SAM 학술관계분석서비스

회곽묘의 계층성과 확산–서울 경기지역 대규모 분묘군을 중심으로-

김현우 한국상고사학보, 91, 75-120 [2016]

한성백제시대의 음식문화, 『향토서울 제63호』

김상보 서울특별 시사편찬위원회 [2003]

한국박물관연구회 『한국의 박물관 5 - 한국등잔박물관, 문화유 물(기와)전시관, 한국대나무박물관 -,』

문예마당, 25 [2005]

한국민족문화대백과사전

한국학중앙연구원

탄소 질소동위원소를 이용한 선사인의 식 생활 연구

安德任米田穰赤澤威 고고학지, 6, 135-149 [1994]

충청남도역사문화연구원 백제충청연구팀 『서천군지』

서천군지 편찬위원회 [2009]

조선후기의 主食에 관한 試論

鄭演植 인문논총, 4, 321-347 [1997]

조선시대 회곽묘의 편년과 변천 양상

김현우 고고학보, 85, 190-232 [2012]

조선시대 회곽묘 출토 인골의 안 정동위원소 분석을 통한 아산 명암리 피장자의 식생활 복원

강소영 김수훈 김윤지 조은민 문 화재, 49(4), 38-51 [2016]

조선시대 회곽묘 출토 미이라의 안정동위원소 분 석으로 생애 주기에 따른 식생활 변화 추적

강다영 신지영 분석과학회지, 25(5), 300-306 [2012]

조선시대 인골에 대한 생화학적 분석의 유용성: 서천군 옥남리 회곽묘 출 토 인골을 중심으로

강소영 권은실 김윤지 문은정 서민석 조은민 지상현 보존과학회지, 26(1), 95-107 [2010]

조선시대 밥류의 종류와 조리방법에 대한 문헌적 고찰 (1400년대～1900년대까지)

복혜자 한국식생활문화학회지, 22(6), 721-741 [2007]

인골 추출 콜라겐의 탄소 질소 안정동위원소 분 석을 통해 본 경산 임당 유적 고총군 피장자 집단의 식생활

신지영 이준정 한 국고고학보, 70, 84-109 [2009]

우리의 옛 등잔을 찾아서 - (19) 뚜껑형, 돌기형 등잔-

민병근 전기저널, 382, 8 [2008]

용유도 남북동유적 야외노지에 대한 잔존 지방분석

김규호 유혜선 윤은영 보존과학회지, 20, 31-42 [2007]

안성 만정리 신기유적 출토 조선시대 인골의 인류학적 분석 - 2지점 출토 인골을 중심으로 -

박선주 경기문화재연구원, 353-399, 『安城萬井里신기遺蹟』 [2009]

아산시 명암리 출토 인골의 미토 콘드리아 DNA 분석

김수훈 김윤지 이정원 조은민 보존과학연구, 36, 33-48 [2015]

아산 명암리 인골의 고유 전학적 연구

김윤지 박양진 서민석 정용재 지상현 보존과학회지, 23, 81-93 [2008]

식생활 복원을 통해 본 조선시대 중후기 사회경제사의 일면-호남 지역 유적 출토 인골에 대한 안정동위 원소 분석 결과를 중심으로

신지영 이준정 최현구 한국고고학보, 97, 208-231 [2015]

석실묘 출토 인골의 안정동위원소 분석을 통해 본 백제시대 생계경제의 지역적․계층적 특징

신지영 이준정 호남고고학보, 48, 104-125 [2014]

삼국․통일신라시대 - 토기 뚜껑형 등잔(燈盞) ② -

민병근 전 기저널, 430, 8-9 [2012]

부여 능산리 출토 등잔 기름분석

안병찬 유혜선 이상수 고고학 지, 9, 159-180 [1998]

부산 가덕도 장항 유적 출토 인 골의 안정동위원소 분석을 통해 본 신석기시대의 식생활 양상

강다영 김상현 신지영 정의도 분석과학, 26(6), 387-394 [2013]

발굴 현장에서 적용 가능한 사람뼈의 육안 분석. 『발굴 현장에서 고인골 분석 연구실까지』

김명주 김이석 국립문화재연구소, 60-62 [2012]

등잔 기름(燈油)과 등잔 심지(燈心)

민병근 전기저널, 445, 18-19 [2014]

