Isotopic Evidence for Landscape use and the Role of Causewayed Enclosures During the Earlier Neolithic in Southern Britain

The nature of landscape use and residence patterns during the British earlier Neolithic has often been debated. Here we use strontium and oxygen isotope analysis of tooth enamel, from individuals buried at the Hambledon Hill causewayed enclosure monument complex in Dorset, England to evaluate patterns of landscape use during the earlier Neolithic. Previous analysis suggests that a significant proportion of the artefacts found at the site may originate from lithology of Eocene and Upper to Middle Jurassic age that the enclosures overlook to the immediate west and south. The excavators therefore argued that the sector of landscape visible from Hambledon Hill provides an approximate index for the catchment occupied by the communities that it served. Most of the burial population exhibit isotope ratios that could be consistent with this argument. Connections between Hambledon Hill and regions much further afield are also hypothesised, based on the presence of artefacts within the assemblage that could have been sourced from lithology in Somerset, Devon, and Cornwall in south-west England. However, few of the sampled individuals have strontium isotope ratios consistent with having obtained the majority of their diet from such areas during childhood. The individuals who exhibit the highest strontium isotope ratios are all adult males, whom the excavators suggest to have died during one or more episodes of conflict, following the burning and destruction of surrounding defensive outworks built during the 36th century bc. At least one of these individuals, who was found with an arrowhead amongst his ribs, did not obtain his childhood diet locally and has 87Sr/86Sr values that could be comparable to those bioavailable in the south-west peninsula. RÉSUMÉ Témoignages isotopiques de l’utilisation du paysage et du rôle des enclos à chaussée empiérrée durant le néolithique ancien dans le sud de la Grande-Bretagne, de Samantha Neil, Jane Evans, Janet Montgomery et Chris Scarre On a souvent débattu de la nature de l’utilisation du paysage et des configurations des résidences au cours du néolothique britannique ancien. Ici, nous utilisons l’analyse des isotopes d’oxygène et de strontium de l’émail des dents d’individus enterrés dans le complexe monumental à chaussée empiérrée de Hambledon dans le Dorset, Angleterre, pour évaluer les types d’utilisation du paysage au cours du néolithique ancien. Une analyse antérieure donne à penser qu’une proportion conséquente des artifacts trouvés sur le site pourrait avoir son origine dans la lithologie de l’Eocène et du jurassique supérieur et moyen que les enclos dominent immédiatement à leur ouest et sud. Les chargés de fouilles ont donc argumenté que le secteur du paysage visible depuis Hambledon Hill fournit un index approximatif pour le captage occupé par les commuanautés qu’il servait. La plus grande partie de la pouplation enterrée rprésente des taux d’isotope qui pourraient être compatibles avec cet argument. Des liens entre Hambledon Hill et des régions bien plus éloignées sont aussi envisagés sur la base de la présence d’artifacts à l’intérieur de faciès qui auraient pu provenir de lithologie du Somerset, du Devon ou des Cornouailles dans le sud-ouest de l’Angleterre. Cependant peu des individus de l’échantillon présentent des taux d’isotope de strontium compatibles avec le fait que pendant leur enfance la majorité de l’alimentation qu’ils auraient reçue serait originaire de ces contrées.Les individus qui montraient les taux d’isotope de strontium les plus élevés étaient tous des hommes adultes qui, proposent les chercheurs, étaient morts au cours d’un ou plusieurs épisodes de conflit, à la suite de l’incendie et de la destruction des ouvrages de défense, construits au cours du 6ème siècle av. J.C., qui les entouraient Au moins un de ces individus, qui fut trouvé avec une pointe de flèche entre les côtes, n’avait pas obtenu son alimentation infantile à proximité et a87Sr/86Sr , valeurs qui pourraient être comparables à celles biodisponibles dans la péninsule du sud ouest. ZUSSAMENFASSUNG Isotopen liefern Hinweise auf Landschaftsnutzung und die Rolle von Causewayed Enclosures während des frühen Neolithikums im südlichen Großbritannien, von Samantha Neil, Jane Evans, Janet Montgomery, und Chris Scarre Die Art der Landschaftsnutzung und der Siedlungsweise während des britischen frühen Neolithikums wurde oft diskutiert. Wir wenden nun Analysen von Strontium- und Sauerstoffisotopen aus dem Zahnschmelz von Individuen an, die im Monumentenkomplex der Causewayed Enclosures (Erdwerke) von Hambledon Hill in Dorset, England, bestattet wurden, um Muster der Landschaftsnutzung während des frühen Neolithikums zu bewerten. Frühere Untersuchungen legen nahe, dass ein bedeutender Teil der Artefakte, die an diesem Fundort geborgen wurden, aus Gesteinsformationen des Eozäns und der Jüngeren bis Mittleren Jurazeit stammen könnten, welche die Monumente nach Westen und Süden überblicken. Die Ausgräber sprachen sich deshalb dafür aus, dass der Abschnitt der Landschaft, der von Hambledon Hill aus sichtbar ist, eine ungefähre Größenangabe der Einzugsregion ist, die von den Gemeinschaften in Anspruch genommen wurden, die den Ort nutzten. Verbindungen zwischen Hambledon Hill und deutlich weiter entfernten Regionen werden ebenfalls hypothetisiert auf der Basis des Vorhandenseins von Artefakten im Fundensemble, die aus Gesteinsformationen aus Somerset, Devon und Cornwall in Südwestengland stammen könnten. Jedoch weisen nur wenige der untersuchten Individuen Anteile an Strontiumisotopen auf, die mit einer überwiegenden Nahrungsaufnahme aus diesen Gebieten in ihrer Kindheit übereinstimmen würden. Jene Individuen, die den höchsten Anteil an Strontiumisotopen aufweisen, sind alle erwachsene Männer, bei denen die Ausgräber annehmen, dass sie während einer oder mehrerer gewalttätiger Episoden starben, die auf das Niederbrennen und Zerstören umliegender Verteidigungsanlagen folgten, die im 36. Jahrhundert bc erbaut worden waren. Zumindest eines dieser Individuen, das mit einer Pfeilspitzen zwischen seinen Rippen gefunden wurde, hat seine Nahrung während der Kindheit nicht lokal bezogen und zeigt 87Sr/86Sr-Werte auf, die mit jenen vergleichbar sein könnten, die natürlich auf der Südwesthalbinsel verfügbar sind. RESUMEN Evidencia isotópica del uso del paisaje y el papel de los recintos con acceso durante el Neolítico inicial en el sur de Gran Bretaña, por Samantha Neil, Jane Evans, Janet Montgomery, y Chris Scarre La naturaleza del uso del paisaje y de los patrones de hábitat durante el Neolítico inicial en Gran Bretaña ha sido continuamente debatida. En este artículo empleamos el análisis de isótopos de estroncio y oxígeno del esmalte dentario de los individuos enterrados en Hambledon Hill, un recinto monumental en Dorset, Inglaterra, para evaluar los patrones del uso del paisaje durante el Neolítico inicial. Los análisis previos sugieren que una proporción significativa de los artefactos documentados en el yacimiento podrían haberse elaborado a partir de litologías del Eoceno y el Jurásico Medio y Superior accesibles en los entornos inmediatos al sur y al este de los recintos. Por tanto, los arqueólogos argumentaron que el sector de paisaje visible desde Hambledon Hill daba una idea aproximada del espacio geográfico explotado por las comunidades que albergaba el recinto. La mayoría de la población enterrada presenta ratios isotópicos que podrían ser consistentes con esta hipótesis. También se han propuesto conexiones entre Hambledon Hill y regiones más alejadas, basándose en la presencia, entre los conjuntos de materiales, de artefactos que podrían haber sido realizados a partir de las litologías identificadas en Somerset, Devon y Cornwall en el suroeste de Inglaterra. Sin embargo, son pocos los individuos muestrados que presentan valores isotópicos de estroncio compatibles con una dieta procedente de estas áreas durante la infancia. Los individuos que exhiben las mayores proporciones de isótopos son adultos masculinos, cuyas muertes se supone que fueron resultado de uno o más episodios de conflicto, después de la quema y destrucción de las estructuras defensivas circundantes en el siglo 36 bc. Al menos uno de estos individuos, que fue encontrado con una punta de fecha entre sus costillas, no refleja una dieta infantil local y presenta valores de 87Sr/86Sr que podrían ser comparables con los disponibles en el sudoeste de la península.


