The Mesolithic of the northwestern Pontic region New AMS dates for the origin and spread of the blade and trapeze industries in southeastern Europe ByPaoloBiagiandDmytroKiosak Schlagwo¨rter: Ukraine/Nordschwarzmeerraum/Krim/Mesolithikum/Chronologie/AMS-Daten Keywords: Ukraine/NorthPonticRegion/Crimea/Mesolithic/Chronology/AMS-dates ˚º8^),ß)æºB,.: VŒ&.ŁE./6),)&EB)ˇ&Ł^)&EBGB&<e/˚&ßG/9)JBºŁ$/R&BEBºBªŁ'/T96-+.EEß) Introduction because many Kiev laboratory dates (Ki) have large standarddeviationsoraresometimesofproblematic The scope of this paper is to discuss the radiocar- interpretation.5 This is why an updated radiocarbon bon chronology of the last hunter-gatherers of the curve is necessary to redefine thechronology of the northwestern Black Sea coast of the Ukraine and to differentculturalaspects,6inordertoachieveabet- contribute to the assessment of the absolute chron- ter understanding of the behaviour of the last hun- ology of the Mesolithic period in the region. From a ter-gathererswhoinhabitedacomplexlandscapeaf- geographical point of view, this territory, which has fected by many environmental changes during the a complex geological background,1 can be subdi- Pleistocene-Holocenetransition(ca12000–7000un- vided into the wide, continental steppe lowlands, calBP).7Thiswillhelpusfillagapinourknowledge and the Crimean peninsula. The latter consists of of the chronological framework, which is still under three well-defined zones: a) the northern arid construction for the Near East, Anatolia, the Balkan steppe, b) the mountainous uplands, and c) the Peninsula,EasternandCentralEurope.8 warmer, humid seashore belt. The entire region is delimited by the Danube and Prut Rivers, in the west, the Black Sea, in the south, the Molochna Landscape and habitat River and the Azov Sea coastline, in the east, and the Podillian upland and the Ukrainian crystalline The palaeovegetation of the region has been stu- shield, in the north. It covers the area of four pro- died by A. T. Artiushenko, C. V. Kremenetski, G. vinces (Odessa, Mykolaiyv, Kherson, Zaporizh’e), Pashkevich, M. Zerov and others.9 These authors and the Crimean Autonomous Republic. It repre- discussed the location of the steppe boundary sents the westernmost corner of the Great Eurasian around the end of the Pleistocene and the Holo- Steppes, which borders the Carpathian-Danube ba- cene. The present-day limit is supposed to cross sin.2 Contacts and interrelationships between the Kishinev, Pervomaisk, Kyrovohrad, Kremenchug and Balkans and the steppes have been active for mil- Poltava, while the southern one is represented by lennia. They were particularly intense during the theCrimeanfoothills.10Theevolutionofthisbound- Late Palaeolithic Aurignacian culture, the Palaeo- aryhasbeenreconstructedinthreeways:a)accord- lithic/Mesolithic transition, the Neolithisation pro- ing to most palaeogeographers the steppe zone cess,andtheCopperAge.3 was more widespread at the end of the last Glacia- The archaeology of the Late Pleistocene and tion. During the Preboreal and Boreal periods it Early Holocene of southwestern Ukraine is known covered a territory similar to that of the present, from a few excavated sites and a large number of while the woodland cover spread southwards dur- surface collections. One of the most intriguing pro- ing the Atlantic, delimiting the steppe landscape blems of the prehistory of these periods, which, in the Ukraine, are represented by many cultural as- 5 Anthony1994. pects with different types of geometric, microlithic 6 Teleginetal.2002. chipped stone tools,4 is radiocarbon chronology, 7 Korobkova1993;Cordova2007;Cordova/Lehmann2005;Der- gacev/Dolukhanov 2007; Dergacev/Dolukhanov 2008; Stanko 2007;Yanko-Hombach2007;Berger/Guilaine2009;Dolukhanov 1 Dolukhanov1979,81–83. etal.2009;Giosanetal.2009. 2 Dolukhanovetal.2009,Fig.5. 8 Thissen2000;Biagietal.2005;Dolukhanovetal.2005;Pinha- 3 Childe1925;Childe1950;Tringham1968;Tringham1971;Koz- sietal.2005;Bocquet-Appeletal.2009;Berger/Guilane2008; l//owski/Koz//lowski1986;Sherratt1997;¸.&ŁE.1999;Koz//lowski http://www.canew.org/data.html 2002; Kotova 2003; Telegin etal. 2003; Marks/Monigal 2004; 9 T&$8ł)EŒB 1970; ˇ.łŒ),Ł^ 1976; ˇ.łŒ),Ł^ 1982; Kreme- Meignenetal.2004;Skakun2005–2008;Otte2006. netski1997. 4 ˝#KEŁØ1992. 10 9.&ŁEŁ^1982. 