L. Aune-lundberg and G. Strand, CORINE Land Cover 2006 -The Norwegian CLC2006 Project, vol.11, p.14, 2010.

M. Ballèvre, V. Bosse, C. Ducassou, and P. Pitra, Palaeozoic history of the Armorican Massif: models for the tectonic evolution of the suture zones, C.R. Geoscience, vol.341, pp.174-201, 2009.

H. J. Beug, Leitfaden der Pollenbestimmung für Mitteleuropa und angrenzende, 2004.

. Gebiete, , p.542

W. E. Boyd, Vegetation history at Linwood Moss, 1986.

. Biogeogr, , pp.207-223

R. H. Bradshaw, Modern pollen-representation factors for woods in south-east England, 1981.

, J. Ecol, pp.45-70

A. Broström, A. B. Nielsen, M. Gaillard, K. Hjelle, F. Mazier et al.,

R. Fyfe, V. Meltsov, and A. Poska, Pollen productivity estimates of key European plant taxa for quantitative reconstruction of past vegetation: a review, Veg. Hist. Archaeobotany, vol.17, pp.461-478, 2008.
URL : https://hal.archives-ouvertes.fr/halshs-00958029

A. G. Brown, R. G. Carpenter, and D. E. Walling, Monitoring fluvial pollen transport, its relationship to catchment vegetation and implications for palaeoenvironmental studies, Rev. Palaeobot. Palynol, vol.147, pp.60-76, 2007.

G. S. Brush and R. S. Defries, Spatial distributions of pollen in surface sediments of the Potomac estuary, Limnol. Oceanogr, vol.26, pp.295-309, 1981.

F. El-daoushy, K. Tolonen, and R. Rosenberg, Lead 210 and moss-increment dating of two Finnish Sphagnum hummocks, Nature, vol.296, pp.429-431, 1982.

G. Erdtman, Handbook of Palynology. Morphology -Taxonomy -Ecology. An Introduction to the Study of Pollen Grains and Spores, 1969.

K. Faegri, J. ;. Iversen, . Kaland, and K. Krzywinski, Textbook of pollen analysis, 1989.

, John Wiley and Sons, p.328

F. Fatela and R. Taborda, Confidence limits of species proportions in microfossil assemblages, Mar. Micropaleontol, vol.45, pp.169-174, 2002.

A. Fernane, E. Gandouin, A. Penaud, B. Van-vliet-lanoë, J. Goslin et al., Coastal palaeoenvironmental record of the last 7 kyr BP in NW France: Submillennial climatic and anthropic Holocene signals, The Holocene, vol.24, pp.1785-1797, 2014.
URL : https://hal.archives-ouvertes.fr/insu-01100322

M. Gaillard, H. J. Birks, U. Emanuelsson, S. Karlsson, P. Lageras et al., Application of modern pollen/land-use relationships to the interpretation of pollen diagramsreconstructions of land-use history in south Sweden, BP. Rev. Palaeobot. Palynol, vol.82, pp.47-73, 1994.

M. Gaillard, H. J. Birks, M. Ihse, and S. Runborg, Pollen/landscape calibrations based on modern pollen assemblages from surface-sediment samples and landscape mappinga pilot study in South Sweden, vol.27, pp.31-52, 1998.

A. Ganne, C. Leroyer, A. Penaud, and M. Mojtahid, Present-day palynomorph deposits in an estuarine context: The case of the Loire Estuary, Journal of Sea Research, vol.118, pp.35-51, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01435011

J. Goslin, L'évolution du niveau marin relatif le long des côtes du Finistère (Bretagne, France) de 8000 BP à l'actuel: entre dynamiques régionales et réponses locales, p.355, 2014.

J. Goslin, B. Van-vliet-lanoë, G. Spada, S. Bradley, L. Tarasov et al., A new Holocene relative sea-level curve for western Brittany (France): Insights on isostatic dynamics along the Atlantic coasts of north-western Europe, Quat. Sci. Rev, vol.129, pp.341-365, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01225416

G. Gregoire, A. Ehrhold, P. Le-roy, G. Jouet, and T. Garlan, Modern morphosedimentological patterns in a tide-dominated estuary system: the Bay of Brest (west Britanny, France), Journal of Maps, vol.12, pp.1152-1159, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02370325

G. Gregoire, S. Schmidt, A. Ehrhold, G. Jouet, P. Le-roy et al., Enregistrement des conditions hydro-sédimentaires holocènes sur les zones bordières d'un système estuarien complexe abrité : La Rade de Brest (Finistère). 15 ème congrès français de Sédimentologie ASF, pp.13-15, 2015.

