The Bouldnor-Formation is the topmost formation of the
Solent Group before the sea withdrew completely from the
Hampshire Basin. The thickness of the formation can vary between 45 and 115 metres. After a long
hiatus Pleistocene and
Holocene sediments covered the formation discordantly. The Bouldnor Formation lies concordantly on
desiccation cracks of the upper Bembridge Limestone (
Bembridge Limestone Formation), a freshwater deposit. The formation consists mainly of
clays with some intercalated
sands which were sedimented along a coastal plain in
lagoonal and
lacustrine/
palustrine facies judging by the enclosed freshwater, brackish and marine biota. Marine conditions were only rarely achieved, examples being the
Bembridge Oyster Bed, the
Nematura Bed and sections of the upper
Cranmore Member. A very diversified and well preserved biota can be found within the Bouldnor Formation comprising
molluscs,
vertebrates (especially
mammals),
charophytes and vascular
plants. The nonmarine layers are characterized by
gastropods like
Australorbis,
Lymnaea/
Galba and
Viviparus and
ostracods like
Gandona,
Cypridopsis and
Moenocypris. In the middle section (i.e. in the
Hamstead Member) the effects of the
Grande Coupure on the biota are clearly noticeable and follow immediately after the negative oxygen excursion
Oi-1 at the beginning of the Oligocene.
Stratigraphically the Bouldnor Formation is subdivided into three members (from top to bottom): •
Cranmore Member •
Hamstead Member •
Bembridge Marls Member Bembridge Marls Member The basal, 20 to 23 metres, exceptionally-35 metres-thick
Bembridge Marls Member is mainly composed of blueish to greenish-gray clays and
marls. Interlaced are several mollusc-bearing horizons. The clays show a rhythmical,
varve-like layering. The member overlies the summital mudcracks of the Bembridge Limestone Formation without any discontinuity. It correlates
magnetostratigraphically with the upper part of chron
C 13r and
biostratigraphically with the calcareous nannoplanktonzone
NP21. The member therefore belongs to the upper
Priabonian and has an absolute age of 34.0 to 33.75 million years
BP. The Bembridge Marls Member was mainly sedimented in fresh or
brackish water as indicated by
cirripedia and gastropods like
Terebia. The lower section of the member is of
estuarine origin, whereas the upper section was laid down by rivers inhabited by
prosobranchs like
Viviparus. Relatively short-lived marine inraids are recognizable in horizons like the
Bembridge Oyster Bed 1.5 metres above the base and a limestone band with bivalves like
Corbicula and
Nucula. Amongst the
fish Amia sp. and other
amiids have been found The fossil contents of the Bembridge Marls Member are quite varied, with freshwater species like
Lymnaea and
Unio and marine taxa like
Melanopsis,
Meretrix and
Ostrea. The
Bembridge Insect Bed at the base of the member is a marly sand layer with a very rich
insect fauna and many
leaves. This layer constitutes a
lagerstätte with very good preservation. Amongst the finds are
coleoptera,
diptera,
hymenoptera and
arthropods as for instance
Aeschnophlebia andeasi,
Oligoaeschna anglica and
Vectaraneus yulei. Plant remains within the member include
palm seeds and the
fern Acrostichum. Amongst the mammals are
Anoplotherium latipes,
Bransatoglis bahloi,
Choeropotamus parisiensis,
Ectropomys exiguus,
Gesneropithex sp.,
Glamys devoogdi,
Haplomeryx zitteli,
Heterohyus,
Microchoerus edwardsi,
Palaeotherium medium,
Paroxacron sp.,
Peratherium,
Plagiolophus major,
Plagiolophus minor,
Saturninia gracilis,
Suevosciurus ehingensis,
Tarnomys schmidtkittleri,
Theridomys bonduelli and
Treposciurus.
Hamstead Member of the Bouldnor Formation The 20 to 70 meter thick
Hamstead Member is divided in two by the
Nematura bed (rich in
Nematura parvula).