22 PaoloBiagiandDmytroKiosak ted in this paper: hlb1-1 and hlb1-2 (ca. 7800– 6900 uncal BP). The first (ca. 7800–7400 uncal BP) should correspond to the ‘‘climatic opti- mum’’, during which the forest cover reached its maximum development and spread, while the second (ca. 7400–6900 uncal BP) is marked by a climatic worsening and aridification. In the steppes, the Atlantic sedimentation resulted in the development of grey(ish)soils heavily humu- fiedaround6000–5100 uncalBP.16 The cultural sequence Crimea The current sequence of the Crimean Mesolithic was defined by G. A.Bonch-Osmolovsky17 who ex- cavated the type-sites of Shan-Koba, Fat’ma-Koba and Kukrek (Fig. 1,1–3). Influenced by the ‘‘stage paradigm’’, he attributed the finds from the above Fig.1. to the Black Sea coastline and the Crimean plain,11 sites to the Azilian (Shan-Koba culture) and theTar- Distributionmapofthe b) other environmentalists suggest that, during the denoisian (Murzak-Koba and Kukrek cultures). Later Mesolithicsitesmentio- Early and Middle Holocene, the steppes spread he described the main characteristics of the Kukrek nedinthetext.1Shan- Koba;2Fat’ma-Koba; some 150–175 km to the north;12 while, c) follow- chipped stone industry, which he called Tarde- 3Kukrek;4Murzak- ing a third group, the steppe boundary was already noisian. In 1950 Voevodsky introduced the terms Koba;5Buran-Kaya; stabilizedduringtheHolocene.13 Shan-Koba and Murzak-Koba cultures,18 partly sup- 6Zamil-Koba; 7Alymivs’ky;8Siuren’ Recently N. Gerasimenko14 proposed a re- ported by Formozov.19 Vekilova, Kolosov and Dani- 2;9Vodopadny; vised schemefortheHolocene climaticvariations in lenko,20 described the Kukrek culture in the 1960’s, 10Skeliasty;11Kara- southernUkraine.According tothisauthor while, in 1976, Telegin defined the Gornokryms’ka Koba;12Adzhi-KobaIII; 13Laspi7;14Vys- 1) thePreboreal(10300–9000uncalBP)earlywarm- culture, which, according to him, resulted from both henneI;15Dobryanka; ingcontributedtothedevelopmentoftheforest- Shan-Koba and Murzak-Koba (Fig. 1,4) complexes, 16Ivanivka;17Bilo- steppecover(pineforestswithoakandelm,and which had already been described by Voevodsky. lisja;18Tsarynka; 19Grebenyky; ‘‘mixed grass-cereal’’steppes)inthepresent-day He also pointed out the local evolution of the ma- 20KamennaMohyla; northernstepperegion,and‘‘turf-cereal’’steppes terial culture, and the absence of any population 21Igren’8;22Abu- in the south. A noticeable cool event charac- change in the mountains of the Crimea.21 Cohen zovaBalka;23Myrne; 24Zaliznychne; terisedtheendofthisperiod(ca.9600–9000un- proposed a more detailed subdivision of the Crim- 25Sarateni;26SorokiII; cal BP). The broadleaf woodland disappeared, ean Final Palaeolithic and Mesolithic into four cul- 27Gyrzheve;28Vasily- xerophytic cenosises spread, a few rivers dried turesandfivedifferent complexes.22 evkaII;29Marjevka. up,andloessdepositsstartedtoaccumulate; The state of the research was summarised by 2) the Boreal (9000–8000 uncal BP) can be subdi- Janevich, Nuzhny and Zaliznyak.23 At present most videdintotwosub-periods.Duringthefirst(BO-1) authors accept the subdivision of the Crimean Me- the northern steppes were covered with wood- solithic into two main periods, early and late: the lands thicker than those of the Preboreal. Oak, first is represented by sites of the Shan-Koba cul- elm and lime were present, although birch was ture, the second by Murzak-Koba ones, while the much more common. The second sub-period KukrekcultureevolvedinthesteppesoftheCrimea (BO-2) was dryer, with a decrease in the forest during theEarlyHolocene. cover, the decline of broadleaf tree species, and thewidespreadof‘‘mixedgrass-cereal’’steppes; 3) M. F.Veklich15 divided the Atlantic into six main 16 ˆ)&.æŁG)EŒB2004. sub-periods, only the first two of which are trea- 17 `BE^-˛æGBºB,æŒŁØ1934. 18 ´B),B+æŒŁØ1950. 19 SB&GBJB,1954. 11 T&$8ł)EŒB1970;6GŁE$ŁE.2001. 20 ´)ŒŁºB,. 1951; ´)ŒŁºB,. 1966; ˚BºBæB, 1964; ˜.EŁº)EŒB 12 6)&)Æ&'EE.'1976. 1969. 13 ˝)Øł$.+$1957. 21 Y)º)ªiE1982. 14 ˆ)&.æŁG)EŒB2004. 22 Cohen1999. 15 ´)ŒºŁ^1987. 23 0E),Ł^1987;˝#KEŁØ1992;˙.º‡JE'Œ1998;˙.º‡JE'Œ2005. TheMesolithicofthenorthwesternPonticregion 23 The Shan-Koba culture chipped stone assem- blages(Buran-Kaya,layer5,24Fat’ma-Koba,layers5 and 6; Shan-Koba, layers 4–6; Zamil-Koba, lower layers; Alymivs’ky rock-shelter, Siuren’ 2, upper layers; Vodopadny and Skalistiy rock-shelters (Fig. 1,5–10) and a few other sites, consist of prismatic, sub-prismatic, double and multi-platformed cores. Withafewexceptions,theend-scrapersaremorenu- merous than the burins. The characteristic tools in- clude elongated end-scrapers on blades and shor- tened blades, short end-scrapers on flakes, and thumbnailend-scrapers,aswellasdifferenttypesof burins,althoughthoseontruncationprevail.Themi- crolithsconsistofdirectretouchandbipolarlunates