V. Meeresspiegel
27. War der Meeresspiegel in vorindustrieller Zeit stets stabil?
1. Lambeck, K., Rouby, H., Purcell, A., Sun, Y., Sambridge, M. (2014): Sea level and global ice volumes from the Last Glacial Maximum to the Holocene: Proceedings of the National Academy of Sciences 111 (43), 15296-15303.
2. IPCC (2019): Special Report on the Ocean and Cryosphere in a Changing Climate: main SROCC report.
3. Smith, D. E., Harrison, S., Firth, C. R., Jordan, J. T. (2011): The early Holocene sea level rise: Quaternary Science Reviews 30 (15), 1846-1860.
4. Gaffney, V., Fitch, S., Smith, D. (2009): Europe’s Lost World: The Rediscovery of Doggerland: Research Report No 160, Council for British Archaeology 2009.
5. Fitch, S., Thomson, K., Gaffney, V. (2005): Late Pleistocene and Holocene depositional systems and the palaeogeography of the Dogger Bank, North Sea: Quaternary Research 64 (2), 185-196.
6. Behre, K.-E. (2007): A new Holocene sea-level curve for the southern North Sea: Boreas 36 (1), 82-102.
7. Behre, K.-E. (2004): Die Schwankungen des mittleren Tidehochwassers an der deutschen Nordseeküste in den letzten 3000 Jahren nach archäologischen Daten, in Schernewski, G., and Dolch, T., eds., Geographie der Meere und Küsten – Coastline Reports 1, S. 1-7.
8. Herrle, J. O., Bollmann, J., Gebühr, C., Schulz, H., Sheward, R. M., Giesenberg, A. (2018): Black Sea outflow response to Holocene meltwater events: Scientific Reports 8 (1), 4081.
9. Goethe-Universität Frankfurt am Main (2018): Als das Mittelmeer menschliche Siedlungen wegspülte: 21.3.2018, https://www.muk.uni-frankfurt.de/75121979/Als_das_Mittelmeer_menschliche_Siedlungen_wegsp%C3%BClte.
10. Der Spiegel (2014): Prähistorischer Wald: Vom Winde freigeweht 21.2.2014, https://www.spiegel.de/wissenschaft/natur/sturm-vor-walisischer-kueste-legt-praehistorischen-wald-frei-a-954832.html.
11. Curry, J. (2019): Sea Level and Climate Change: https://curryja.files.wordpress.com/2018/11/special-report-sea-level-rise-3.pdf.
12. Meco, J., Lomoschitz, A., Rodríguez, Á., Ramos, A. J. G., Betancort, J. F., Coca, J. (2018): Mid and Late Holocene sea level variations in the Canary Islands: Palaeogeography, Palaeoclimatology, Palaeoecology 507, 214-225.
13. Carr, A. S., Boom, A., Chase, B. M., Meadows, M. E., Grimes, H. L. (2015): Holocene sea level and environmental change on the west coast of South Africa: evidence from plant biomarkers, stable isotopes and pollen: Journal of Paleolimnology 53 (4), 415-432.
14. Cooper, J. A. G., Green, A. N., Compton, J. S. (2018): Sea-level change in southern Africa since the Last Glacial Maximum: Quaternary Science Reviews 201, 303-318.
15. Accordi, G., Carbone, F. (2016): Evolution of the siliciclastic-carbonate shelf system of the northern Kenyan coastal belt in response to Late Pleistocene-Holocene relative sea level changes: Journal of African Earth Sciences 123, 234-257.
16. Lewis, S. E., Sloss, C. R., Murray-Wallace, C. V., Woodroffe, C. D., Smithers, S. G. (2013): Post-glacial sea-level changes around the Australian margin: a review: Quaternary Science Reviews 74, 115-138.
17. Harris, D. L., Webster, J. M., Vila-Concejo, A., Hua, Q., Yokoyama, Y., Reimer, P. J. (2015): Late Holocene sea-level fall and turn-off of reef flat carbonate production: Rethinking bucket fill and coral reef growth models: Geology 43 (2), 175-178.