ARCHAEOLOGICAL EVIDENCE FOR LANDSCAPE USE & THE ROLE OF CAUSEWAYED ENCLOSURES DURING THE EARLIER NEOLITHIC
Causewayed enclosures began to be constructed in southern Britain from the late 38th century BC (Whittle et al. 2011, 878-5;Bayliss et al. 2011, 684). The role of these earthworks, which are characterised by single or multiple concentric circuits of interrupted ditches, has been heavily debated (eg, Evans 1988;Edmonds 1993, 102-34;Thomas 1999, 38-45;Whittle et al. 2011, 5-12;Albrecht 2011, 8-50). The presence of substantial amounts of pottery, flint knapping debris, and animal bones within the ditches initially prompted excavators to suggest they were settlements (eg, Leeds 1928, 466;Curwen 1931, 108-9;Crawford 1933, 344;1937, 210;Wheeler 1943, 81;Case 1982, 2;Avery et al. 1982, 25;Robertson-Mackay et al. 1987, 59-60). However, in recent decades with the exception of earlier Neolithic enclosures found in the far south-west of England that may have been used for permanent settlement (Mercer 1981;2001, 43-44; although see Davies 2010, 162-4, 176-7), interpretations suggest that causewayed enclosures were monuments which hosted temporary gatherings, playing a role in bringing together communities who usually resided elsewhere (eg. Smith 1965, 19;Thomas 1999, 42;Oswald et al. 2001, 123-6, 132;Cummings 2008, 142;Beadsmoore et al. 2010, 129;Whittle et al. 2011, 893-5;Thomas 2016, 7, 12). The presence of natural silting at several of these sites, interspersed with features that may demonstrate the ditches were intermittently recut, could indicate that visits to causewayed enclosures were episodic and may have been seasonal (eg, Smith 1965, 7, 20;Mercer 1988, 94;Mercer & Healy 2008, 755;Pryor 1998, 364;Legge 2008, 554). Archaeological evidence also suggests that many of the artefacts found within the enclosure ditches were selectively deposited and that the butchered remains of cattle, also frequently found within enclosure ditches, could also be associated with feasting activity (eg, Smith 1971, 100;Whittle et al. 1999, 357;Evans & Hodder 2006, 319;Mercer & Healy 2008, 755, 762;Darvill et al. 2011, 139, 195;Thomas 2016; although see Parmenter et al. 2015). The presence of both articulated formal burials and disarticulated human remains within the enclosure ditches demonstrates that these sites were also associated with mortuary rites and the commemoration of the dead (eg, Drewett et al. 1977, 225-6;Pryor 1998, 362;Mercer & Healy 2008, 759-60). Archaeological evidence for settlement patterns during this period has also been the subject of competing interpretations. Discovery of substantial timber buildings of early 4th millennium BC date has been used by some authors to argue that early agriculturalists were fully sedentary and heavily reliant on intensive mixed farming, with individuals obtaining all their resources through keeping livestock and cultivating cereals close to permanently occupied settlements (eg, Rowley-Conwy 2003;2004, 96;Rowley-Conwy & Legge 2015). Others, however, suggest there may have been greater temporal and regional diversity in subsistence and settlement strategies during the course of the Neolithic (eg, Thomas 2013, 418). In Britain, substantial timber buildings are part of a diverse range of evidence for occupation, that also includes pits, lithic scatters, and more ephemeral structural remains (eg, Anderson-Whymark & Thomas 2012;Brophy 2015). The latter are frequently interpreted as temporary camps and could suggest that some members of early farming communities were residentially mobile, moving episodically between occupation sites and visiting a variety of different geographical locations to obtain dietary resources (eg, Pollard 1999, 82;Whittle 1997, 21;2003, 43;Garrow et al. 2005, 155). Some authors argue that patterns of land use and mobility may also have been structured around visitation of causewayed enclosures and suggest that these monuments 'acted as staging posts in an annual cycle of movement around loosely defined territories' (Oswald et al. 2001, 119). Rather than Neolithic communities obtaining all of their resources through year round sedentary intensive mixed farming at permanently occupied settlements, these authors propose that patterns of land use, subsistence, and mobility were complex and socio-culturally variable (eg, Thomas 2013, 411;Leary & Kador 2016).
Analysis of material culture and the derivation of raw materials that were used to manufacture many of the artefacts found at causewayed enclosures, such as pottery and worked stone, has also been employed as a proxy for reconstructing patterns of land use. Causewayed enclosures are frequently located on the slopes of elevated promontories (Oswald et al. 2001, 91, 109-10), and are sometimes found in pairs, situated side by side on adjacent spurs of the same hilltop (ibid., 112-13;Allen et al. 2008;Healy 2008, 3;Darvill et al. 2011, 196;Dixon et al. 2011, 465). Some researchers suggest that the contrasting form and fabric of artefacts found in adjacent enclosures may indicate that each had a different functional role (Allen et al. 2008, 308-12). However, at the Hambledon Hill complex in Dorset, England, which includes two early Neolithic long barrows and two causewayed enclosures, a larger main enclosure and the smaller Stepleton enclosure situated side by side on adjacent spurs of the hill (Fig. 1), analysis of raw materials used to manufacture the majority of artefacts found within the adjacent enclosures indicates that these may have been sourced from the sector of landscape each enclosure overlooks (Smith et al. 2008, 646). Based on this discovery, the excavators propose that each enclosure could have served a distinctive social group who occupied a specific sector of the landscape (Roe 2009, 28) and that the immediate sector of landscape visible from each enclosure provides an approximate index of the catchment occupied by the community it served (Healy 2004, 31;Mercer & Healy 2008, 767).