anddoubletruncatedpoints.Trapezesandtriangles are less common, although they were obtained by the same technique as the lunates.25 This culture is thought to have originated around the end of the Pleistocene. Its first phase is known from the Crim- eanrock-shelterofBuranKayaIII,26layer5(Cultural layer6),radiocarbon-datedto11950%130uncalBP (OxA-4127) and 11900%150 (OxA-4126),27 and layer III of Skalistiy rock-shelter, radiocarbon-dated between12820%170(OxA-4888)and11620%110 uncal BP (OxA-5164),28 the last (third) stage, which most probably developed during the Holocene, is knownfromShan-Koba(layer4).29Thechronological The Kukrek culture is a unique tradition that Fig.2. position of the second, ‘‘intermediate’’ phase, to finds no parallels in Western Europe. Its first stage Dobryanka.Traceolo- gicalanalysisofthree whichmostofthesitesarethoughttobelong,isstill (Vyshenne I, lower layer) (Fig. 1,14) is attributed to ‘‘Kukrekinserts’’(after undefined. Some authors attribute it to the end of the Early Mesolithic or to the end of the Palaeo- ˙.º‡JE'Œ/9.E<ŒB2004, thePalaeolithic,otherstotheEarlyMesolithic. lithic.34 It is characterised by subconical, bullet and Fig.6),number40(1), 55(2)and54(3). TheMurzak-Kobaculture30(Murzak-Koba,Fat’- pencil-like cores for the production of parallel-sided CH¼cuthardonhard ma-Koba, layers 2–4, Shan-Koba, layers 2 and 3, bladelets, polyhedrical flake cores, and end-scra- material(woodor Kara-Koba, Adzhi-Koba III, and Laspi 7) (Fig. 1,11– pers on flakes. The burins are more numerous than antlerorbone), W¼worn,!¼snap- 13) is characterised by parallel-sided bladelets, the end-scrapers: they are often multifaceted, on a pededge,&¼photo- mainly detached from flat prismatic cores. Notched flake (‘‘Kukrek burins’’). The microliths consist of graphsat10#(2)and bladelets are typical, as are circular, semi-circular backed points adjacent to an oblique truncation 15#(3)(drawingsby P.Biagi,inkingby and flakelet end-scrapers. The burins are often on (‘‘AbuzovaBalkapoints’’);‘‘Kukrekinserts’’arealso G.Almerigogna,photo- truncation or the angle of a broken blade/bladelet. abundant(medium,widebladefragmentswithtrim- graphsbyB.A.Voytek, Most of the geometric microliths consist of trapezes ming facets on their ventral surface, and a partial, withthanks). of varying shapes.31 Although the isosceles types dorsal retouch along their proximal or distal sides). predominate, the scalene specimens are also nu- According to the traceological analyses conducted merous. A small percentage of microburins is also by B. A. Voytek (pers. comm. 2007) on three speci- known.MostSovietarchaeologistsbelievedthatthis mensfromDobryanka(Fig.1,15),35theventraltrim- culture was to beattributed to theBoreal/beginning ming of theKukrek inserts is dueto there-sharpen- of the Atlantic,32 while, according to Zaliznyak,33 it ing of (thick) blades used for hard-working (cut fallsentirelywithintheAtlanticperiod. hard) on hard material such as wood, bone or ant- ler (Fig. 2), as previously suggested by G. O. Sa- pozhnikova.36 The second stage (Kukrek, Ivanivka) 24 Janevichetal.1996,316Fig.2. (Fig. 1,3.16) is attributed to the Late Mesolithic. 25 ˝#KEŁØ1992,Fig.10. 26 Janevich1998. Subconical, prismatic, bullet, and polyhedrical cores 27 Janevichetal.1996,318. were knapped to obtain blades, bladelets and 28 Cohenetal.1996,328Tab.1. flakes. The end-scrapers are on flakes; there are no 29 `ŁÆŁŒB,etal.1994. 30 Gimbutas1956. 31 ˝#KEŁØ1992,Fig.21. 34 0E),Ł^1987;Zaliznyak2009. 32 Y)º)ªŁE1989. 35 KindlyprovidedbyProfessorL.L.Zaliznyak,withthanks. 33 ˙.º‡JE'Œ1998. 36 6.ABKEŁŒB,./6.ABKEŁŒB,1992. 24 PaoloBiagiandDmytroKiosak 2) The Tsarynka-Rogalyk culture chipped stone as- semblage comprises unipolar, bipolar, prismatic and sub-prismatic cores. There is a significant percentage of end-scrapers on shortened blades and flakes. The burins are often on the angle of broken blades. The geometric microliths consist exclusively of trapezes with three retouched sides.42 3) The Late Mesolithic of southwestern Ukraine43 is represented by the Grebenyky and Kukrek cul- tures. The Grebenyky chipped stone assem- blages arecharacterisedby afine,regularblade- let knapping technique. Most of the cores are flat and prismatic. The end-scrapers are mainly circular and semi-circular, on flakes. The geo- metric microliths consist exclusively of isosceles and rectangular trapezes.44 According to Stanko, and Telegin45 this culture developed during the Boreal andEarlyAtlantic periods. The Kukrek culture is subdivided into