18. Leonard, N. D., Welsh, K. J., Zhao, J.-x., Nothdurft, L. D., Webb, G. E., Major, J., Feng, Y., Price, G. J. (2013): Mid-Holocene sea-level and coral reef demise: U-Th dating of subfossil corals in Moreton Bay, Australia: The Holocene 23 (12), 1841-1852.
19. Dougherty, A. J., Thomas, Z. A., Fogwill, C., Hogg, A., Palmer, J., Rainsley, E., Williams, A. N., Ulm, S., Rogers, K., Jones, B. G., Turney, C. (2019): Redating the earliest evidence of the mid-Holocene relative sea-level highstand in Australia and implications for global sea-level rise: PLOS ONE 14 (7), e0218430.
20. Lee, S., Currell, M., Cendón, D. I. (2016): Marine water from mid-Holocene sea level highstand trapped in a coastal aquifer: Evidence from groundwater isotopes, and environmental significance: Science of The Total Environment 544, 995-1007.
21. Clement, A. J. H., Whitehouse, P. L., Sloss, C. R. (2016): An examination of spatial variability in the timing and magnitude of Holocene relative sea-level changes in the New Zealand archipelago: Quaternary Science Reviews 131, 73-101.
22. Kench, P. S., Owen, S. D., Ford, M. R. (2014): Evidence for coral island formation during rising sea level in the central Pacific Ocean: Geophysical Research Letters 41 (3), 820-827.
23. Rashid, R., Eisenhauer, A., Stocchi, P., Liebetrau, V., Fietzke, J., Rüggeberg, A., Dullo, W.-C. (2014): Constraining mid to late Holocene relative sea level change in the southern equatorial Pacific Ocean relative to the Society Islands, French Polynesia: Geochemistry, Geophysics, Geosystems 15 (6), 2601-2615.
24. Montaggioni, L. F., Salvat, B., Aubanel, A., Pons-Branchu, E., Martin-Garin, B., Dapoigny, A., Goeldner-Gianella, L. (2019): New insights into the Holocene development history of a Pacific, low-lying coral reef island: Takapoto Atoll, French Polynesia: Quaternary Science Reviews 223, 105947.
25. Woodroffe, C. D., McGregor, H. V., Lambeck, K., Smithers, S. G., Fink, D. (2012): Mid-Pacific microatolls record sea-level stability over the past 5000 yr: Geology 40 (10), 951-954.
26. Figueiredo, A. G., de Toledo, M. B., Cordeiro, R. C., Godoy, J. M. O., da Silva, F. T., Vasconcelos, S. C., dos Santos, R. A. (2014): Linked variations in sediment accumulation rates and sea-level in Guanabara Bay, Brazil, over the last 6000years: Palaeogeography, Palaeoclimatology, Palaeoecology 415, 83-90.
27. Suguio, K., Barreto, A., Oliveira, P., Bezerra, F., Vilela, M. (2013): Indicators of Holocene sea level changes along the coast of the states of Pernambuco and Paraíba, Brazil: Geologia USP. Série Científica 13 (4), 141-152.
28. Martínez, S., Rojas, A. (2013): Relative sea level during the Holocene in Uruguay: Palaeogeography, Palaeoclimatology, Palaeoecology 374, 123-131.
29. Bracco, R., Inda, H., del Puerto, L., Capdepont, I., Panario, D., Castiñeira, C., García-Rodríguez, F. (2014): A reply to “Relative sea level during the Holocene in Uruguay”: Palaeogeography, Palaeoclimatology, Palaeoecology 401, 166-170.
30. Mourelle, D., Prieto, A. R., Pérez, L., García-Rodríguez, F., Borel, C. M. (2015): Mid and late Holocene multiproxy analysis of environmental changes linked to sea-level fluctuation and climate variability of the Río de la Plata estuary: Palaeogeography, Palaeoclimatology, Palaeoecology 421, 75-88.