The Hambledon Hill complex was the subject of a major campaign of rescue excavation between 1974 and 1986 (Mercer & Healy 2008, 11;Mercer 1988;1980). Bayesian modelling of radiocarbon dates THE PREHISTORIC SOCIETY suggests early Neolithic activity on the hill began 3685-3640 cal BC and ended 3345-3305 cal BC (95% probability, OxCal v.3.10; Healy et al. 2011, 145; also see Bayliss et al. 2008). The architecture of the very earliest dated phases of the complex includes the south long barrow and the excavators suggested that the morphology of this monument bears affinities to the architecture of long barrows found on the Cretaceous Chalk downs to the east ( Fig. 2; Mercer & Healy 2008, 766;Mercer 2006, 70;). However, despite being located in very close proximity to the Chalk, to the immediate east and north-east (Fig. 2), few of the objects found at Hambledon Hill were manufactured from Chalk or Sarsen, sources of which lie in this direction (Roe 2008, 633;Mercer & Healy 2008, 767;Roe 2009, 27 Zienkiewicz 1999, 286;Bayliss et al. 2011, 762-3) was only a minor part of the ceramic assemblage at Hambledon (Smith 2008a, 592; also see Pioffet 2015). Instead, analysis of material culture suggests that, for the majority of the period Hambledon Hill was in use, it was closely connected to the area of landscape that lies to the south and west. Ceramics found at the site reflect styles common to the south-western region of England (Healy 2004, 31;2006, 11;Mercer & Healy 2008, 591, 767). The larger main enclosure overlooks the landscape to the west (Fig. 1). Analysis of clays used to manufacture the pottery found in this enclosure suggests the majority could have been sourced from the Upper-Middle Jurassic lithologies that lie in this direction ( Fig. 2): pottery fabric groups 7, 8, and 2 may have been manufactured from Kimmeridge Clay and Oolitic Limestone, which crop out to the west of the hill (Healy 2006, 11;Smith 2008a, 587, 595-6;Darvill 2008, 615, 617, 620-1). Many of the worked stone objects found within the main enclosure may also originate from sources that lie in this direction, with querns frequently being manufactured from Greensand, the closest source of which is located to the immediate west of the hill ( Fig. 2; Roe 2008, 632-3).
In contrast to the main enclosure, the Stepleton enclosure ( Fig. 1), situated on the adjacent spur of the hill, faces toward the coastal zone of southern Dorset. Analysis of objects suggests that both the clays used to make ceramics (fabric group 6) and worked stone found within this enclosure may derive from lithology of Eocene age located in this direction, close to the coast, approximately 25 km away (near to Wareham, Dorset, Fig. 2;Roe 2008, 633;2009, 28-9; also see Smith 2008a, 587, 595;Darvill 2008, 619;Smith et al. 2008, 646;Mercer & Healy 2008, 767). High densities of recorded finds along the coastal zone of southern Dorset indicate this region may have been a particular focus for activity during the Early Neolithic (Field 2008, 46-8). Analysis of lithics found at Hambledon Hill, which were manufactured from chert, suggests these could also have been sourced from a similar area (Saville 2008, 651).
Links between Hambledon and areas within the west and south-west of England are also implied by the presence of other materials that were imported from much further afield in this direction. Many of the quernstones found at the site were manufactured from Old Red Sandstone (Roe 2008, 632-3;Smith et al. 2008, 645-6). Devonian Old Red Sandstone crops out in several areas of Britain (Barclay et al. 2005, 3-4), the closest sources to Hambledon Hill being in Somerset and north Devon, c. 40 km away to the west. Connections even further afield, are also implied by the presence of Gabbroic pottery, which was imported to Hambledon from the Lizard Peninsula in Cornwall (Smith 2008a, 587, 590;Darvill 2008, 615). The majority of stone axes and adzes found at the complex also originate from sources in Cornwall (Smith 2008b, 630). Use of the causewayed enclosure complex at Hambledon was long-lived, lasting over 300 years, with both the adjacent enclosures on the hill remaining in use for much of this time (Healy et al. 2011, 145). Consistency in the sourcing of artefacts throughout this period suggests that links between Hambledon and regions to the west and south were maintained over time (Smith et al. 2008, 646;Mercer & Healy 2008, 756-7).
Whilst being significant locations in the landscape that may have played a role in social gatherings and bringing together communities, some enclosures also appear to have been the focus of episodic conflict (Oswald et al. 2001, 128-30;Bayliss et al. 2011, 718;Whittle et al. 2011, 520). This interpretation arises from the frequent discovery of arrowheads and evidence for burning at enclosures, particularly those located within south-western England (such as Maiden Castle, Dorset: Sharples 1991, 51; Crickley Hill, Gloucestershire: Dixon 1988, 82;, 460: Hembury, Devon: Mercer 1999and Carn Brae, Cornwall: Mercer 1981, 68;2003, 61). The excavators of Hambledon Hill suggest that the deaths of four individuals, all adult males, may have occurred during episodes of conflict at the site. The deaths of two of these individuals appear to have been associated with the burning of outworks that were built to surround the site (Mercer & Healy 2008, 760-1). The excavators suggest individual ST79 2726, who was found on the base of the inner Stepleton outwork ditch: 'may have been the victim of the catastrophe in which the defences were fired' during the mid-36th century (Healy et al. 2011, 140-1;cf. Mercer & Healy 2008, 408), whilst the death of individual ST81 3181, who is dated to a similar period and was found in a pit containing scorched rubble and burnt clay, may also have been associated with this event (Mercer & Healy 2008, 275, 408). The deaths of both of these individuals appear to have been shortly followed by that of a third adult male (ST80 1875), who died 3630-3360 cal BC S. Neil et al. ISOTOPIC EVIDENCE, LANDSCAPE USE & CAUSEWAYED ENCLOSURES, S. BRITAIN (95% confidence) and was found lying within the Stepleton outworks, with an arrowhead amongst his ribs (Healy et al. 2011, 129, 142-3). A fourth individual, who was also found within the Stepleton outworks with an arrowhead amongst his ribs, may have died later in the history of the complex, at 3500-3130 cal BC (95% confidence, individual ST78 2755, Healy et al. 2011, 128, 143;McKinley 2008, 512

Strontium isotope analysis
Strontium has four naturally occurring isotopes, atoms of the same chemical element that differ in atomic mass as they possess a different number of neutrons: 84 Sr, 86 Sr, 87 Sr, and 88 Sr (Faure 1986, 118). Strontium-87 is radiogenic, a product of the radioactive decay of rubidium-87 ( 87 Rb; Faure & Mensing 2005, 76;Dickin 2005, 42-3). Unlike the other isotopes of strontium, the amount of 87 Sr gradually increases over geological time scales and 87 Sr/ 86 Sr therefore varies geographically according to the age and initial isotope composition of bedrock. Use of strontium isotope analysis for geographic provenancing is based on the principle that humans and animals derive their dietary strontium from biosphere sources. Strontium weathers from rocks, entering soils and ground waters where it becomes available to plants (Capo et al. 1998, 202-3) and is transferred up the food chain and becomes incorporated into the mammalian skeleton (Montgomery 2002, 17, 24, 36;2010, 328;Bentley 2006, 141;Slovak & Paytan 2011, 743-4). Conventionally measured 87 Sr/ 86 Sr values do not vary significantly between trophic levels (Graustein 1989, 492;Blum et al. 2000) and, as tooth enamel is highly resistant to diagenesis, the isotope ratios in teeth are considered to reflect sources to which an individual was exposed whilst the tooth was mineralising (Budd et al. 2000;Montgomery 2002;Madgwick et al. 2012, 741 Sr/ 86 Sr values in teeth that form at successive stages of childhood to mapped bioavailable values can as such be used to evaluate whether an individual derived dietary resources from the area in which they were buried or whether they may have obtained their childhood diet from further afield (Bentley 2006;Montgomery 2010;Slovak & Paytan 2011, 743-4). The strontium isotope ratios that human individuals exhibit can also be compared to 87 Sr/ 86 Sr ranges bioavailable on lithologies from which artefacts (such as clays for pottery or worked stone, see above) may have been sourced.