three local Fig.3. micro-end-scrapers, circular or semicircular speci- variants, which developed a) along the Azov Sea Bilolisja.Thesiteison mens. The burins are of Kukrek type, and the most coast (Kamenna Mohyla), b) in the lower Dnieper theriverbank,where thetwopeopleare characteristic tool is the ‘‘Kukrek insert’’. The micro- Valley(Igren’ 8),andc)thelowersouthernBug Val- standing(photograph liths consist mainly of backed bladelets and points ley (Abuzova Balka) (Fig. 1,20–22). Isolated Kukrek byP.Biagi). adjacent to an oblique truncation (‘‘Abuzova Balka sites are known as far as the course of the Prut.46 points’’). A few double points also occur; trapezes The bearers of this culture produced subconical, and microburins are absent. The third stage of the bullet and pencil-like cores for the manufacture of culture, which is attributed to the Neolithic, yielded parallel-sided bladelets. Characteristic tools are an identical chipped stone assemblage and a few ‘‘Kukrek inserts’’ and ‘‘Kukrek burins’’, as well as ceramicpotsherds.37 burinsonflakes.Themicrolithsconsistofabacked- retouched point adjacent to an oblique truncation (‘‘Abuzova Balka points’’) (Fig.4).47 Stanko and Te- ThesteppesofsouthernUkraine legin48 suggested the presence of Early Mesolithic According to the periodisation proposed by V. N. Kukrek sites on the basis of typical surface finds, Stanko,38theMesolithicofsouthUkrainiansteppes, and comparisons with characteristic tools from the is represented by three cultures: a) Bilolisja (Belo- MesolithicsequencesofCrimea.49 les’e)39 (Fig. 3), b) Tsarynka-Rogalyk, and c) Grebe- nyky(Grebeniki)(Fig. 1,17–19). Discussion 1) TheBilolisjacultureflintindustryischaracterised by prismatic and sub-prismatic cores for the pro- Each topic of this classification has been the sub- duction of bladelets. The end-scrapers are on ject of a vivid discussion. According to several both flakes and technological blades. The burins authors the Tsarynka-Rogalyk culture developed are few and atypical. The lunates predominate around the end of the Palaeolithic,50 while Telegin among the geometric microliths, which also in- and Smoljaninova51 accepted Stanko’s periodisa- clude trapezes40 amongst which are specimens with three retouched sides.41 Arched points are alsopresent.Theonlyavailableradiocarbondate comes from the type-site (Ki-10886: 8900%190 42 ˝#KEŁØ1992,Fig.8. uncalBP,frombone). 43 Y)º)ªŁE1973. 44 Koz//lowski/Koz//lowski1979;˝#KEŁØ1992,Fig.23. 45 6$.EŒB1982;Y)º)ªiE1982. 46 ˜,B&'EŁEB,1976;6$.EŒB1982,113–114;Y)º)ªiE1982,118– 119. 37 ˚BºBæB,1964;0E),Ł^1987. 47 Koz//lowski/Koz//lowski1979. 38 6$.EŒB 1967; 6$.EŒB 1972; 6$.EŒB 1976; 6$.EŒB 1977; 48 6$.EŒB1982;Y)º)ªiE1982. 6$.EŒB1980;6$.EŒB1982;6$.EŒB1997. 49 `ŁÆŁŒB,etal.1994. 39 6$.EŒB1985;Korobkova1993,163. 50 ˚B&BÆŒB,.1989;˚B&BÆŒB,.1989a;ˆ&ŁªB&<),.1992;˙.º‡J- 40 ˝#KEŁØ1992,Fig.14. E'Œ1995,18. 41 6$.EŒB1972;6$.EŒB1980. 51 Y)º)ª‡E1982;6GBº<'EŁEB,.1990. TheMesolithicofthenorthwesternPonticregion 25 tion. Also Bilolisja has been attributed to the end of the Palaeolithic,52 although Janevich and Zaliz- nyak53 included it into the Shan-Koba culture. Stan- ko did not agree with this attribution because of thedifferentmanufacturingtechniqueofthelunates thatcharacterisethetwoaspects.54 Sapozhnikov and Sapozhnikova55 proposed another chronology of the Early Mesolithic sites, and attributed all of them to the end of the Palaeo- lithic. These authors did not find any difference be- tween the Grebenyky and Kukrek cultures and the northwestern Pontic ‘‘Tardenoisian’’ of Romania,56 and assigned all of them to a long period from the PreborealtotheEarlyAtlantic. Zaliznyak still believes that the Grebenyky culture results from the migration of Early Neolithic peoples from the Balkan Peninsula,57 and attri- butes it to the end of the Boreal, or the very begin- ning of the Atlantic.58 This suggestion does not find any confirmation in the radiocarbon sequences currently available for the Early Neolithic in the Bal- kans.59 In contrast L. Doman´ska60 suggested that the first appearance of the blade and trapeze industries in the steppes of the Ukraine was due to influences from the Caucasus, given that assemblages with isosceles trapezes and parallel-sided bladelets, de- tached from bullet and pencil-shaped cores, are wellrepresentedtheresincetheLateMesolithic.61 On the basis of the radiocarbon dates avail- able at the time, Kozlowski,62 who wrote a first // synthesis of the cultural sequence of these regions, attributed the Murzak-Koba, and the beginning of the Kukrek