B. Hallegouet, &. Lozac, G. Vigouroux, and F. , Atlas permanent de la Mer et du Littoral n°1, 1994.

A. J. Havinga, Palynology and pollen preservation, Rev. Palaeobot. Palynol, vol.2, pp.81-98, 1967.

. A-c-c-e-p-t-e-d-m-a-n-u-s-c-r-i-p-t-accepted-manuscript-28,

S. Hicks and H. J. Birks, Numerical analysis of modern and fossil pollen spectra as a tool for elucidating the nature of fine-scale human activities in boreal areas, Veg. Hist, 1996.

, Archaeobotany, vol.5, pp.257-272

S. Hicks, H. Tinsley, A. Huusko, C. Jensen, M. Hättestrand et al., Some comments on spatial variation in arboreal pollen deposition: first records from the Pollen Monitoring Programme (PMP), Rev. Palaeobot. Palynol, vol.117, pp.183-194, 2001.

J. W. Hurrell, Decadal trends in the North Atlantic Oscillation: regional temperatures and precipitation, Science, vol.269, pp.676-679, 1995.

C. Joly, L. Barillé, M. Barreau, A. Mancheron, and L. Visset, Grain and annulus diameter as criteria for distinguishing pollen grains of cereals from wild grasses, Rev. Palaeobot. Palynol, vol.146, pp.221-233, 2007.

K. Klouch, S. Schmidt, F. Andrieux-loyer, L. Gac, M. Hervio-heath et al.,

J. Quéré, E. Bigeard, L. Guillou, and R. Siano, Historical records from dated sediment cores reveal the multidecadal dynamic of the toxic dinoflagellate Alexandrium minutum in the Bay of, FEMS Microbiol. Ecol, vol.92, pp.1-16, 2016.

V. Lebreton, E. Messager, L. Marquer, and J. Renault-miskovsky, A neotaphonomic experiment in pollen oxidation and its implications for archaeopalynology, 2010.

. Palynol, , vol.162, pp.29-38

A. Lézine and J. Casanova, Pollen and hydrological evidence for the interpretation of past climates in tropical West Africa during the Holocene, Quat. Sci. Rev, vol.8, pp.45-55, 1989.

K. Matsuoka, Y. Saito, H. Katayama, Y. Kanai, J. Chen et al., Marine palynomorphs found in surface sediments and a core sample collected from off Changjiang River, western part of the East China Sea, in: The East China Sea, Proceedings of the Second Workshop on Oceanography and Fisheries in the East China Sea, pp.25-26, 1999.

A. Mauri, B. A. Davis, P. M. Collins, and J. O. Kaplan, The climate of Europe during the Holocene: a gridded pollen-based reconstruction and its multi-proxy evaluation, Quat. Sci. Rev, vol.112, pp.109-127, 2015.

F. Mazier, A. Broström, P. Bragée, D. Fredh, L. Stenberg et al., Two hundred years of land-use change in the South Swedish Uplands: comparison of historical map-based estimates with a pollen-based reconstruction using the landscape reconstruction algorithm, Veg. Hist. Archaeobotany, vol.24, pp.555-570, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01171964

K. N. Mertens, K. Verhoeven, T. Verleye, S. Louwye, A. Amorim et al.,

I. C. Harding, S. De-schepper, and C. González, Determining the absolute abundance of dinoflagellate cysts in recent marine sediments: the Lycopodium marker-grain method put to the test, Rev. Palaeobot. Palynol, vol.157, pp.238-252, 2009.

Y. Monbet and P. Bassoulet, Bilan des connaissances océanographiques en rade de Brest, 1989.

C. Rapport, . Ipsn, and . Dero, , vol.106, p.pp

P. D. Moore, J. A. Webb, and M. E. Collinson, Pollen analysis. 2 nd Edition, vol.216, p.pp, 1991.

M. Morzadec-kerfourn, Les kystes de dinoflagellés dans les sédiments récents le long des côtes, Bretonnes. Rev. Micropaleontol, vol.20, pp.157-166, 1977.

M. T. Morzadec-kerfourn, Les kystes de Dinoflagellés, Géologie Méditerranéenne, vol.6, pp.221-246, 1979.

P. J. Mudie, Pollen distribution in recent marine sediments, eastern Canada, Can. J. Earth Sci, vol.19, pp.729-747, 1982.