Strontium isotope ratios within enamel are therefore a direct proxy for the geographical location from which an individual obtained their childhood diet. However, use of this methodology is also subject to limitations: when interpreting results consideration must be given to the fact that different geographical areas may have the same bioavailable range and can confer similar 87 Sr/ 86 Sr values. An individual with an 87 Sr/ 86 Sr value comparable to the local range at the site where they are buried may not, therefore, have obtained their diet locally and could have inhabited another region with the same biosphere value. This is similarly problematic when applying the technique to study consecutively mineralising molars: if an individual exhibits the same 87 Sr/ 86 Sr value in teeth that mineralise at successive stages of childhood they could either have obtained their dietary resources from the same area throughout a prolonged period during early life; alternatively they could have exploited two different geographically separate areas with similar bioavailable ranges.
For this reason there are limitations to use of this technique at Hambledon Hill, since the two immediate geographical areas to which each enclosure may have been linked through artefact analysis have overlapping 87 Sr/ 86 Sr bioavailable ranges. Upper Jurassic Kimmeridge Clay formation may have been the source for the clays used to make pottery deposited within the main enclosure ( Fig. 2; see above) and samples of plants and water taken on this formation in southern Britain record measured biosphere 87 Sr/ 86 Sr values between 0.7086 and 0.7091 (n = 10, mean 0.7088 ± 0.0003, 2σ; Warham 2011, 79). The latter THE PREHISTORIC SOCIETY lies close to the Weymouth Member of the Oxford Clay Formation, which can record biosphere values of 0.7092-0.7097 (n = 6, mean 0.7094 ± 0.0003, 2σ; Warham 2011, 79). The region of southern Dorset to which the excavators suggest that the Stepleton enclosure was linked (Roe 2008, 633;Smith et al. 2008, 646) has been associated with a bioavailable range of 0.7090-0.7100 ( Fig. 2; Evans et al. 2010). As such, if individuals exhibit 87 Sr/ 86 Sr values between c. 0.7090 and 0.7100 they could have sourced their diet from either of the two immediate regions to which the enclosures have been linked through analysis of material culture.
The 87 Sr/ 86 Sr ranges that are bioavailable on these lithologies may also overlap with the predicted bioavailable range at Hambledon Hill itself and that associated with the Cretaceous Chalk to the immediate east of the site. Like the lithologies that lie to the immediate east, Hambledon Hill is composed of Chalk (British Geological Survey (BGS)/Natural Environment Research Council (NERC) 2016). In Britain, samples of plants and water taken on Chalk record 87 Sr/ 86 Sr values between 0.7074 and 0.7087 (mean 0.7080 ± 0.0008, 2σ, n = 14; Evans 2010; Warham 2011, 124), in areas of high rainfall this may extend close to 0.7092 (Montgomery et al. 2007(Montgomery et al. , 1503Montgomery 2010, 333; although see Warham 2011, 161-2). However, superficial deposits that are characteristic of Clay-with-flints have also been found on Hambledon Hill, although due to modern ploughing activity the past extent of these deposits at this site is uncertain (Mercer & Healy 2008, 1-5). They are also recorded on the Chalk directly east of the hill (BGS/ NERC 2016). These deposits have been shown to further extend the bioavailable range on the Chalk (Warham 2011, 123-4): in southern Britain the maximum biosphere 87 Sr/ 86 Sr value currently recorded on Clay-with-flints in an area of Chalk is 0.7098 (Warham 2011, 120;Fig. 2).
In contrast to Chalk and Clay-with-flints to the east, or to Kimmeridge Clay to the immediate west, lithology that lies further afield to the west and south-west of Hambledon is associated with higher bioavailable values (Fig. 2) Warham 2011, 79, 82-3). Whilst biosphere 87 Sr/ 86 Sr values higher than 0.7105 are routinely associated with lithology of Devonian and Carboniferous age, such as that found in Somerset and north Devon to the west and south-west of Hambledon Hill (Fig. 2), and with lithology of similar age beyond this in Cornwall Montgomery et al. 2006).

Oxygen and carbon isotope analysis
The isotope ratios of light elements, such as oxygen ( 18 O/ 16 O) and carbon ( 13 C/ 12 C), have a relatively low atomic mass and can be readily altered as a result of mass dependent fractionation, during biological, chemical, and physical processes (Hoefs 2009, 35-6). The ratio of 18 O/ 16 O (expressed as δ 18 O, see methodology below) varies geographically, due to discrimination between the heavier and lighter isotopes of oxygen that is induced by evaporation and condensation during the hydrological cycle (Sharp 2007, 74-80). The oxygen isotope composition of ground water, which ultimately derives from meteoric water, is influenced by factors such as temperature, latitude, altitude, and distance from the coast (Mook 2005;Gat 2010, 58-63). Britain receives most of its rainfall from a westerly direction and modern groundwaters in western Britain therefore record higher δ 18 O values than those in eastern Britain (Darling et al. 2003, 189-90). A statistically significant difference between the mean δ 18 O values measured in tooth enamel of multiperiod archaeological populations buried in western Britain (18.2 ± 1‰, 2σ) from those buried in eastern Britain (17.2 ± 1.3‰, 2σ) may reflect the underlying geographic variation in the oxygen isotope composition of local drinking water between these two areas (Evans et al. 2012, 759). These ranges were determined using the phosphate (PO 4 3-) fraction of tooth enamel (δ 18 O phosphate ). The structural carbonate (CO 3 2-) fraction of enamel was utilised by the present study. In tooth enamel of Holocene age, the structural carbonate fraction is considered to be resistant to diagenesis and to be equally suitable for analysis (Zazzo 2014). Chenery et al. (2012) suggest that, as values of both fractions are well correlated, conversion between the two may be undertaken to facilitate comparison between published δ 18 O phosphate and δ 18 O carbonate datasets (see below).