culture, mainly to the Boreal, and the southern region of the Danube-Dniester interfluve, Fig.4. morerecentKukrekaspects,andtheGrebenykycul- along the western bank of the Drakulja River, in AbuzovaBalka.Flintar- tefacts:lunate(1),ba- ture,to theEarlyAtlantic. the lowlands that lead to the wide Danube Valley ckedpoint(2),elonga- (Fig. 5). tedrhomboid(3), Stanko63 excavated the site over an area of backedbladeletsand truncation(4-11),‘‘Ku- Myrne 1807 sq. m. It yielded more than 20,000 chipped krekinserts’’(12and stone artefacts (Figs. 6; 7), a rich bone and antler 13),cores(14–25) Thesiteanditssignificance industry, and a rich faunal assemblage, 9800 spe- (drawingsbyP.Biagi, inkingbyG.Almerigog- cimens of which were identified.64 The man-made na). Myrne (Mirnoe) is a siteof major importance forthe structures (hearths, ‘‘baking’ pits’’, rubbish pits Late Mesolithic of south Ukraine (Fig.1,23). This and flint scatters) were discovered thanks to inno- large, single-layered settlement is located in the vative excavation techniques, which included flota- tion, micro-stratigraphy and spatial analysis. The 52 0E),Ł^1990;˙.º‡JE'Œ1995,18. site was studied by Petrougne and Dolukhanov 53 0E),Ł^1990;˙.º‡JE'Œ1998. (geomorphology and stratigraphy), Korobkova (tra- 54 Stanko/Kiosak2008. ceology of the chipped stone artefacts), Bibikova 55 6.ABKEŁŒB,/6.ABKEŁŒB,.2005. (archaeozoology), and Pashkevich (pollen analy- 56 Paˇunescu1993,209;Chirica1996,83. sis). 57 Stanko2009. 58 ˙.º‡JE'Œ 2005a, 9–11; ˙.º‡JE'Œ 2006, 3–18; ˙.º‡JE'Œ etal. 2005,Fig.10. 59 Go¨rsdorf/Bojadz˘iev 1996; Whittle etal. 2002; Whittle etal. 2005;Biagi/Spataro2005;Biagietal.2005. 63 6$.EŒB1982. 60 Doman´ska1990,332. 64 In their papers Dergacev and Dolukhanov (2007, 499; 2008, 61 `.+)&/Q)&)$)ºŁ1989,103;Korobkova1996. 26)erroneouslyreportbonepercentages,whichdonotreferto 62 Koz//lowski1989,426. Myrne,buttoBilolisja(`ŁÆŁŒB,.1982,140). 26 PaoloBiagiandDmytroKiosak stratigraphic position, pollen analyses, and the ty- pologyoftheflinttools. The site sequence was described as follows70 according to the profiles of the trenches opened in 1969–1976:71 1) topsoil, composed of two hori- zons: a) turf, b) loamy layer with Chalcolithic finds); 2) dusty, peaty loam; 3) light brownish loam, with carbonate inclusions (‘‘buried soil’’?); 4) yellowish, sandy loam, containing the cultural layer, radiocar- bon-dated to 7200%80 uncal BP (Le-1647) from bone; 5) heavy, dense, light brown loam with car- bonateinclusions. The Mesolithic layer was found between the Late Pleistocene loam deposit (5), and the ‘‘buried soil’’ that formed under mild, Atlantic climatic con- ditions (3).Accordingtothesedata thecultural hor- izon belongs to the Early Holocene (Preboreal and Boreal?). The ‘‘buried soil’’ yielded many flint tools and a much lower quantity of faunal remains. A si- milar situation (‘‘dredge cultural layer’’) charac- terises all the Mesolithic sites of the Northwestern Pontic Region. Following Stanko’s72 description, the Fig.5. HistoryoftheresearchatMyrne development of the ‘‘buried soil’’ was interrupted Myrne.Thesite by the Drakulya River, which inundated the valley areafromthesouth Myrne was discovered in 1963 by the field survey during the Neoeuxinian transgression, and the Me- in2007(photograph byPBiagi). team of the Danube-Dniester Archaeological Expe- solithicsite‘‘wasstratifiedbeneathpeat-likedepos- dition of the Archaeological Institute of the Acad- itssuggestingtheoccurrenceofasmallmireatthat emyofSciencesoftheUkrainianRSR.65Arepresen- time’’.73 Consequently, the sediments containing tativesampleofsurfacefindswascollectedin1964, the Mesolithic occupation layer are to be attributed thanks to which the site was attributed to the Late totheEarlyHolocene. Mesolithic, like those of Grebenyky and Gyrzheve. According to Pashkevich74, who studied the During the opening of the first test-trench, a rich pollen sequence ‘‘There are no doubts that the pol- cultural layer was discovered in situ at the depth of len complex of lower heavy loam is dated to the 0.9–1.1m.66 From 1969 to 1976, Stanko carried end of Pleistocene, the cultural layer pollen com- out an extensive programme of excavations. The plex was deposited in the Early Holocene, and the Palaeolithic team of the ‘‘I. I.Mechnikov’’ Odessa buried soil has Atlantic age’’, while Stanko75 stated State University, and the Mesolithic team of the ‘‘the Boreal period seems to be a most probable Northwestern Pontic Expedition of the Archaeologi- date’’ (for the Myrne Mesolithic assemblage). Since cal Institute excavated some