Huddart, D. & Glasser, N.F. 2007. Quaternary of Northern England. Geological Conservation Review Series No. 25, JNCC, Peterborough, ISBN 1 86107 490 5.
The original source material for these web pages has been made available by the JNCC under the Open Government Licence 3.0. Full details in the JNCC Open Data Policy
J. Innes
This site lies just within the Devensian ice advance limit in the Cleveland Hills, North Yorkshire. It preserves a full sequence of minerogenic and organic Late Devensian, Late-glacial and early to mid-Holocene lacustrine and peat deposits, which have been investigated by a range of litho- and biostratigraphical analyses and radiocarbon dated. Jones (1971, 1977a, b) reported the lithostratigraphical results and detailed pollen and bryophyte macrofossil analyses, and Keen et al. (1984) have published Mollusca and Ostracoda faunal assemblages. The Late Devensian deposits are included in the Bingley Bog formation by Thomas (1999). A dis-articulated Bos primigenius skeleton associated with charcoal and silt occurs in the early Flandrian sediments (Jones, 1976b). Kildale Hall has been discussed in reviews of vegetation history and early Holocene human environmental impact (Innes and Simmons, 1988; Simmons et al., 1993; Innes, 1999).
Kildale Hall is a small, steep-sided, sediment-filled depression, probably a kettlehole, in Devensian glacial and periglacial deposits (Hemingway, 1993). It lies at 168 m OD in the upper valley of the River Leven on Kildale Moor, an area that forms the watershed between the Leven and the River Esk, and which has a deep covering of glacial drift, including recessional moraine material (Gregory, 1962a, b, 1965). The Leven was formerly an eastward draining headwater of the Esk, but was diverted westwards into the Kildale valley by the deposition of an outwash barrier on deglaciation (Best, 1956; Gregory, 1962a, b, 1965; Jones, 1999). Dead-ice wastage was a feature of deglaciation in the western Cleveland Hills, with in-situ melting of ice blocks and kettlehole formation. The Cleveland Hills were glaciated in the Devensian but the higher main watershed and the southern valleys of the North York Moors were not (Wilson, 1948; Jones, 1999), and so the site lies close to the maximum Devensian ice margin.
The major investigation at Kildale Hall was conducted by Jones (1971, 1976b, 1977a, b), who completed two transects of cores across the wetland and found it to consist of two main topographical areas. A small steep-sided hollow over 6 m in depth occurs in the central part of the site, surrounded by a larger area of shallow sediments, which is uniformly about 1.5 m deep. The stratigraphical section across the site is reproduced as
Pollen analyses were conducted on two cores, core A covering the deep sequence from the central hollow and core B from the shallow sequence at the location of the Bos bones. The pollen diagram from core A, calculated as percentages of the total pollen sum, is shown as
The pollen diagram from core B at Kildale Hall is shown as
Keen et al. (1984) re-examined the deep marl and silty clay sequence from core A and extracted Mollusca and Ostracoda assemblages from the two marl deposits, although no fauna were recovered from the two silty clay units and Ostracoda were less common in the upper marl. They identified two molluscan suites. Although Mollusca were abundant in the lower marl they represented only a few aquatic bivalve and gas tropod species, with a very few terrestrial types also recorded. Lymnaea peregra and Pisidium hibernicum dominated the assemblage. The same aquatic molluscan species occurred in the upper marl also, but were greatly outnumbered by marsh and land snail counts. Among the latter, Limax spp. and Oxyloma pfeifferi were most abundant, whereas Pisidium spp. were no longer present. In the top of the upper marl and in the Carex peat, land snails are the only taxa recorded, with Nesovitrea hammonis and Punctum pygmaeum most common. Ostracoda were present in the lower marl and the lower part of the upper marl, but did not persist in the stratigraphy as long as the molluscan fauna. Two taxa, Candona candida and C. marchica, overwhelmingly dominate the assemblage.
The deep Late-glacial sequence from Kildale Hall is the most important feature of the site, with a multi-proxy data set allowing detailed environmental reconstruction from the early stage of the Late Devensian. The pollen stratigraphy in core A records an initial vegetation of pioneer, open habitat communities dominated by grasses and sedges and tundra-type herbs at the time of deposition of the lower silty clay, in an unproductive lacustrine environment, under still severe cold climate conditions. The change to a shelly marl, rich in moss remains, corresponds with pollen evidence for the spread of juniper and willow shrub–heath communities and some establishment of tree birches. A rich tall herb flora developed and the pollen and moss macrofossils recovered from the shell marl indicate a now highly productive aquatic system, with rapid silting of the lake basin, fringed by eutrophic reedswamp and rich fen vegetation (Jones, 1977a). The restricted ostracod fauna from the lower part of this shelly marl, mainly Candona candida, also points to rapid accumulation of organic-rich, pond-floor litter (Keen et al., 1984). The molluscan fauna support this and the water body at Kildale Hall in this period appears to have been poorly oxygenated and rapidly shrinking (Keen et al., 1984). Both the pollen and ostracod data record a climatic reversion in phase KA-3 and the marl body contains more minerogenic sediment. Keen et al. (1984) interpret the rise of Candona marchica in this zone and the record of Paralimnocythere cf. diebeli as indicating low temperatures. The sharp fall in Betula pollen and other woody taxa and the rise of sedge tundra herbs agrees with this climatic interpretation. Zone KA-4 can be interpreted as a return to warm climate, stable soil, interstadial conditions with spread of Betula woodland and greatly reduced open ground. Zones KA2, 3 and 4 correlate with the Late-glacial Interstadial. The double Betula peak of zones 2 and 4, and the short vegetation reversion of zone 3, mirror the evidence reported from sites in north-east England, such as Seamer Carrs (Jones, 1976a), Tadcaster (Bartley, 1962), Thorpe Bulmer (Bartley et al., 1976) and The Bog, Roos (Beckett, 1981), which cover this period. Like these other sites, Kildale Hall preserves clear evidence of the division of the interstadial into two warm phases separated by a period of colder conditions. Zone KA-5 clearly correlates with the Loch Lomond Stadial severe cold stage, with soliflucted clay sediment in the basin and dominantly Artemisia, grass and sedge tundra‑type vegetation. This phase and the succeeding Holocene amelioration of climate and spread of woodland are similar to the environmental history recorded at many sites in the region and are unexceptional (Innes, 1999). Erdtman (1927) reported a comparable long Holocene pollen record from a nearby site at Kildale Moss. The evidence from the few sites that combine pollen and faunal records, such as Bingley Bog (Keen et al., 1988) and Skipsea Withow (Gilbertson, 1984b), is analogous to that from Kildale Hall.