When interpreting the results of oxygen isotope analysis, consideration needs to be given to the role of culturally mediated behaviour: both culinary practices and consumption of ingested fluids that have been subject to fractionation through biological processes  Kornexl et al. 1997, 22;Lin et al. 2003Lin et al. , 2193Camin et al. 2008Camin et al. , 1695 or breast milk: Roberts et al. 1988;Wright & Schwarcz 1998;Britton et al. 2015) may play a role in altering δ 18 O values, conferring higher values relative to local drinking water (Daux et al. 2008(Daux et al. : 1145Brettell et al. 2012).
Isotope analysis of the structural carbonate fraction of enamel simultaneously yields carbon isotope ratios (δ 13 C carbonate ) which provide additional dietary information. The use of carbon isotope analysis for this purpose exploits the large variation in natural abundance of the isotopes of carbon ( 13 C/ 12 C) between plants that use the two dominant (C 3 or C 4 ) photosynthetic pathways during fixation of CO 2 energy and the large variation in δ 13 C values between terrestrial C 3 and marine ecosystems (Lee-Thorp 2008; Schwarcz & Schoeninger 2011; Sponheimer & Cerling 2014). Current understanding of dietary composition in the British Neolithic is based on analysis of carbon and nitrogen (δ 13 C and δ 15 N) values in bone collagen, which predominantly reflect the protein component of the diet and indicate that this was overwhelmingly derived from C 3 terrestrial sources (Richards & Hedges 1999, 893;Richards et al. 2003;Hamilton and Hedges 2011;Schulting 2013;. Analysis of carbon and nitrogen isotope values from bone collagen at Hambledon Hill has also previously demonstrated that the population at this site obtained dietary protein from terrestrial sources (Richards 2000, 128;2008, 524). In contrast to bone collagen, δ 13 C carbonate values in bioapatite reflect the isotope composition of the diet as a whole (Ambrose & Norr 1993, 2;Jim et al. 2004). Individuals who obtain all of their diet, including carbohydrates and lipids, from C 3 terrestrial sources may be predicted to have δ 13 C carbonate values between approximately -17.0 and -14.0‰ (Kellner & Schoeninger 2007;Froehle et al. 2012).

Sample selection
Despite the size of the excavated osteological assemblage from Hambledon Hill taphonomic factors influence sample selection and hence the representativeness of isotope results. As discussed above, strontium isotope analysis is undertaken on tooth enamel, therefore ante-mortem tooth loss or severe attrition to enamel can preclude sampling. Mortuary practice is also influential in determining whether dentition is present and therefore whether an individual will be represented within the sampled group. The human burial assemblage from Hambledon Hill is estimated to contain a minimum number of 75-77 individuals (McKinley 2008, 490). Not all of these individuals, however, have dentition. The assemblage comprises skeletons in varied states of articulation (ibid., 512-14) and the presence of partly articulated skeletons and cutmarks on human bone suggest that excarnation may have been practised (ibid., 516;Mercer 1980, 63;Mercer & Healy 2008, 759). Fragmentary and disarticulated skeletal remains also exhibit signs of weathering and whilst they could represent the terminal phase of a mortuary rite that was practised within the confines of the complex itself, it is also possible that elements were curated and brought to the complex from burial contexts elsewhere (McKinley 2008, 514;Mercer & Healy 2008, 760;cf. Whittle et al. 1999, 362). Construction of the complex and its duration of use are very well dated, with dates having been obtained from short-lived material that was deposited in the ditches and from articulated skeletal remains Healy et al. 2011, 111-57). However, it remains a possibility that disarticulated skeletal elements, which are identified in Table S1(Appendix S1), are older than the contexts in which they were deposited. Were this the case, the isotope results from teeth in disarticulated mandibles could represent a population older than, or ancestral to, the community who deposited them.
As the burial assemblage contains fragmentary disarticulated remains, care had to be taken to avoid the potential for duplication of isotope results through sampling of cross-matching elements belonging to the same individual. To avoid this, a consistent strategy of sampling the left mandibular dentition was adopted. Maxillary teeth were not sampled. Loose teeth or teeth from right mandibular fragments were not used, unless it could be stated with confidence that they derived from an individual who had not previously been sampled. This strategy was only varied if it was possible to determine that the same individual would not be sampled twice (for instance, teeth from the right-hand side of a complete mandible could be used if those on the left had been lost ante-/post-mortem). As noted above, once formed, enamel is considered to be highly resistant to diagenesis; however, following Montgomery (2002, 128) all the teeth selected were completely mineralised and none of those sampled exhibited any visual evidence of poor preservation (carious lesions, discolouration, or staining to the enamel).

THE PREHISTORIC SOCIETY
Dentition that met these criteria was sampled, wherever present, from all excavated Neolithic contexts, including both causewayed enclosures (the main enclosure and that on Stepleton spur), the south long barrow, and the Hanford Outworks and the inner east cross dyke that surround the causewayed enclosures (Appendix S1; Fig. S1; Table S1). A total of 22 individuals, just under a third of the minimum number of individuals estimated to be present within the burial population, possessed dentition that was suitable for sampling following these criteria. Wherever present, samples were also taken from consecutively mineralising molars, to facilitate comparison of isotope ratios at different stages of childhood and adolescence. Development of the crown of the first permanent adult molar commences in utero, just prior to birth and completes by c. 4.5 ± 0.5 years of age, whilst the second molar crown forms between 2.5 ± 0.5 and 8.5 ± 0.5 years (AlQahtani et al. 2010;Hillson 2014, 31, 55-6). The timing of third molar formation is most variable (Liversidge 2008, 313), with initial cusp formation taking place at c. 8.5 ± 0.5 years and crown completion by c. 14.5 ± 0.5 years (AlQahtani et al.

Sample preparation and laboratory analysis
A total of 43 samples were processed following procedures developed by Montgomery (2002, 131-8). Surface enamel was thoroughly abraded using a tungsten carbide dental burr. Enamel chips were then cut using a flexible diamondedged rotary saw and surfaces, again mechanically cleaned using a dental burr to remove any adhering dentine. The resulting chips of core enamel were transferred to clean sealed containers. Dental saws and burrs were cleaned ultrasonically for 5 minutes and rinsed three times in high purity de-ionised water between preparation of samples.