three quarters of the then, the Myrne sequence has been considered of site (1807 sq. m). Telegin67 produced the first de- basic importance for the Late Mesolithic of south scriptionofthechippedstoneindustry,whichheat- Ukraine, which was thought to last from the Boreal tributed to the Grebenyky culture. Stanko68 pointed period onwards. As a consequence Stanko and out the complexity of the flint assemblages, charac- Svezhentsev76 considered the first radiocarbon date terisedbybothGrebenykyandKukrektools. obtained from the site (Le-1647: 7200%80 uncal BP) too recent although, more recently, Zaliznyak77 has suggested an Atlantic date for the Mesolithic occupationatthesite. Previousattempts atclarifyingthechronology ofMyrne Soon after the end of the excavations, Stanko69 at- 70 This description differs from those by Dergacev/Dolukhanov tributed Myrne to the Boreal, on the basis of its 2007,499Fig.2;Dergacev/Dolukhanov2008,26Fig.2. 71 6$.EŒB1982,8Fig.2. 72 6$.EŒB1982,8. 65 OG.ªºŁØ1965. 73 Stanko2007,377. 66 6$.EŒB1967. 74 ˇ.łŒ),Ł^1976,154. 67 Y)º)ªŁE1976. 75 6$.EŒB1982,100. 68 6$.EŒB1982. 76 6$.EŒB/6,)K)E!),1988. 69 6$.EŒB1982,100. 77 ˙.º‡JE'Œ2005. TheMesolithicofthenorthwesternPonticregion 27 TheKukrek-Grebenykydilemma Following Stanko78 the Myrne chipped stone as- semblage consists of characteristic types attributa- ble to two different traditions. While subconical, bullet and pencil-like cores, ‘‘Kukrek inserts’’ and ‘‘Abuzova Balka points’’ are considered classical Kukrek culture types, flat prismatic cores, with ne- gatives of parallel-sided blade and bladelet detach- ments, and isosceles trapezes characterise the Gre- benyky culture.79 Typological analysis has shown very similar percentages of typical tools of both as- pects. Spatial analysis has revealed the presence of flint scatters with prevailing ‘‘Kukrek inserts’’ and burins, ‘‘Abuzova Balka points’’, subconical, bullet and pencil-like cores, and spots with mainly flat cores and isosceles trapezes, as well as areas with typicaltoolsofbothtraditions.80 Several authors consider the site ‘‘homoge- nous’’,81 although the Kukrek and Grebenyky cul- tures have different technology,82 typology,83 sub- sistence economy84 and geographical distribution patterns,85 with the exception of a few sites.86 So- rokin87 hypothesized a mechanical admixture of the two cultural traditions. Although this cannot be ex- cluded, the spatial analysis makes this observation of minor importance within the general framework ofthesettlementorganization pattern. Stanko developed a complex theory, accord- ing to which the migration of Grebenyky tribes westwards, across the Dniester, as far as the Car- pathians, and their penetration into Dobrudja, re- sultedintheinteractionwithKukrekculturepeoples. The syncretic sites that derived from this movement (Zaliznychne, Sarateni (Fig.1,24–25) and others) and Kukrek complexes are separated spatially in Fig.6. are numerous in Budjak, Myrne being the most the same site’’.88 It is important to point out that, Myrne.Flintartefacts: isoscelestrapezes important. Thus, according to the above data, two according to Doman´ska,89 the assemblages from (1–9)withpiquant different communities inhabited Myrne more or both these cultural aspects recall Near Eastern and trie`dretruncations less contemporaneously: Kukrek and Grebenyky. Caucasian types, especially their ‘‘highly developed (10,11),notched blades(12,13), Although this interaction might have led to an ex- bladecomponent’’. end-scrapers(14–18), change of ideas, it was not strong enough to elim- ‘‘Kukrekinserts’’ inate differences between the two above flint tech- (19,20),differenttypes ofbladeletcores nological traditions even at the syncretic sites: ‘‘the The ‘‘old’’ radiocarbon dates (21–32)(drawingsby cultural borrowings are limited, and the Grebenyky P.Biagi,inkingby The first attempt at a 14C chronology for the wes- G.Almerigogna). tern Ukrainian Mesolithic, based almost exclusively 78 6$.EŒB1982,78. on the results from Soroki II90 (Fig. 1,26), Igren’ 8, 79 6$.EŒB1972;Koz//lowski/Koz//lowski1975;1979. Kukrek and Laspi 7, was presented by Kozl//owski91 80 According to Korobkova 1993, 168 the chipped stone assem- in his discussion of the chronology of the earliest blagefromthissiteincludedalso‘‘...insertsforsickleknives Holocene sites of the western part of the former usedinharvestingwildcerealsandgrasses’’. USSR. More radiocarbon determinations became 81 Paˇunescu1993. 82 ˆŁ&'1997. 83 6$.EŒB1972;Koz//lowski/Koz//lowski1975;Koz//lowski/Koz//lowski 1979;Y)º)ª‡E1982. 84 ˝#KEŁØ/0E),Ł^1987;˙.