Lower Hamstead Member The 10-meter-thick
Lower Hamstead Member follows directly upon the Bembridge Marls Member with a 40-centimetre-thick olive to black seam, the
Black Band. This layer is very rich in organic matter and was deposited under freshwater conditions. At its base it carries
calcrete nodules and
rootlets. The Black Band is overlain by roughly 4 metres of a greenish-greyish clay-
silt interlayering. This changes to 3 metres of blue to brown, finely laminated clays including some shelly horizons. These clays are capped by a 1-metre-thick, blueish-greyish, clayey sand layer with
ball-and-pillow-structure, contorted bedding and
convolute bedding indicating dewatering of the sediment during
diagenesis. This gravitationally unstable bed is known as the
log bed for its up to 5-metre-long tree trunks. The log bed is clearly a freshwater deposit as it contains besides the tree trunks plenty of washed-up
seeds of the genera
Potamogeton and
Stratiodes, and also the leaves of
monocotyledon and
dicotyledon plants. Its faunal remains attest the last pre-Grande Coupure assemblage (
MP20). After a distinct hiatus follows
unconformably the
Nematura bed which closes the Lower Hamstead Member. This bed is almost 1 meter thick and is characterized by chocolate-brown
ripple marks enclosed in alternating clays and sands. It attests brackish conditions with a lot of reworked wood debris. Besides molluscs like
Nematura (now
Stenothyra) and
Polymesoda there are also marine
dinoflagellates and the ostracode
Hemicyprideis. Within the basal shell layer traces of an eroded soil horizon (paleosoil) were found. The hiatus underneath is estimated to have lasted 350.000 years. The following mammal taxa were found in the Lower Hamstead Member:
Amphidozotherium cayluxi,
Amphiperaterium exile,
Anoplotherium latipes,
Bransatoglis planus,
Butselia biveri,
Cryptopithecus,
Eotalpa anglica,
Glamys fordi,
Palaeotherium curtum,
Palaeotherium muehlbergi,
Paradoxonycteris tobieni,
Pseudoltinomys cuvieri,
Ronzotherium sp.,
Stehlinia minor,
Suevosciurus ehingensis,
Suevosciurus fraasi,
Theridomys bonduelli and
Xiphodon gracilis. Amongst plants
conifers start appearing, an example being
Quasisequoia couttsiae and the
pollen Inaperturopollenites magnus.
Upper Hamstead Member The
Upper Hamstead Member can reach a thickness of 60 meters. It starts with a 3-meter thick interlayering of greenish-greyish clay and silt bearing decalcified Polymesoda shells. Roughly 10 metres above the base follows the
Eomys bed and immediately above it the
White Band also containing Polymesoda shells. After the
Crocodile bed the member ends with 8 meters of turquoise, plastic clays with orange-red freckles. Intercalated are occasional brown,
slickensided, laminated clays and some shell horizons. Worth mentioning is also the
White lily bed in the upper third of the Upper Hamstead Member. Mammal remains were also found in the Upper Hamstead Member. They belong to the following species:
Amphicynodon sp.,
Amphiperatherium exile,
Amphiperaterium minutum,
Asteneofiber,
Atavocricetodon atavus,
Bothriodon velaunus,
Butseloglis micio,
Cryptopithecus,
Elomeryx porcinus,
Entelodon magnus,
Eomys,
Glamys fordi,
Hyaenodon dubius,
Isoptychus margaritae,
Leptadapis sp.,
Myxomygale antiqua,
Paradoxonycteris tobieni,
Pecora,
Peratherium perriense,
Pseudoltinomys gaillardi,
Ronzotherium romani,
Stehlinia gracilis,
Tapirulus hyracinus and
Tetracus. Chronologically the Hamstead Member starts at the Priabonian/
Rupelian boundary and reaches into the upper Rupelian. It comprises the chrons
C 13n and the lower part of
C 12r. In absolute age it covers the time span 33.75 to 32.5 million years BP.
Cranmore Member The
Cranmore Member on top of the Bouldnor Formation is merely 5 to 9 meters thick and consists mainly of blueish-greenish clays. It starts off as a brackish facies (
Cerithium beds with
Cerithium) but changes to marine in the
Corbula beds (with
Corbula pisum and
Corbula vectensis). The marine character is also underlined by the gastropods
Hydrobia sp.,
Pusillina turbinata,
Sandbergeria vectiana,
Strebloceras cornuides,
Syrnola sp. and
Teinostoma decussatum. Also present are
Viviparus lentus shells. The Cranmore Member belongs biostratigraphically to the calcareous nannofossil
biozone NP23. The sedimentation stopped at the end of the member and the sea withdrew completely from the Hampshire Basin. == Sequence stratigraphy ==