Core enamel chips were transferred to the Class 100, HEPA-filtered laboratory facilities at the Natural Environment Research Council Isotope Geosciences Laboratory (NIGL, Keyworth, Nottingham, England). Enamel chips were cleaned ultrasonically and rinsed in high purity water (Millipore Alpha Q). They were then dried, weighed into pre-cleaned Teflon beakers and spiked with a known amount of 84 Sr tracer solution to obtain strontium concentrations. Each sample was dissolved in Teflon distilled 8M HNO 3 . Samples were converted to Chloride using 6M HCl, taken up in titrated 2.5M HCl and pipetted onto ion exchange chromatography columns. Strontium was separated with Dowex ® (AG50-X8) resin (200-400 mesh). Procedural blanks were below 100 pg. Samples were loaded on to Re filaments using a method adapted from Birck (1986, 79). Strontium isotope composition and concentrations were then determined by thermal ionisation mass spectrometry (TIMS) using a ThermoTriton automated multi-collector mass spectrometer. To correct for fractionation during the process of mass spectrometry 87 Sr/ 86 Sr values are normalised to the accepted value for 88 Sr/ 86 Sr = 0.1194. During the period of this study the machine gave a value for the international standard for 87 Sr/ 86 Sr (NBS 987) of 0.710253 ± 0.000012 (2σ, n = 350).
Preparation of core enamel chips for δ 18 O and δ 13 C analysis was undertaken using the same methods employed above for strontium isotope analysis. Following preparation chips of core enamel were transferred to NIGL where they were powdered. Oxygen (δ 18 O carbonate ) and carbon (δ 13 C carbonate ) isotope ratios in the carbonate fraction of enamel were determined using the method outlined in Chenery et al. (2012, 310). Isotope ratios are reported as delta (δ) values, in parts per thousand (per mil; ‰) normalised to the VPDB scale using an in-house carbonate reference material, Keyworth Carrera Marble (KCM) which is calibrated against NBS19 certified reference material. Analytical reproducibility for this run of KCM was ±0.09‰ (1σ, n = 14) for δ 18 O and for δ 13 C ± 0.04‰ (1σ, n = 14

Results
Seventeen of the 22 sampled individuals have 87 Sr/ 86 Sr values between 0.7074 and 0.7098 ( Fig. 3; Appendix S1; Table S1; Fig. S1). This 87 Sr/ 86 Sr range is common to the majority of individuals from a variety of different excavated contexts, including the main enclosure, the Stepleton spur enclosure and south long barrow and to individuals of different age and sex (where this information is available, following McKinley 2008). The majority of both those individuals who are represented by disarticulated mandibles and those whose skeletal remains were found in an articulated state exhibit values in this range (Table S1). With the exception of the adult males, whose deaths are suggested to have been associated with a specific episode during the history of the complex (see below), the majority of individuals who have been directly radiocarbon dated also possess values within this range. For example, both an adult male (ST79 2025) who is dated early in the history of the site to 3710-3530 cal BC and a child who died at 5-6 years of age (HH76 3046) and was buried toward the end of use of the complex (3500-3090 cal BC, 95% confidence: Only five individuals possess at least one tooth with an 87 Sr/ 86 Sr value higher than 0.7098. All are adults. Two of these are represented by disarticulated fragmentary remains: individual ST78 1100/ST78 204, who may be female, was excavated from the inner Stepleton outwork (McKinley 2008, 487) and has 87 Sr/ 86 Sr values higher than 0.7105 in both their first and second permanent molars. Enamel from the permanent molar of individual HH75 1340, whose fragmentary mandibular remains were found in the inner east cross dyke, gave an 87 Sr/ 86 Sr value of 0.71029. The other three are adult males who may have suffered a violent death in the mid-later 36th century BC (ST79 2726, ST81 3181 and ST80 1875; illustrated as black symbols in Figs 3 and 4). Individual ST80 1875, who was found with an arrowhead amongst his ribs, has the highest 87 Sr/ 86 Sr values and the highest strontium concentration (>100 ppm) in the sampled burial population, with enamel from both their first and second permanent molar teeth giving strontium isotope ratios higher than 0.7105 (Figs 3 & 4;Mercer & Healy 2008, 325). In contrast, the fourth adult male, also found in the Stepleton outworks with an arrowhead amongst his ribs but who may have died  et al. 2011, 128, 143), has the lowest 87 Sr/ 86 Sr value (0.7077) within the sampled population, with enamel from all three permanent molars recording values below 0.7085. Enamel δ 18 O carbonate values range between 26.8‰ and 28.7‰ (mean 27.6 ± 0.5‰, 1σ, n = 43). With the exception of early forming deciduous teeth and first molars which more frequently plot with values that are higher than 28.0‰ (crosses in Fig. 4), the majority of enamel samples gave δ 18 O carbonate values between 27.0‰ and 28.0‰. This range is common amongst sexed males and females (McKinley 2008, 478-9; Table S1) and to both articulated and non-articulated individuals from different contexts, from Stepleton spur, the main enclosure, long barrow and inner east cross dyke. The δ 13 C carbonate values range between -16.8‰ and -14.2‰ (mean 15.9 ± 0.5‰, 1σ, n = 43; Table S1). There is no discernible variation in δ 13 C carbonate values with tooth type, with 87 Sr/ 86 Sr or δ 18 O carbonate values, or with burial context or sex. All enamel samples from Hambledon Hill fall within the range of values that may be expected for individuals who had a diet dominated by use of C 3 terrestrial resources. This is consistent with previous observations based on carbon and nitrogen isotope analysis of bone collagen from this site, which showed that the population also obtained their dietary protein from terrestrial sources (Richards 2000, 128;2008, 524). DISCUSSION The presence of artefacts at Hambledon Hill that were manufactured from imported materials originating from at least 40 km away within regions such as Somerset, Devon, and Cornwall, suggests there were long distance connections between the site and the south-west peninsula of England (Smith 2008a, 587, Fig. 4 Fig. 2), most of the burial population do not exhibit strontium isotope ratios consistent with having sourced the majority of their childhood diet from these regions in the south-west. Rather than routinely exploiting more distant radiogenic terrains, the majority of the sampled burial group have values that fall within locally bioavailable 87 Sr/ 86 Sr ranges ( Fig. 2; Montgomery et al. 2006;Evans et al. 2010;Warham 2011). Although alternative areas further afield also afford similar bioavailable 87 Sr/ 86 Sr values (see below), a large proportion of the artefact assemblage may originate from lithologies that the causewayed enclosures directly overlook, within approximately 30 km of Hambledon Hill, to the immediate south and west (Smith et al. 2008, 645-6;Mercer & Healy 2008, 767). Individuals who plot with strontium isotope ratios between 0.7086 and 0.7091 have values that are comparable to those recorded on Kimmeridge Clay formation (mean 0.7088 ± 0.0003, 2σ, n = 10; Warham 2011: 79). This crops out to the immediate west of the hill and was used to manufacture a large proportion of the pottery deposited within the main enclosure (Smith 2008a, 587, 595 -6;Darvill 2008, 620-1). Lithology of Eocene age in southern Dorset (near Wareham, Fig. 2), which could have been the source for much of the worked stone found at Hambledon Hill (Roe 2008, 633;Smith et al. 2008, 646), has also been associated with a similar bioavailable 87 Sr/ 86 Sr range, approximately 87 Sr/ 86 Sr 0.7090-0.7100 ( Fig. 2; Evans et al. 2010). Individuals who plot with 87 Sr/ 86 Sr values between c. 0.7090 and 0.7100 could therefore have sourced the majority of their diet from either of the immediate areas to the west and south, to which the enclosures are linked through derivation of artefacts.