31. Prieto, A. R., Mourelle, D., Peltier, W. R., Drummond, R., Vilanova, I., Ricci, L. (2017): Relative sea-level changes during the Holocene in the Río de la Plata, Argentina and Uruguay: A review: Quaternary International 442, 35-49.
32. Khan, N. S., Ashe, E., Horton, B. P., Dutton, A., Kopp, R. E., Brocard, G., Engelhart, S. E., Hill, D. F., Peltier, W. R., Vane, C. H., Scatena, F. N. (2017): Drivers of Holocene sea-level change in the Caribbean: Quaternary Science Reviews 155, 13-36.
33. Song, B., Yi, S., Yu, S.-Y., Nahm, W.-H., Lee, J.-Y., Lim, J., Kim, J.-C., Yang, Z., Han, M., Jo, K.-n., Saito, Y. (2018): Holocene relative sea-level changes inferred from multiple proxies on the west coast of South Korea: Palaeogeography, Palaeoclimatology, Palaeoecology 496, 268-281.
34. Yoon, W. S., Yoon, S. H., Sohn, C., Sohn, Y. K. (2017): Records of palaeo-sea level and eruption duration in a coastal tuff ring, Jeju Island, Korea: Terra Nova 29 (1), 52-60.
35. He, L., Xue, C., Ye, S., Laws, E. A., Yuan, H., Yang, S., Du, X. (2018): Holocene evolution of the Liaohe Delta, a tide-dominated delta formed by multiple rivers in Northeast China: Journal of Asian Earth Sciences 152, 52-68.
36. Bradley, S. L., Milne, G. A., Horton, B. P., Zong, Y. (2016): Modelling sea level data from China and Malay-Thailand to estimate Holocene ice-volume equivalent sea level change: Quaternary Science Reviews 137, 54-68.
37. Yokoyama, Y., Okuno, J. i., Miyairi, Y., Obrochta, S., Demboya, N., Makino, Y., Kawahata, H. (2012): Holocene sea-level change and Antarctic melting history derived from geological observations and geophysical modeling along the Shimokita Peninsula, northern Japan: Geophysical Research Letters 39 (13).
38. Chiba, T., Sugihara, S., Matsushima, Y., Arai, Y., Endo, K. (2016): Reconstruction of Holocene relative sea-level change and residual uplift in the Lake Inba area, Japan: Palaeogeography, Palaeoclimatology, Palaeoecology 441, 982-996.
39. Mann, T., Rovere, A., Schöne, T., Klicpera, A., Stocchi, P., Lukman, M., Westphal, H. (2016): The magnitude of a mid-Holocene sea-level highstand in the Strait of Makassar: Geomorphology 257, 155-163.
40. Haryono, E., Barianto, D. H., Putro, S. T., Sasongko, M. H. D., Budisetiawan, J. (2019): Reconstruction of Sea Level Change in Indonesia: Preliminary Evidence From Maratua-Kakaban Complex: IOP Conference Series: Earth and Environmental Science 256, 012027.
41. Scheffers, A., Brill, D., Kelletat, D., Brückner, H., Scheffers, S., Fox, K. (2012): Holocene sea levels along the Andaman Sea coast of Thailand: The Holocene 22 (10), 1169-1180.
42. Oliver, G. J. H., Terry, J. P. (2019): Relative sea-level highstands in Thailand since the Mid-Holocene based on 14C rock oyster chronology: Palaeogeography, Palaeoclimatology, Palaeoecology 517, 30-38.
43. Miklavic, B., Yokoyama, Y., Urata, K., Miyairi, Y., Kan, H. (2018): Holocene relative sea level history from phreatic overgrowths on speleothems (POS) on Minami Daito Island, Northern Philippine Sea: Quaternary International 471, 359-368.
44. Lokier, S. W., Bateman, M. D., Larkin, N. R., Rye, P., Stewart, J. R. (2015): Late Quaternary sea-level changes of the Persian Gulf: Quaternary Research 84 (1), 69-81.