º‡JE'Œ1998. 88 6$.EŒB1982,78;Stanko/Kiosak2008. 85 Koz//lowski/Koz//lowski1979. 89 Doman´ska1990,329. 86 Anthony2007,360. 90 9.&Œ),Ł^1974. 87 6B&BŒŁE2002. 91 Koz//lowski1989,431. 28 PaoloBiagiandDmytroKiosak Fig.7. available a few years later thanks to the systematic while, more recently, Man’ko95 promoted an exten- Myrne.Planofthe radiocarbon dating of the Mesolithic and Early Neo- sive programme of radiocarbon determinations of excavatedareawith lithic cemeteries in the Dnieper Rapids Region,92 the Crimean Mesolithic sites, which are still unpub- thelocationofthe samplescollected while Zaliznyak recently published a revised list.93 lished. Nevertheless the dates from this project, ob- forradiocarbondating For the territory under study, the present situation tained from different laboratories, do not match. In (after6$.EŒB1982, canbesummarizedinthefollowingway: effect, while the west European laboratory dates of Tab.14). the early phase of the Shan-Koba culture fall into the Allerød, most of the Ki dates yielded Preboreal Crimea results. Most of the Murzak-Koba culture Ki dates Telegin94 published many dates from Kukrek (Kuk- from Fat’ma-Koba and Shan-Koba should attribute rek culture) and Laspi 7 (Murzak-Koba culture) this cultural tradition to the Atlantic (Fig. 8). These resultscontrastwiththeradiocarbonsequencefrom Laspi 7, which shows a very different pattern, ac- cording to which the Murzak-Koba culture, layer D, 92 Potekhina/Telegin 1995; Lillie 1998, 186; Lillie 2001; Lillie isassignedtotheBorealperiod(Fig.9;Tab.1). etal.2003. 93 ˙.º‡JE'Œ2005,161–163. 94 Y)º)ªŁE1985;Y)º)ªŁE1989. 95 9.E<ŒBpers.comm.2006. TheMesolithicofthenorthwesternPonticregion 29 Thesteppezone AtmosphericdatafromReimeretal(2004);OxCalv3.10BronkRamsey(2005);cubr:5sd:12prob/wholeusp[chron] Fat'ma-K Ki-10399 6300±120BP B The absolute dates from the Mesolithic steppe sites Fat'ma-K Ki-10449 6440±120BP B are somewhat contradictory. At Gyrzheve96 (Fig. 1,27; 10) the Late Mesolithic occupation has been Shan-K Ki-11082 6520±120BP B 14C-dated, from bone, to 7390%100 (Ki-11240) and 7050%60 uncal BP (Le-1703), while organic Fat'ma-K Ki-10398 6900±120BP B inclusions in two Early Neolithic potsherds yielded Fat'ma-K Ki-11083 7180±180BP B similar results:7280%170 uncalBP (Ki-11241)and 7200%220uncalBP(Ki-11743).97 Fat'ma-K Ki-10397 8600±140BP B The best-dated Mesolithic site in the steppe region is Igren’ 8, a Kukrek culture settlement on 10000CalBC 9000CalBC 8000CalBC 7000CalBC 6000CalBC 5000CalBC 4000CalBC the western bank of the Dnieper that Telegin exca- Calibrateddate vated between 1973 and 1990.98 It consists of a Fig.8. Fat’ma-KobaandShan-Koba.PlotoftheradiocarbonandcalibrateddatesaccordingtoOxCal series of stratified ‘‘pit-dwellings’’, some 4–9 m in 3.10(Reimeretal.2004;BronkRamsey1995).B–bone. diameter and varying in depths (Fig. 11), one of which yielded a sequence of three habitation layers AtmosphericdatafromReimeretal(2004);OxCalv3.10BronkRamsey(2005);cubr:5sd:12prob/wholeusp[chron] from the Late Mesolithic to the Middle Neolithic Ki-863 7500±360BP C period.99 The first series of dates, obtained from freshwater shells and charcoal samples, was pub- Ki-638 7620±230BP C lished in 1982.100 Most of them fall into the Boreal Ki-704 8030±190BP C period, although many authors consider Ki-956 too early, and Ki-806 and Ki-850 too late. In 1990, a Ki-637 8080±210BP S new series of four dates was obtained from bone samples, which attributed pit-dwelling 10 to the Ki-957 8340±250BP ? Atlantic, between 7080%60 (Ki-6256) and 6860% Bln-1795/1 8570±75BP C 45 uncal BP (Ki-6259). These chronological discre- pancies do not match with the material culture re- Ki-876 8680±250BP S mains, which assign the Mesolithic horizon to the Kukrek culture. Recently Man’ko radiocarbon-dated Bln-1795/2 8760±70BP C the organic inclusions from four Early Neolithic Ki-952 8870±120BP C potsherds, from the upper levels of pit-dwellings 8 and 4, all of which yielded Atlantic results between Ki-953 8920±100BP C 7050%140 (Ki-11685) and 6500%140 uncal BP (Ki-11684) (Fig.12; Tab.2).101 This is why Man’- Bln-1921 9085±100BP C ko102 suggested the settlement be reattributed to Ki-951 9100±100BP S the Early Neolithic Surs’ka (Surskaja) culture.103 Further dates come from the cemeteries excavated 10000CalBC 8000CalBC 6000CalBC 4000CalBC in the same Dnieper Rapids Region, a few of which Calibrateddate have recently been re-dated by 14C, and yielded Fig.9. results that assign two of them, Vasilyevka II and Laspi 7. Plot of the ‘‘old’’ radiocarbon and calibrated dates according to OxCal 3.10 (Reimer Marievka (Fig.1,28.29), to the beginning of the etal.2004;BronkRamsey1995).C–unidentifiedcharcoal,S–marineshells,?