London, 56–59. 16. Eitel, B., Blümel, W.-D., Hüser, K. and Mauz, B. (2001), Dust and loessic alluvial deposits in northwestern Namibia (Damaraland, Kaokoveld): sedimentology and palaeoclimatic evidence based on luminescence data, Quaternary International, 76/77: 57–65. http://dx.doi.org/10.1016/S1040-6182(00)00089-6 - 17. Eitel, B., Blümel, W.-D. and Hüser, K. (2002), Environmental transition between 22 ka and 8 ka in monsoonally influenced Namibia – A preliminary chronology, Zeitschrift für Geomorphogie Neue Folge, Supplement Band, 126: 31–57. 18. Eitel, B., Kadereit, A., Blümel, W.-D., Hüser, K. and Kromer, B. (2005), The Amspoort Silts, northern Namib desert (Namibia): formation, age and palaeoclimatic evidence of river-end deposits, Geomorphology, 64: 299–314. http://dx.doi.org/10.1016/j.geomorph.2004.07.006 - 19. Eitel, B., Kadereit, A., Blümel, W.-D., Hüser, K., Lomax, J. and Hilgers, A. (2006), Environmental changes at the eastern Namib Desert margin before and after the Last Glacial Maximum: New evidence from fluvial deposits in the upper Hoanib River catchment, north-western Namibia, Palaeogeography, Palaeoclimatology, Palaeoecology, 234: 201–222. http://dx.doi.org/10.1016/j.palaeo.2005.10.015 - 20. Ellerbrock, R. (2000), Carbonatgehalt in Boden und Wasser, in Barsch, H., Billwitz, K. and Bork, H.-R. (eds), Arbeitsmethoden in Physiogeographie und Geoökologie, Perthes, Gotha, 328–332. 21. Frimmel, H.E., Basei, M.S. and Gaucher, C. (2011), Neoproterozoic geodynamic evolution of SW-Gondwana: a southern African perspective, International Journal of Earth Sciences, 100: 322–354. http://dx.doi.org/10.1007/s00531-010-0571-9 - 22. Greenbaum, N., Schwartz, U., Porat, N., Enzel, Y. and Benito, G. (2007), Palaeofloods in the ephemeral Swakop and Khan Rivers, western Namibia, in Tooth, S. and Woodward, J.C. (eds.), 4th International Palaeoflood Workshop, Crete, Greece, 24th – 30th June 2007, Programme and Abstracts, 34. 23. Grodek, T., Enzel, Y., Benito, G., Botero, B., Jacoby, Y., Porat, N., Porat, R. and Morin, E. (2009), Large floods lifetime across the hyperarid Namib, in Enzel, Y., Greenbaum, N. and Laskow, M. (eds.), GLOCOPH Israel 2009 (Oct. 25 – Nov. 3, 2009), Program and Abstracts, The Hebrew University of Jerusalem, Jerusalem, 22. 24. Heine, K. (2004a), Little Ice Age climatic fluctuations in the Namib Desert, Namibia, and adjacent areas: evidence of exceptionally large floods from slack water deposits and desert soil sequences, in Smykatz-Kloss, W. and Felix-Henningsen, P. (eds.), Palaeoecology of Quaternary Drylands, Lecture Notes in Earth Sciences, Springer, Berlin – Heidelberg, 102: 137–165. 25. Heine, K. (2004b), Flood Reconstructions in the Namib Desert, Namibia, and Little Ice Age Climatic Implications: Evidence from Slackwater Deposits and Desert Soil Sequences, in Kale, V.S., Gregory, K.J. and Joshi, V.U. (eds), Progress in Palaeohydrology: Focus on Monsoonal Areas (Special Issue of the Journal Geological Society of India, 64), Bangalore, 535–547. 26. Heine, K. (2005), Holocene Climate of Namibia: a Review based on Geoarchives, African Study Monographs (Kyoto), Supplementary Issue, 30: 119–133. 27. Heine, K. (2010), Climate reconstructions based on fluvial deposits in hyper-arid desert environments: the Namib case, Palaeoecology of Africa, 30: 27–52. 28. Heine, K. and Völkel, J. (2009), Desert flash flood series. Slackwater deposits and floodouts in Namibia: their significance for palaeoclimatic reconstructions, Zentralblatt für Geologie und Paläontologie, Teil I, 2007 (3–4): 287–308. 