The importance of the Kildale Hall early Late Devensian record is given added significance by the very early radiocarbon date of 16 713 ± 340 years BP for the onset of biogenic deposition after the withdrawal of the local ice cover. The relationship of this date to dates of little more than 18 000 years BP on moss fragments in sub-till silt (Penny et al., 1969) from Dimlington in Holderness would suggest either that the maximum extension of ice cover in east Yorkshire was short lived, or that there were very local differences in the timing of ice advance and retreat in this region. The latter is most likely, as Eyles et al. (1994) have shown that deglaciation in the east Yorkshire area was locally complex, with ice-lobe surging and retreat, although McCabe et al. (1998) point out that there is evidence in the east Yorkshire lowlands for only one major ice oscillation after about 18 000 years BR McCabe et al. (1998) also quote ice-core and marine records showing that the last deglaciation cycle and retreat from the Devensian glacial ice maximum began about 21 000 years BP, but was a complex process interrupted by major climate shifts that caused ice readvance events. Significantly they conclude that a major deglaciation phase at the southern extremity of the British ice sheet occurred at about 17 000 years BP. This could lend credence to the Kildale Hall date of c. 16 700 years BP for the start of organic deposition, which otherwise seems very early, despite its location adjacent to unglaciated, nunatak terrain in the North York Moors. Other dates on basal organic material in kettleholes elsewhere in north and east Yorkshire are in the order of little more than 13 000 years BP, for example, 13 045 ± 270 years BP at The Bog, Roos in Holderness (Beckett, 1981), and 13 042 ± 140 years BP at Seamer Carrs, in the Cleveland lowlands (Jones, 1976a). At both these sites, however, there is a considerable depth of polleniferous sediment, insufficiently organic to date, beneath the dated horizon. Sediment accumulation after deglaciation clearly began significantly before 13 000 years BP at these and probably most such sites in this region (Walker et al., 1993). As the original authors acknowledged (Jones, 1977a, 1999; Keen et al., 1984) and other workers have commented (Tipping, 1991b), the very early date from Kildale Hall is almost certainly too old owing to 'hard water' error. The moss fragments dated at Kildale Hall may well have been of eutrophic aquatic taxa, easily influenced by the hard water factor. At other sites where highly calcareous sediments make the results of the technique unreliable, as at Bingley Bog in west Yorkshire (Keen et al., 1988), radiocarbon dating has been avoided. Lowe et al. (1995a) have discussed the problems of dating early Late Devensian sediments and had to reject several dates on basal aquatic macrophyte material from their site at Gransmoor in east Yorkshire. The Kildale Hall date nevertheless remains valuable in providing an age estimate for the initial stages of the Late Devensian period in this region. The true date for first organic colonization of the deglaciated terrain is probably intermediate between the Kildale date and the later dates from Seamer Carrs and The Bog, Roos. Wintle and Catt (1985), however, have reported two thermo-luminescence dates averaging 17 000 years BP for a solifluction deposit underlying till in north Humberside to the west of Dimlington. This unglaciated phase is very similar in age to the Kildale Hall radiocarbon date. A further factor is that the interpretive value of all of the conventional radiocarbon dates mentioned above is greatly compromised by their very large standard deviations. Radiocarbon AMS dating of terrestrial plant macrofossils, as advocated by Lowe et al. (1995a), would greatly improve the diagnostic value of the early Late Devensian record from Kildale Hall.
The other date of 10 350 ± 200 years BP, on manly peat adjacent to the Bos bones, is almost certainly also made too old by hard water influence, although not to such a great degree because the peat contains an early Holocene pollen assemblage. Betula and ericaceous charcoal at this level in the mire is accompanied by silt inwash and fluctuations in the pollen spectra. The evidence suggests burning of Empetrum heath and birch scrub around a small swamp-fringed lake, encouraging several weed taxa and causing some erosion of catchment soils. It is an early example of fire disturbance of vegetation in a region noted for such effects in the rest of the Holocene (Simmons et al., 1993). Dating of the bones themselves has shown their association with the disturbance effects to be false (Burleigh et al., 1983). Sinking of skeletons and other material through soft limnic sediments to an older level is not uncommon. The same process affecting the stratigraphical position of a Cervus elaphus skeleton has been reported from nearby Seamer Carrs (Tooley et al., 1982). Although not contemporaneous, the bones and the charcoal and pollen data at Kildale Hall both remain possible evidence of human activity around this wetland area in the early to mid-Holocene.
Kildale Hall is a key site for the application of integrated faunal and floral research to a complete Late-glacial sequence, with great potential for study of the pre-interstadial Late Devensian and for the deglaciation chronology of northeast Yorkshire. Improved dating control is required for that potential to be realized. The Holocene sediments contain important evidence for possible Mesolithic environmental influence.