C. Mulder and C. R. Janssen, Application of Chernobyl caesium-137 fallout and naturally occurring lead-210 for standardization of time in moss samples: recent pollen-flora relationships in the Allgäuer Alpen, Germany. Rev. Palaeobot. Palynol, vol.103, pp.23-40, 1998.

K. J. Niklas, The aerodynamics of wind pollination, Bot. Rev, vol.51, pp.328-386, 1985.

P. Pakarinen and K. Tolonen, Distribution of lead in Sphagnum fuscum profiles in Finland, Oikos, vol.28, pp.69-73, 1977.

P. H. Pitkin, Variability and seasonality of the growth of some corticolous pleurocarpous mosses, J. Bryol, vol.8, pp.337-356, 1975.

M. Pommepuy, F. Manaud, Y. Monbet, G. Allen, J. Salomon et al., Les Côtes Atlantiques d'Europe, vol.9, pp.211-226, 1979.

I. C. Prentice, Pollen representation, source area, and basin size: toward a unified theory of pollen analysis, Quat. Res, vol.23, pp.76-86, 1985.

E. Quéré, S. Magnanon, R. Ragot, L. Gager, and F. Hardy, Atlas floristique de Bretagne: la flore du Finistère, vol.693, p.pp, 2008.

S. Räsänen, S. Hicks, and B. V. Odgaard, Pollen deposition in mosses and in a modified -Tauber trap? from Hailuoto, Finland: what exactly do the mosses record? Rev, 2004.

. Palynol, , vol.129, pp.103-116

M. Reille, Pollen et spores d'Europe et d'Afrique du Nord: supplement 1. Laboratoire de Botanique Historique et Palynologie, vol.327, p.pp, 1995.

J. C. Ritchie, C. H. Eyles, and C. V. Haynes, Sediment and pollen evidence for an early to mid-Holocene humid period in the eastern Sahara, Nature, vol.314, pp.352-355, 1985.

B. Romano, G. Mincigrucci, G. Frenguelli, and E. Bricchi, Airborne pollen content in the atmosphere of central Italy (1982-1986), Experientia, vol.44, pp.625-629, 1988.

D. Rousseau, P. Schevin, J. Ferrier, D. Jolly, T. Andreasen et al., Long-distance pollen transport from North America to Greenland in spring, J. Geophys. Res. Biogeosciences, vol.113, pp.1-10, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00263935

P. Ruffaldi, Relationship between recent pollen spectra and current vegetation around the Cerin peat bog, Rev. Palaeobot. Palynol, vol.82, pp.97-112, 1994.

S. Sildever, T. J. Andersen, S. Ribeiro, and M. Ellegaard, Influence of surface salinity gradient on dinoflagellate cyst community structure, abundance and morphology in the Baltic Sea, Kattegat and Skagerrak, Estuar. Coast. Shelf Sci, vol.155, pp.1-7, 2015.

P. Sjögren, W. O. Van-der-knaap, and J. F. Van-leeuwen, Pollen dispersal properties of Poaceae and Cyperaceae: First estimates of their absolute pollen productivities, Rev. Palaeobot. Palynol, vol.216, pp.123-131, 2015.

A. Smirnov, G. L. Chmura, and M. F. Lapointe, Spatial distribution of suspended pollen in the Mississippi River as an example of pollen transport in alluvial channels, Rev. Palaeobot, 1996.

. Palynol, , vol.92, pp.69-81

M. Sonesson, B. A. Carlsson, T. V. Callaghan, S. Halling, L. O. Björn et al., Growth of two peat-forming mosses in subarctic mires: species interactions and effects of simulated climate change, Oikos, vol.99, pp.151-160, 2002.

J. Stockmarr, Tablets with spores used in absolute pollen analysis, Pollen et Spores, vol.13, pp.615-621, 1971.

S. Sugita, Pollen representation of vegetation in Quaternary sediments: theory and method in patchy vegetation, J. Ecol, vol.82, pp.881-897, 1994.

S. Sugita, M. Gaillard, and A. Broström, Landscape openness and pollen records: a simulation approach, The Holocene, vol.9, pp.409-421, 1999.

T. H. Szymura and M. Szymura, Spatial variability more influential than soil pH and land relief on thermophilous vegetation in overgrown coppice oak forest, Acta Soc. Bot. Pol, vol.82, issue.1, pp.5-11, 2013.

C. Tarakçio?lu, A. Yalçin, A. Bayrak, M. Küçük, and H. Karabacak, Evaluation of nutritional status of hazelnut (Corylus avellana L.) grown in Ordu district by soil and plant analysis, Journal of Agricultural Sciences, vol.9, pp.13-22, 2003.