45. Rivers, J., Engel, M., Dalrymple, R., Yousif, R., Strohmenger, C. J., Al-Shaikh, I. (2020): Are carbonate barrier islands mobile? Insights from a mid to late-Holocene system, Al Ruwais, northern Qatar: Sedimentology 67 (1), 534-558.
46. Loveson, V. J., Nigam, R. (2019): Reconstruction of Late Pleistocene and Holocene Sea Level Curve for the East Coast of India: Journal of the Geological Society of India 93 (5), 507-514.
47. Das, A., Prizomwala, S. P., Makwana, N., Thakkar, M. G. (2017): Late Pleistocene-Holocene climate and sea level changes inferred based on the tidal terrace sequence, Kachchh, Western India: Palaeogeography, Palaeoclimatology, Palaeoecology 473, 82-93.
48. Hede, M. U., Sander, L., Clemmensen, L. B., Kroon, A., Pejrup, M., Nielsen, L. (2015): Changes in Holocene relative sea-level and coastal morphology: A study of a raised beach ridge system on Samsø, southwest Scandinavia: The Holocene 25 (9), 1402-1414.
49. Sander, L., Hede, M. U., Fruergaard, M., Nielsen, L., Clemmensen, L. B., Kroon, A., Johannessen, P. N., Nielsen, L. H., Pejrup, M. (2016): Coastal lagoons and beach ridges as complementary sedimentary archives for the reconstruction of Holocene relative sea-level changes: Terra Nova 28 (1), 43-49.
50. Long, A. J., Barlow, N. L. M., Dawson, S., Hill, J., Innes, J. B., Kelham, C., Milne, F. D., Dawson, A. (2016): Lateglacial and Holocene relative sea-level changes and first evidence for the Storegga tsunami in Sutherland, Scotland: Journal of Quaternary Science 31 (3), 239-255.
51. Leorri, E., Cearreta, A., Milne, G. (2012): Field observations and modelling of Holocene sea-level changes in the southern Bay of Biscay: implication for understanding current rates of relative sea-level change and vertical land motion along the Atlantic coast of SW Europe: Quaternary Science Reviews 42 (0), 59-73.
52. Hawkes, A. D., Kemp, A. C., Donnelly, J. P., Horton, B. P., Peltier, W. R., Cahill, N., Hill, D. F., Ashe, E., Alexander, C. R. (2016): Relative sea-level change in northeastern Florida (USA) during the last ∼8.0 ka: Quaternary Science Reviews 142, 90-101.
53. García-Artola, A., Stéphan, P., Cearreta, A., Kopp, R. E., Khan, N. S., Horton, B. P. (2018): Holocene sea-level database from the Atlantic coast of Europe: Quaternary Science Reviews 196, 177-192.
54. Engelhart, S. E., Horton, B. P., Kemp, A. C. (2011): Holocene Sea Level Changes Along the United States‘ Atlantic Coast: Oceanography 24 (2), 70-79.
55. Engelhart, S. E., Peltier, W. R., Horton, B. P. (2011): Holocene relative sea-level changes and glacial isostatic adjustment of the U.S. Atlantic coast: Geology 39 (8), 751-754.
56. Whitehouse, P. L., Bradley, S. L. (2013): SEA LEVEL STUDIES | Eustatic Sea-Level Changes Since the Last Glacial Maximum, in Elias, S. A., and Mock, C. J., eds., Encyclopedia of Quaternary Science (Second Edition): Amsterdam, Elsevier, S. 439-451.
57. Meltzner, A. J., Switzer, A. D., Horton, B. P., Ashe, E., Qiu, Q., Hill, D. F., Bradley, S. L., Kopp, R. E., Hill, E. M., Majewski, J. M., Natawidjaja, D. H., Suwargadi, B. W. (2017): Half-metre sea-level fluctuations on centennial timescales from mid-Holocene corals of Southeast Asia: Nature Communications 8 (1), 14387.
58. Rutgers University (2017): Sea-level change in Southeast Asia 6,000 years ago has implications for today: 10.2.2017, https://www.sciencedaily.com/releases/2017/02/170210084529.htm.