–unknown. Atlanticperiod.104 The ‘‘new’’ AMS radiocarbon dates Eight radiocarbon dates have been obtained from three of the above sites in order to check the relia- 96 6$.EŒB1966. bilityofthepreviousresults (Tab.3). 97 9.E<ŒB2006. Four bone samples have been AMS-dated 98 Y)º)ªŁE1985;Telegin1996;Telegin/Potekhina1987. from Myrne. The specimens were collected by Stan- 99 Anthony2007,357. 100 Y)º)ª‡E1982. ko from four different squares (Fig. 7) that were 101 ListsofradiocarbondatesfromIgren’8havebeenpublished supposed to represent both Kukrek (squares PII`5 in many papers, often with noticeable incongruities (Y)º)ª‡E and PIIIB1, respectively dated to GrA-37337: 1982;Y)º)ªŁE2002;Gob1990;9.E<ŒB2005). 8385%45, and GrA-37335: 8350%45 uncal BP) 102 9.E<ŒB2005,119. 103 Telegin1987. and Grebenyky culture activity areas (PI˜22 and 104 Teleginetal.2002,Tab.1. PIˆ24, respectively dated to GrA-37312: 8475%45, 30 PaoloBiagiandDmytroKiosak Sitename Provenance Lab.Number Material DateBP CalibrationdaterangeBC CalibrationdaterangeBC Reference (1sigma) (2sigmas) Laspi7 LayerABV Ki-863 unident.Charcoal 7500%360 6850–6000 7300–5700 Y)º)ªŁE1989 Laspi7 LayerD1,D2 Ki-638 unident.Charcoal 7620%230 6800–6250 7100–6000 Y)º)ªŁE1989 Laspi7 LayerD Ki-704 unident.Charcoal 8030%190 7250–6700 7500–6500 Y)º)ªŁE1989 Laspi7 LayerA Ki-637 MarineShells 8080%210 7350–6700 7550–6500 Y)º)ªŁE1989 Laspi7 LayerD Ki-957 unpublished 8340%250 7650–7000 8100–6600 Y)º)ªŁE1989 Laspi7 LayerD Bln-1795/1 unident.Charcoal 8570%75 7690–7540 7800–7490 Y)º)ªŁE1989 Laspi7 LayerD1 Ki-876 MarineShells 8680%250 8150–7500 8500–7100 Y)º)ªŁE1989 Laspi7 LayerD1 Bln-1795/2 unident.Charcoal 8760%70 7970–7690 8200–7600 Y)º)ªŁE1989 Laspi7 LayerD1 Ki-952 unident.Charcoal 8870%120 8180–7790 8300–7600 Y)º)ªŁE1989 Laspi7 LayerB Ki-953 unident.Charcoal 8920%100 8210–7870 8300–7700 Y)º)ªŁE1989 Laspi7 LayerD Bln-1921 unident.Charcoal 9085%100 8450–8170 8600–7950 Y)º)ªŁE1989 Laspi7 LayerV Ki-951 MarineShells 9100%130 8500–8090 8650–7850 Y)º)ªŁE1989 Tab.1. Laspi7.Listofthe‘‘old’’radiocarbonandcalibrateddates.Bln-1975/1andBln-1975/2arefromthesamecharcoalsample(afterY)º)ªŁE1989,109). error, caused by the texture of the deposit from which the bone sample was collected for dating that is rich in carbonate inclusions. In light of the new dates the site’s chronological attribution to the second half of the Boreal is more reliable, and fits better into Stanko’s106 early field observations. It is interesting to point out that, already at the begin- ning of the 1990’s, similar considerations had been put forward by Doman´ska107 for the Grebenyky cul- ture, which, according to this author, developed ‘‘mostprobablyattheendoftheBorealperiod’’. From Laspi 7, layer D, two arboreal species from the same charcoal sample108 were AMS-dated. They yielded identical results (GrA-37503: 8620% 40uncal BP, and GrA-37504: 8625%40 uncal BP), which confirm the attribution of this part of the se- quence to the second half of the Boreal period, as indicated by most of the Ki and Bln dates from the samelayerD(Tab.3).109 Two further animal bone samples were AMS- dated from the lowermost occupation layer of two Mesolithic structures at Igren’ 8, respectively pit- dwelling 4 (GrA-33112: 8695%45 uncal BP) and 8 Fig.10. and GrA-37336: 8280%45 uncal BP) to control any (GrA-33113:8880%45uncalBP).110Theybothcon- Gyrzheve.Aviewof eventual chronological discrepancy between the firm the attribution of the Kukrek occupation at the thevalleybelowthe two aspects.105 The results are quite homogeneous sitetothesecondhalfoftheBoreal,asalreadysug- Mesolithicsite(photo- graphbyP.Biagi). given that they all fall into the second half of the gestedbythreeKiradiocarbondatesfrompit-dwell- Boreal period, and cover a time-span of some 200 ings1and2,andoneBlnresultfromtheMesolithic radiocarbon years. It can be suggested that they in- cultural layer (Fig. 8; Tab. 2).111 It is important to dicate subsequent or repeated habitation episodes within the same settlement area. Furthermore the 106 6$.EŒB1982,100. ‘‘new’’ dates neatly contrast with Le-1647, accord- 107 Doman´ska1990,329. ingto which thesitehadpreviously beenattributed 108 TheauthorsaregratefultoProfessorL.L.Zaliznyakwhopro- to the Atlantic period. This latter result may be in videdthesampleforradiocarbondating. 109 seealsoKoz//lowski1989,Fig.5. 110 Biagietal.2007,27. 105 `‡.+K‡etal.2008. 111 seealsoKoz//lowski1989,Fig.5.