29. Heine, K. and Völkel, J. (2010), Soil clay minerals in Namibia and their significance for the terrestrial and marine past global change research, African Study Monographs (Kyoto), Supplementary Issue, 40: 15–34. 30. Holmgren, K., Karlén, W., Lauritzen, S.E., Lee-Thorp, J.A., Partridge, T.C., Piketh, S., Repinski, P., Stevenson, C., Svanered, O. and Tyson, P.D. (1999), A 3000-year high-resolution stalagmite-based record of palaeoclimate for northeastern South Africa, The Holocene, 9: 295–309. http://dx.doi.org/10.1191/095968399672625464 - 31. Hövermann, J. (1978), Formen und Formung in der Pränamib (Flächen-Namib), Zeitschrift für Geomorphologie Neue Folge, Supplement Band, 30: 55–73. 32. Jacobson, P.J., Jacobson, K.M. and Seely, M. (1995), Ephemeral Rivers and their Catchments. Sustaining People and Development in Western Namibia, Desert Research Foundation of Namibia [DRFN], Windhoek. 33. Jansen, E., Overpeck, J., Briffa, K.R., Duplessy, J.-C., Joos, F., Masson-Delmotte, V., Olago, D., Otto-Bliesner, B., Peltier, W.R., Rahmstorf, S., Ramesh, R., Raynaud, D., Rind, D., Solomina, O., Villalba, R. and Zhang, D. (2007), Palaeoclimate, in Solomon, S., D. Qin, D., Manning, M., Chen, Z., Marquis, M., Averyt, K.B., Tignor, M. and Miller, H.L. (eds.), Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 433–497. 34. Jiang, H., Eiriksson, J., Schulz, M., Knudsen, K.-L. and Seidenkrantz, M.S. (2005), Evidence for solar forcing of sea-surface temperature on the North Icelandic shelf during the late Holocene, Geology, 33: 73–76. http://dx.doi.org/10.1130/G21130.1 - 35. Jones, P.D., Briffa, K.R., Osborn, T.J., Lough, J.M., van Ommen, T.D., Vinther, B.M., Luterbacher, J., Wahl, E.R., Zwiers, F.W., Mann, M.E., Schmidt, G.A., Ammann, C.M., Buckley, B.M., Cobb, K.M., Esper, J., Goosse, H., Graham, N., Jansen, E., Kiefer, T., Kull, C., Küttel, M., Mosley-Thompson, E., Overpeck, J.T., Riedwyl, N., Schulz, M., Tudhope, A.W., Villalba, R., Wanner, H., Wolff, E. and Xoplaki, E. (2009), High-resolution palaeoclimatology of the last millennium: a review of current status and future prospects, The Holocene, 19: 3–49. 36. Jungclaus, J.H. (2009), Lessons from the past millennium, Nature Geoscience, 2: 468–470. http://dx.doi.org/10.1038/ngeo559 - 37. Kononov, Yu.M., Friedrich, M. and Boettger, T. (2009), Regional Summer Temperature Reconstruction in the Khibiny Low Mountains (Kola Peninsula, NW Russia) by Means of Tree-ring Width during the Last Four Centuries, Arctic, Antarctic, and Alpine Research, 41: 460–468. 38. Krapf, C.B.E., Stollhofen, H. and Stanistreet, I.G. (2003), Contrasting styles of ephemeral river systems and their interaction with dunes of the Skeleton Coast erg (Namibia), Quaternary International, 104: 41–52. Rights Reserved - Free Access Prawa zastrzeżone - dostęp nieograniczony CBGiOS. IGiPZ PAN, call nos.: Cz.2085, Cz.2173, Cz.2406 http://195.187.71.2/ipac20/ipac.jsp?profile=geogpan&index=BOCLC&term=ee95400564 CBGiOS. IGiPZ PAN, sygn.: Cz.2085, Cz.2173, Cz.2406 palaeofloods extreme floods slackwater deposits tropical-temperate-trough solar irradiance Little Ice Age Namib Desert Orange River catchment powodzie ekstremalne promieniowanie słoneczne osady wód stojących mała epoka lodowa Pustynia Namib zlewnia Orange Text Tekst 2011 ftrcin https://doi.org/10.1016/0022-1694(87)90145-4 https://doi.org/10.1130/G30053A.1 https://doi.org/10.1016/j.yqres.2010.04.006 https://doi.org/10.1002/jqs.809 https://doi.org/10.1016/S1040-6182(00)00089-6 https://doi.org/10.1016/j.geomorph.2004.07.0 2022-11-27T22:35:57Z 187 pp. 24 cm 187 s. 24 cm Text Antarctic and Alpine Research Arctic Digital Repository of Scientific Institutes (RCIN) Journal of Hydrology 96 1-4 79 99

Similar Items