In:
Géomorphologie relief processus environnement, PERSEE Program, Vol. 1, No. 1 ( 1995), p. 7-27
Abstract:
Extended English abstract The central part of the Portuguese continental passive margin (figure 1) is extensively studied by Portuguese and french teams, under the support of IFREMER, INSU, Instituto Hidrografico, JNICT and other organisations. On the shelf, many seismic lines have been realised and the data on submarine geological structure allows to reconstruct very precisely the history of sedimentation on the sea floor, and to link it with some phases of canyon incision. On the main land, D.E.M. of the landforms have been constructed and some models of evolution have been proposed. On the shore line, a survey of paleo sea levels, including submarine sea stands, has permitted to establish a chronology of eustatic movements and of uplift rates. This set of data provides a good information about erosion rates, extended along various time span. The seismic profiles are used to calculate an average speed of retreat since the end of the Tortonian (7,1 millions years), because we can determine where the coast line was at that time. The average rate is 0,7 mm/year. The Eemian sea level, together with some Weichselian stands may be used to determine an average rate of coastal retreat for the last 120 000 years. The rate is 5 mm/year. A very peculiar sea stand, at -7 m depth, is used to calculate a rate of retreat for a 1000 years long period, during the Holocene (5500-4500) with a very high rate of 10 mm/year. Some data is also given by present day rate of retreat, observed and measured between 1990 and 1994. The average is 1 mm/year with a great variability in space (figure 2). The present day rate of retreat, when interpolated, doesn't fit with any of the other figures, neither does the holocene rate fits with the 120 000 one. Though, all these rates could be found, today, on other sites of the Portuguese coast, in the same limestone material. They are commonly observed on exposed cliffs. We may propose that successive morphogenic systems, along the coast we study, have not been very different than the one we observe elsewhere today. A first discussion tries to expose why linear interpolation is impossible, in time, even if processes have remained more or less the same. A non linear model of evolution is then proposed. It relies on an arbitrary average speed of retreat which is calculated as an average during the longest known time span. If evolution were linear, all data should then be on one single straight curve. The difference between the theoretical position of data and its actual location away from the curve (figures 5 and 6) is used to calculate a threshold : it gives a measurement of the relative efficiency of morphogenic processes during a short period, compared with the average efficiency of all processes during the long term. The originality of a morphogenic crisis may be demonstrated. Some explanations are proposed. A model is constructed and presents how sea level variations are related with the speed of coastal retreat. The speed of the sea level rise is much more important than the total amount of vertical displacement (figure 7). Though, the landforms which are carved by this rise are not conserved in the morphology for very long (in this case : 100 000 years). Most of the observed present landforms are a testimony of periods where erosion intensity was low. The question of morphological heritages is discussed. Tectonics are known to be quite important in this area. Rate of uplift are established for some time spans, but not as precisely as retreat rates. A comparison is attempted, but a precise quantification is, at this stage of our work, not very reliable and we propose no explanation for the observed correlations of figure 8. Our conclusion makes clear the difficulties in using todays figures for modelling the landforms evolution. Key Words : Portuguese margin, Arrábida, model, coastal retreat
Type of Medium:
Online Resource
ISSN:
1266-5304
DOI:
10.3406/morfo.1995.856
Language:
French
Publisher:
PERSEE Program
Publication Date:
1995
detail.hit.zdb_id:
2390536-0
SSG:
14
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