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Jo urnal of G/aci%lJ)', Vol. 23 , No. 8g. 1979 ABSTRACTS OF PAPERS ACCEPTED FOR THE SYMPOSIUM BUT NOT PRESENTED THE ORIGIN OF DR U MLINS AS AN ICE-ROCK INTERFACE PROBLEM By S. BARAN OWS KI ':' ( Instytut Geograficzny, Uniwers ytet 'I\Troclawski , pI. Uniwers ytecki I, 50-137 Wroclaw , Poland ) ABSTRACT. Th e origin of drumlins has long been one of the most intriguing, yet unsolved proble ms in glacial geology. It see ms that until the me chanism responsible for drumlin formation is fully understood some of the key glaciological problems related to the glacier bed will remain obscure. Drumlins are cl ea rly formed at the ice- rock interface. Th e following are the most charac- teristic feat ur es which must be tak en into account when ex plaining their ori gin. I. They are , at least partly , built of depositional material (till) but th ey show distinct traces of powerful erosional and shaping action of moving ic e. 2. Th ey usually appear in swarms but their position in relation to eac h neig hbourin g form is not incidental; a certain, more-or-Iess constant distance between th e longer axes of forms, typical to e very field or its major part, is th e ru,le. 3. Th ey were formed durin g the last stage of glaciation , shortly before the glacier 's complete decay, therefore during the time when most glacial proc esses seem to slow down . In spite of the great numb er of theories for drumlin form a tion, none is able to expla in the above-mentioned characteristic f ea tures. Among the mor e widely acce pted theories of drumlin formation is one put forw a rd by Srn alley and U nwin (196 8), who sugges ted that till in the g la cier Roor, afte r th e pr ess ur e there reach es a certain (not closely defined) level, und ergoes so-call ed "d il ata tion" , and that thi s is an esse ntial factor for the formation of drumlin s. If th e pr ess ur e is higher th a n the suggested rang e, th e glacier would sweep every thin g in fr ont of it, but , with a lowe r pressure a ppli ed a continuous deformation of till is impossibl e (Smalley and Unwin , 1968, p. 3 79 ). H owever, it is not cl ea r if " dilatation" a lways ta kes pl ace in the glacier s ub str a tum wh en the suggested pressure range is reached. The experim e nt s described by Smalley and U nwin seem to suggest that "dilatation" ought to be expected in m a terial like till when pr ess ur e a nd also deformation rises from lower to high er values . It is by no means quit e certain wheth er " dilatation" takes place with th e same int e nsit y wh en pr ess ur e in the glac ier floor reach es the cri ti ca l value a nd remains at it for a longer pe riod of time, or wh en the pr ess ur e has changed from a higher to a lower value. It is likely that " dilatati o n" , even if it does exist at the glacier bottom ma y change th e mechanic al prop erti es of th e deformed till in the glacier bed on ly sli ghtly, a nd probabl y it is far too weak a process to create drumlins. * Thi s paper was not pr ese nt ed b eca use of th e acc ide nt which occurred to its a uth or in th e Anta rctic. At the time of th e Sympos ium he was seriously ill in hos pital, and he died sh ort ly afterwards. An obituar y has b ee n printed in Jo urnal of Glaciology, Vol. 22, No. 87, 1979, p. 408- 09. 435

ABSTRACTS OF PAPERS ACCEPTED FOR THE SYMPOSIUM BUT … · SYMPOSIUM BUT NOT PRESENTED THE ORIGIN OF DRUMLINS AS AN ICE-ROCK INTERFACE PROBLEM By S ... It seems that until the mechanism

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Page 1: ABSTRACTS OF PAPERS ACCEPTED FOR THE SYMPOSIUM BUT … · SYMPOSIUM BUT NOT PRESENTED THE ORIGIN OF DRUMLINS AS AN ICE-ROCK INTERFACE PROBLEM By S ... It seems that until the mechanism

J ournal of G/aci%lJ)', Vol. 23, No. 8g. 1979

ABSTRACTS OF PAPERS ACCEPTED FOR THE SYMPOSIUM BUT NOT PRESENTED

THE ORIGIN OF DR U MLINS AS AN ICE-ROCK INTERFACE PROBLEM

By S. BARANOWSKI ':'

(Instytut Geograficzny, Uniwersytet 'I\Troclawski, pI. Uniwersytecki I , 50-137 Wroclaw, Poland )

ABSTRACT. The origin of drumlins has long been one of the most intriguing, yet unsolved problems in glacial geology. It seems that until the m echanism responsible for drumlin formation is fully understood some of the key glaciological problems related to the glacier bed will remain obscure.

Drumlins are clearly formed at the ice- rock interface. The following are the most charac­teristic features which must be taken into account when explaining their origin.

I . They are, at least partly, built of d epositional material (till ) but they show distinct traces of powerful erosional and shaping action of moving ice.

2. They usually appear in swarms but their position in relation to each neighbouring form is not incidental; a certain, more-or-Iess constant distance between the longer axes of forms, typical to every field or its major part, is the ru,le.