Few objects made of Chalk or Sarsen were found at Hambledon Hill (Mercer & Healy 2008, 767;Roe 2008, 633). The excavators therefore suggest that connections between the site and this lithology, to the immediate east, were limited (Fig. 2). However, several individuals within the burial population have low 87 Sr/ 86 Sr values that are comparable to those bioavailable on Chalk: in southern Britain this routinely records bioavailable values, between 0.7074 and 0.7087 (mean 0.7080 ± 0.0008, 2σ, n= 14 ;Warham 2011, 124). Strontium isotope ratios in this range have previously been recorded amongst individuals buried at Monkton-up-Wimborne, on Chalk just to the east in Cranborne Chase, dated later in the 4th millennium BC (Montgomery et al. 2000, 375;Healy et al. 2011, 156). The possibility that those individuals buried at Hambledon who have 87 Sr/ 86 Sr values below c. 0.7085 obtained their diet from a similar area on the Chalk cannot be ruled out (Figs 2-4), while those who exhibit values up to~0.7098 may also have obtained their dietary resources from the immediately local Chalk, or Clay-with-flints (see above).
Although samples of plants and water taken on Chalk record low 87 Sr/ 86 Sr values, below 0.7085, other marine carbonates such as Oolitic Limestone, Greensand and Gault Formation, which crop out to the west of the hill (Fig. 2) could, alternatively, confer similarly low biosphere values: in southern Britain biosphere samples taken on Oolitic Limestone can record strontium isotope ratios between 0.7076 and 0.7092 (mean 0.7086 ± 0.0004, 1σ, n = 17; Montgomery et al. 2006Montgomery et al. , 1628Chenery et al. 2010, 155;Warham 2011, 79, 103; for values on Greensand and Gault see Warham 2011, 79). Individuals who exhibit strontium isotope ratios below 0.7085 (Figs 3 & 4) could similarly have obtained their dietary resources on these lithologies. Analysis of the ceramics found at Hambledon suggests that Oolitic Limestone may have been used to manufacture pottery fabric group 2 (Smith 2008a, 587, 595-6;Darvill 2008, 615, 617), whilst Greensand was also used to make many of the quern stones (Roe 2008, 632).
Discussion of the range of strontium isotope ratios that the Hambledon burial population exhibit has focused on comparison of 87 Sr/ 86 Sr values to bioavailable ranges on lithologies used to manufacture the artefacts. Analysis of material culture provides persuasive evidence for links between Hambledon Hill and more immediate areas of lithology in south-west England. However, the possibility that 87 Sr/ 86 Sr values, between 0.7090 and 0.7100, for example, could reflect use of more distant terrains, rather than those within the immediate vicinity of the site, should also be considered.
Strontium isotope ratios between 0.7090 and 0.7100 are widely bioavailable in eastern England, for example , or north-eastern France or the Netherlands (Willmes et al. 2013;Kootker et al. 2016). The argument that the burial population at Hambledon Hill obtained childhood dietary resources THE PREHISTORIC SOCIETY locally from the west of England could be supported by the range of oxygen isotope ratios that this burial population exhibit. If converted to δ 18 O phosphate using the equation of Chenery et al. (2012), values in second and third permanent molar enamel are in the range 18.0-19.5‰ (mean 18.5 ± 0.4‰, 1σ, n = 23), which is close to the mean δ 18 O phosphate value that Evans et al. (2012, 759) suggest to be representative of analysed burial populations in western (18.2 ± 1‰, 2σ), rather than eastern Britain (17.2 ± 1.3‰, 2σ). However, this assumes that δ 18 O values in human enamel directly reflect underlying geographical variation in the oxygen isotope composition of drinking waters and that values at Hambledon Hill have not been significantly modified as a result of culinary practice (e.g. Brettell et al. 2012), or influenced by consumption of fluids that have undergone fractionation through biological processes such as cow's milk (see above). Deciduous teeth and first permanent molars, which begin to form in utero and continue to form in the months following birth (Hillson 2014, 31, 55-6), were excluded from the above comparisons. As development of these teeth may coincide with breastfeeding it is also possible that values may be influenced by consumption of breast milk, which has a higher δ 18 O value relative to meteoric water as a result of the metabolic fractiona-tion that occurs in the mother's body (Roberts et al. 1988, R625;Wright & Schwarcz 1998, 13-14;Britton et al. 2015, 2). Unlike the majority of second and third permanent molar teeth, many deciduous teeth and first permanent molars in this study exhibit δ 18 O carbonate values that are higher than 28.0‰ (Fig.  4). These early forming teeth also have a higher mean δ 18 O phosphate value (19.0 ± 0.6‰, 1σ, n = 18), than that of the second and third permanent molars discussed above. There is a drop in δ 18 O carbonate values between enamel from adjacent permanent first and second molars, illustrated in Figure 5 by a negative difference between the first and second molars, which may also be a consequence of weaning.
A similar drop in δ 18 O carbonate values between adjacent permanent first and second molar enamel was also observed amongst another earlier Neolithic burial population, at Hazleton North long cairn, Gloucestershire (Fig. 5;Neil et al. 2016). This cairn was constructed in 3710-3655 cal BC (95% probability, OxCal v. 3.5) and the burials there may, therefore, be contemporary with the earliest phase of Neolithic activity at Hambledon Hill (Saville 1990;Meadows et al. 2007, 54). At Hazleton North, large shifts in 87 Sr/ 86 Sr values and elemental concentration between adjacent permanent molar teeth (Fig. 6)  with individuals having routinely changed the geographical location from which they sourced their diet during childhood and support the interpretation that individuals were residentially mobile (Neil et al. 2016). Individuals buried at Hambledon Hill do not exhibit such large shifts in strontium isotope ratio and elemental concentration between sampled adjacent molars (Fig. 6). The majority have similar strontium isotope ratios on adjacent teeth, which could be consistent either with individuals having obtained all their dietary resources from the same locality over a prolonged period during early life, or with exploitation of different, geographically separate areas that conferred a similar averaged 87 Sr/ 86 Sr value. For example, enamel samples from all three adjacent molars of individual ST78 2755 gave 87 Sr/ 86 Sr values below 0.7085 (labelled on Fig. 3). This individual, who may have met a violent end, died toward the end of the period that the Neolithic monument complex at Hambledon Hill was in use (Healy et al. 2011, 128, 143). Similarly low values on all three adjacent molars could suggest that this individual sourced his diet from the same geographical location from birth until about 15 years of age, at which time the crown of the third molar is usually complete (AlQahtani et al. 2010). Alternatively, this individual could have obtained his diet from geographically separate locations that have similar bioavailable 87 Sr/ 86 Sr ranges, for example, by moving backward and forward between an area of Oolitic Limestone and the Chalk downs in southern England.