동위원소 분석을 통한 식생활 복원 연구 – 고남리패총 을 중심으로

안덕임 韓國上古史學報, 54, 5-20 [2006]

대포패총출토 인골의 연대와 식성에 관해서

김헌석 韓國新石器硏究, 20, 89-111 [2010]

김포 장기동 유적 출토 인골의 유전자 분석 연구

강소영 김수훈 김윤지 서민석 서민석,조은민,김윤지,김수훈,강소영 조은민 보존과학회지, 30(4), 409-416 [2014]

그들은 누구이고 무엇을 먹었나. 『1500해 앞 16살 여성 의 삶과 죽음』

지상현 국립가야문화재연구소, 49-58 [2009]

고대 토양의 과학적 분석에 대한 고찰

김민희 서민석 정용재 문화재, 37, 309-326 [2004]

고고 자료의 잔존지방분석 연구

유혜선 경희대학교 박사학위 논문 [2003]

金容燮(1970). 『朝鮮後期農業史硏究Ⅰ』. 一朝閣.

朝鮮時代土壙墓調査方法에 대한 一考

김한상 야외고고학, 11, 67-93 [2011]

『陵寺-부여 능산리사지 10차 발굴조사 보고서-,』

국립부여문화재연구소 [2008]

『조선시대 토광묘의 편년연구』

김경선 성균관대학교 대학원 석사학위 논문 [2009]

『인천 수산동 유적: 인천 매소홀로(호구포 로～남동경기장) 도로개설공자 구간 내』

서경문화재연구원 [2015]

『아산 테크노콤플렉스 지방산업단지 조성부 지내 아산 명암리 유적』

충남대학교박물관 [2001]

『서천 옥남리 유적』

충청문화재연구원 [2008]

『사비시대 백제토기 연구』

김종만 서경문화사 [2004]

『백제의 문화와 생활』

충청남도역사문화연구원 [2007]

『金浦鶴雲里遺蹟-김포 양촌지방산업단지 조성사업부지내 문화유적 시․발굴조사 보고서-』

한국문화재보호재단 [2009]

『金浦場基洞遺蹟-김포 장기 택지개발지 구 내 문화유적 발(시)굴조사- <1>』

한국문화재보호재단 [2011]

『百濟斯麻王』

국립공주박물관 [2001]

『安城萬井里신기遺蹟』

경기문화재연구원 [2009]

van Klinken, G.J. (1999). Bone collagen quality indicators for palaeodietary and radiocarbon measurements. J ournal of Archaeological Science, 26, 687-695.

Yu, J.A., Oh, C.S., Hong, J.H., Min S.R., Oh, S.H., Kim, Y.S., Park, J.B., & Shin, D.H. (2014). Stable isotope analysis of Joseon people skeletons from the cemeteries of Old Seoul City, the capital of Joseon Dynasty. Anatomy & Cell Biology, 47(4), 244-252.

Yoneda, M., Yoshida, K., Yoshinaga, J., Morita, M., & Akazawa, T. (1996). Reconstruction of palaeodiet in Nagano prefecture based on the carbon and nitrogen isotope and the trace elemental analysis. The Quaternary Research, 35, 293-303 [in Japanese].

Yoneda, M. (2012). Kaneiji shutsudo Tokugawa shogun shinzoku itai ni okeru tanso chisso doitai bunseki. In Kaneiji Yanaka Tokugawa-ke Kinse Bosho Chosa-dan (ed.), Toeizan Kaneiji Tokugawa Shogun-ke On-urakata Reibyo. Yoshikawa Kobunkan, Tokyo, 419-422 [in Japanese].

Yoneda, M. (2000). Shutsudo jinkotsu no tanso chisso douitaihihou ni yoru shokusei bunseki. In Yamanashi-ken maizo bunkazai center chosa hokoku sho vol. 179: Anrakuji-Higashiiseki. Yamanashi Prefecture Board of Education and Japan Road Traffic Information Center, Yamanashi, 28-30 [in Japanese].

Wei, S., Li, Y., Ma, Q., Lou, S., & Schreiner, M. (2015). Characterization of Tang Dynasty lamp oil remains by using pyrolysis gas chromatography and mass spectrometry, J ournal of Analytical and Applied Pyrolysis, 116, 237-242.

Tsutaya, T., Nagaoka, T., Sawada, J., Hirata, K., & Yoneda, M. (2014). Stable isotopic reconstructions of adult diets and infant feeding practices during urbanization of the city of Edo in 17th century Japan. American Journal of Physical Anthropology, 153, 559-569.