59. Grinsted, A., Moore, J. C., Jevrejeva, S. (2010): Reconstructing sea level from paleo and projected temperatures 200 to 2100 AD: Climate Dynamics 34 (4), 461-472.
60. Kopp, R. E., Kemp, A. C., Bittermann, K., Horton, B. P., Donnelly, J. P., Gehrels, W. R., Hay, C. C., Mitrovica, J. X., Morrow, E. D., Rahmstorf, S. (2016): Temperature-driven global sea-level variability in the Common Era: Proceedings of the National Academy of Sciences 113 (11), E1434-E1441.
61. Kemp, A. C., Wright, A. J., Edwards, R. J., Barnett, R. L., Brain, M. J., Kopp, R. E., Cahill, N., Horton, B. P., Charman, D. J., Hawkes, A. D., Hill, T. D., van de Plassche, O. (2018): Relative sea-level change in Newfoundland, Canada during the past ∼3000 years: Quaternary Science Reviews 201, 89-110.
62. Lamb, H. H. (1995): Climate, History and the Modern World, Psychology Press, 433 p.:
63. Faivre, S., Bakran-Petricioli, T., Horvatincic, N., Sironi, A. (2013): Distinct phases of relative sea level changes in the central Adriatic during the last 1500years — influence of climatic variations?: Palaeogeography, Palaeoclimatology, Palaeoecology 369, 163-174.
64. Faivre, S., Bakran-Petricioli, T., Barešic, J., Horvati, D., Macario, K. (2019): Relative sea-level change and climate change in the Northeastern Adriatic during the last 1.5 ka (Istria, Croatia): Quaternary Science Reviews 222, 105909.
65. Kemp, A. C., Horton, B. P., Donnelly, J. P., Mann, M. E., Vermeer, M., Rahmstorf, S. (2011): Climate related sea-level variations over the past two millennia: PNAS 108 (27), 11017-11022.
66. PIK (2011): Meeresspiegel steigt heute schneller als je zuvor in den letzten 2000 Jahren 20.6.2011, https://www.pik-potsdam.de/aktuelles/pressemitteilungen/archiv/2011/sea-levels-rising-at-fastest-rate-in-2000-year.
67. Scott, L., Lee-Thorp, J. A. (2004): Holocene climatic trends and rhythms in southern Africa, in Battarbee, R. W., Gasse, F., and Stickley, C. E., eds., Past Climate Variability through Europe and Africa: Dordrecht, Springer Netherlands, S. 69-91.
68. Goodwin, I. D., Harvey, N. (2008): Subtropical sea-level history from coral microatolls in the Southern Cook Islands, since 300 AD: Marine Geology 253 (1), 14-25.
69. Nunn, P. D. (2000): Environmental catastrophe in the Pacific Islands around A.D. 1300: Geoarchaeology 15 (7), 715-740.
70. Kench, P. S., McLean, R. F., Owen, S. D., Ryan, E., Morgan, K. M., Ke, L., Wang, X., Roy, K. (2020): Climate-forced sea-level lowstands in the Indian Ocean during the last two millennia: Nature Geoscience 13 (1), 61-64.
71. Razjigaeva, N. G., Ganzey, L. A., Bazarova, V. B., Arslanov, K. A., Grebennikova, T. A., Mokhova, L. M., Belyanina, N. I., Lyaschevskaya, M. S. (2019): Landscape response to the Medieval Warm Period in the South Russian Far East: Quaternary International 519, 215-231.
72. Cronin, T. M., Farmer, J., Marzen, R. E., Thomas, E., Varekamp, J. C. (2014): Late Holocene sea level variability and Atlantic Meridional Overturning Circulation: Paleoceanography 29 (8), 765-777.
73. IPCC (2007): 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, United Kingdom and New York, NY, USA, Cambridge University Press.
74. Cronin, T. M. (2011): Was pre–twentieth century sea level stable?: Eos, Transactions American Geophysical Union 92 (49), 455-456.