3. They were formed during the last stage of glaciation , shortly before the glacier 's complete decay, therefore during the time when most glacial processes seem to slow down.

In spite of the great number of theories for drumlin forma tion, none is able to expla in the above-mentioned characteristic features.

Among the more widely accepted theories of drumlin formation is one put forw ard by Srn alley and U nwin (1968), who suggested that till in the glac ier Roor, after the pressure there reaches a certain (not closely defined ) level, undergoes so-called "dila ta tion" , and that this is an essential factor for the formation of drumlins. If the pressure is higher tha n the suggested range, the glacier would sweep everything in front of it, but , with a lower pressure applied a continuous deformation of till is impossible (Smalley and Unwin, 1968, p. 379). H owever, it is not clear if " dilatation" a lways ta kes place in the glacier substra tum when the suggested pressure range is reached. The experiments d escribed by Sma lley and U nwin seem to suggest that "dilatation" ought to be expec ted in m a terial like till when pressure a nd a lso deform a tion rises from lower to highe r values . It is by no means quite certain whether " dilatation" ta kes place with the same intensity when pressure in the glacier floor reaches the cri tical value a nd remains at it for a longer period of time, or when the press ure has changed from a higher to a lower value.

It is likely that " dilatation" , even if it does exist at the g lacier bottom may change the mechanica l properties of the deformed till in the glacier bed only slightly, a nd probably it is far too weak a process to create drumlins.

* This paper was not presented because of the acc ident which occurred to its author in the Antarcti c. At the time of the Symposium he was se riously ill in hospital, and he died short ly afterwards. An obituary has been printed in Journal of Glaciology, Vol. 22, No. 87, 1979, p. 408- 09.

435

Page 2: ABSTRACTS OF PAPERS ACCEPTED FOR THE SYMPOSIUM BUT … · SYMPOSIUM BUT NOT PRESENTED THE ORIGIN OF DRUMLINS AS AN ICE-ROCK INTERFACE PROBLEM By S ... It seems that until the mechanism

JOURNAL OF GLACIOLOGY

I t is postulated that it is possible to explain the origin of drumlins if we assume that it is the temperature and not the pressure changes which are the cause of the differences in till properties at the glacier substratum (Baranowski, 1977).

It has been found , both in laboratory experiments and in natural conditions at the bottom of some sub-polar glaciers, that changes of the thermal regime of water-saturated till from warm to cold produce a sudden and drastic transformation of the mechanical properties of till. It seems that in the flow law : E = Aun, the value of A for an ice- till mixture is even more temperature-dependent than for pure ice. Also the value of the power index n, which for pure glacier ice is about 3, although basically temperature independent, will be much lower than that for till- water mixtures and probably higher than that for frozen till.

Thus, in the warm thermal regime, a layer of till at the glacier bottom was being con­tinuously deformed along the whole substratum in a uniform way proportional to the rate of motion of the overlying glacier. At that time the glacier did not show any particularly strong erosive activity, and there conditions did not favour the development of drumlins . However, with the appearance of the cold thermal stage,. due either to climatic changes or changes in the glacier thickness, the hitherto relatively plastic till-rich floor layer became several times more resistant to deformations brought about by the movement of the glacier, although it is probable that in the initial phase of thermal changes in the substratum only.certain portions of the floor ice and till have been retained. If, however, a portion of till stopped suddenly iil the glacier sole, the glacier, with a diminished cross-sectional area, must have flowed more intensively in other parts along that cross-section, by-passing the obstacle and modelling it strongly. Even if the proximal part of the obstacle were destroyed, the remaining part could last until the end of the glaciation ready in the form of a drumlin.

The formation of a drumlin must have resulted in an increase of the ice flow on both sides of the form so that the next part of material was arrested at the glacier-rock interface with more difficulty there than a little further off on both sides of the drumlin, beyond the zone of intense deformation. Thus, it can be assumed, that the distances between the neighbouring forms measured in a direction perpendicular to the ice flow were proportional to the heights of the drumlins and so to the thickness of the till layer 'in the glacier Aoor. This mechanism could not result in an entirely random distribution of drumlin forms within a field , although their distribution could not have been mathematically regular either.

It is suggested that at least three simultaneously existing conditions are necessary to cause the formation of drumlins:

(a) the presence of till at the sole or at the floor of the glacier, (b ) a change of the thermal regime from warm to cold, (c) ice flow in the bottom layer of the glacier.

The relative rareness of drumlins compared with other ground-moraine forms of the Pleistocene ice sheets most probably indicates, that a simultaneous occurrence of these conditions i'. the marginal zone of ice sheets must have been also quite rare.

REFERENCES

Baranowski, S. 1977. Regularity of drumlin distribution and the origin of their formation. Studia Geologica Polonica, Vo!. 52, p. 53-68.

Smalley, 1. J., and Unwin, D . J. J 968. The formation and shape of drumlins a nd their distribution and orientatio n in drumlin fields . Journal of Glaciology, Vo!. 7, No. 51, p. 377-90.