By contrast, the other three adult males who could have died during a previous episode of conflict during the 36th century BC (see above ;Mercer & Healy 2008, 760-1), have the highest 87 Sr/ 86 Sr values in the sampled group (black symbols on Figs 3 & 4). These individuals have strontium isotope ratios that are higher than bioavailable ranges currently known to be associated with lithology in the immediate vicinity of Hambledon Hill: all possess at least one permanent molar tooth with an 87 Sr/ 86 Sr value greater than 0.7100 which therefore exceed values that are currently known to be bioavailable on immediately local Kimmeridge Clay and Chalk, or on lithology of Eocene age along the south Dorset coast ( Fig. 2; Evans et al. 2010;Warham 2011). Two of these individuals (ST79 2726 & ST81 3181) have strontium isotope ratios between 0.7101 and 0.7104 (Table S1). As described above, biosphere 87 Sr/ 86 Sr values up to 0.7105 can be recorded on the Peterborough Member of the Oxford Clay in southern Britain (mean 0.7104 ± 0.0001, 2σ, n = 4; Warham 2011, 79, 82-3) which crops out just over 8 km to the west of Hambledon Hill (BGS/NERC 2016). As such it is possible that individuals with values up to 0.7105 need not have obtained the majority of their diet a great distance from Hambledon Hill. Alternatively, lithologies further afield within south-western England also record comparable values, for example, samples of plants and water taken on Devonian rocks within Cornwall can give measured values between 0.7100 and 0.7110 .
The third individual, ST80 1875, who was found with an arrowhead amongst his ribs, has the highest 87 Sr/ 86 Sr values of all of those who were sampled (Figs  3 & 4). Enamel samples from both the first and second molar teeth of this individual gave 87 Sr/ 86 Sr values greater than 0.7105. According to all currently available 87 Sr/ 86 Sr biosphere data, values above 0.7105 are not known to be associated with lithologies of comparable age and composition to those that surround Hambledon Hill (Warham 2011, 79, 82; also see Evans et al. 2010). This individual could not, therefore, have obtained his dietary resources locally but derived his diet from more radiogenic sources further afield until at least 9 years of age, by which stage mineralisation of the crown of the second molar tooth is normally complete (AlQahtani et al. 2010). Although other areas within Britain, or the European mainland, can record bioavailable values higher than 0.7105 (eg Evans et al. 2010;Willmes et al. 2013), analysis of artefacts provides strong support for the existence of links between this site and lithology in the south-west peninsula (Smith 2008a, 590-1;2008b, 630;Smith et al. 2008, 645;Roe 2008, 632-3). Somerset, Devon, and Cornwall in south-western England record bioavailable values higher than 0.7105 and it is possible that this individual obtained dietary resources from these areas during childhood Evans et al. 2010). CONCLUSIONS Previous analysis of material culture found at Hambledon Hill indicates that a significant proportion of the raw materials used to manufacture ceramics and worked stone may have originated from lithology of Eocene and Upper-Middle Jurassic age, in the more immediate local area which the enclosures overlook to the south and west of the hill, within approximately 30 km (Roe 2008;Darvill 2008;Smith et al. 2008).

THE PREHISTORIC SOCIETY
The excavators therefore suggested that the immediate area of landscape visible from each enclosure provides an approximate index of the catchment which was occupied by the communities who used the site (Mercer & Healy 2008, 767;Healy 2004, 31). Whilst other areas have been considered that could provide comparable isotope ratios, the majority of the sampled group exhibit values that could be consistent with this hypothesis. Longer distance connections, between Hambledon Hill and areas further afield within the south-west peninsula of England, are implied by the presence of objects that could originate from lithology within Somerset, Devon, and Cornwall (Roe 2008;Smith et al. 2008). However, few of the individuals in the sampled group have 87 Sr/ 86 Sr values that would be consistent with having obtained the majority of their diet from these regions during childhood and adolescence. The individuals who have the highest values in the sampled group are those who the excavators suggest died during one or more episodes of conflict, which involved burning and destruction of outworks that surround the hill, during the 36th century BC Healy et al. 2011). At least one of these adult males could not have sourced his childhood diet locally. This individual, who was found within the outworks that surround the site with an arrowhead amongst his ribs, obtained his diet from further afield during early life. The individual has 87 Sr/ 86 Sr values that are consistent with those bioavailable within Somerset, Devon and Cornwall within the south-west peninsula of England, the area from which previous analysis of material culture suggests that artefacts were imported. immédiatement à leur ouest et sud. Les chargés de fouilles ont donc argumenté que le secteur du paysage visible depuis Hambledon Hill fournit un index approximatif pour le captage occupé par les commuanautés qu'il servait. La plus grande partie de la pouplation enterrée rprésente des taux d'isotope qui pourraient être compatibles avec cet argument. Des liens entre Hambledon Hill et des régions bien plus éloignées sont aussi envisagés sur la base de la présence d'artifacts à l'intérieur de faciès qui auraient pu provenir de lithologie du Somerset, du Devon ou des Cornouailles dans le sud-ouest de l'Angleterre. Cependant peu des individus de l'échantillon présentent des taux d'isotope de strontium compatibles avec le fait que pendant leur enfance la majorité de l'alimentation qu'ils auraient reçue serait originaire de ces contrées.Les individus qui montraient les taux d'isotope de strontium les plus élevés étaient tous des hommes adultes qui, proposent les chercheurs, étaient morts au cours d'un ou plusieurs épisodes de conflit, à la suite de l'incendie et de la destruction des ouvrages de défense, construits au cours du 6ème siècle av. J.C., qui les entouraient Au moins un de ces individus, qui fut trouvé avec une pointe de flèche entre les côtes, n'avait pas obtenu son alimentation infantile à proximité et a 87 Sr/ 86 Sr , valeurs qui pourraient être comparables à celles biodisponibles dans la péninsule du sud ouest.
S. Neil et al. ISOTOPIC EVIDENCE, LANDSCAPE USE & CAUSEWAYED ENCLOSURES, S. BRITAIN