Tsutaya, T., Nagaoka, T., Kakinuma, Y., Kondo, O., & Yoneda M. (2016) The diet of townspeople in the city of Edo: carbon and nitrogen stable isotope analyses of human skeletons from Ikenohata-Shichikencho site. Anthropological Science, 124(1), 17-27.

Thompson, A.H., Chaix, L., & Richards, M.P. (2008). Stable isotopes and diet at Ancient Kerma, Upper Nubia (Sudan). Journal of Archaeological Science, 35, 376-387.

Sullivan, K.M., Mannucci, A., Kimpton, C.P., & Gill, P. (1993). A rapid and quantitative DNA sex test: Fluorescence-based PCR analysis of X-Y homologous gene amelogenin. BioTechniques, 15(4), 636-641.

Schoeninger, M.J., & De Niro, M.J. (1984). Nitrogen and carbon isotopic composition of bone collagen from marine and terrestrial animals. Geochimica et Cosmochimica Acta, 48, 625-639.

Rottl nder, R.C.A., & Schlichtherle, H. (1979). Food identification of samples from archaeological sites. Archaeo-physika, 10, 260-267.

Robinson, N., Evershed, R.P., Higgs, W.H., Jerman, K., & Eglinton, G. 1987). Proof of a pine wood origin for pitch from Tudor (Mary Rose) and Etruscan shipwrecks: application of analytical organic chemistry in archaeology. Analyst, 112, 637-644.

Richards, M.P., & Hedges, R.E.M. (1999). Stable isotope evidence for similarities in the types of marine foods used by Late Mesolithic humans at sites along the Atlantic coast of Europe. Journal of Archaeological Science, 26, 717-722.

Regert, M., Bland, H.A., Dudd, S.N., van Bergen, P.F., & Evershed, R.P. (1998). Free and bound fatty acid oxidation of products in archaeological ceramic vessels. Proceeding of the royal society B, 265, 2027-2032.

Regert, M. (2011). Analytical strategies for discriminating archaeologicak fatty substances from animal origin. Mass Spectroscopy Reviews, 30, 177-220.

Raven, A.M., van Bergen, P.F., Stott, A.W., Dudd, S.N., & Evershed, R.P. (1997). Formation of long-chain ketones in archaeological pottery vessels by pyrolysis of acyl lipids. J ournal of Analytical and Applied Pyrolysis, 40-41, 267-285.

Privat, K.L, O'Connell, T.C., & Richards, M.P. (2002). Stable isotope analysis of human and faunal remains from the Anglo-Saxon cemetery at Berinsfield, Oxfordshire: dietary and social implications. Journal of Archaeological Science, 29, 779-790.

Passi, S., Rotchild-Bores, M.C., Fasella, P., Navarro-Porro, M., & Whitehouse, D. (1981). An application of high performance liquid chromatography to analysis of lipids in archaeological samples. J ournal of Lipid Research, 22(5), 778-784.

Nagaoka, T., Abe, M., Tsutaya, T., Kawakubo, Y., Sakaue, K., Morita, W., Yoneda, M., Takuma, H., Yahiro, R., Hirata, K., & Inahara, A. (2013). Human skeletal remains of a chief-retainer family of the Akashi clan from the Unseiji site (Akashi, Japan) in the Edo period. Anthropological Science, 121, 31-48 [in Japanese].

Mukherjee, A.J., Gibson, A.M., & Evershed, R.P. (2008). Trands in pig product processing at British Neolithic Brooved Ware sites traced through organic residues in potsherds. J ournal of Archaeological Science, 35, 2059-2073.

McDonald, P., Edwards, R.D., & Greenhalgh, J.F.D. (1988). Animal Nutrition, Pergamon Press, Essex.

Marchand-Geneste, N., & Carpy, A. (2003). Theoretical study of the thermal degradation pathways of abietane skeleton diterpenoids: Aromatization to retene. Journal of Molecular Structure: THEOCHEM, 635, 55-82.

M ldner, G., & Richards, M.P. (2005). Fast and feast: reconstructing diet in later medieval England by stable isotope analysis. J ournal of Archaeological Science, 32, 39-48.

Lee-Thorp, J.A. (2008). On isotopes and old bones. Archaeometry, 50, 925-950.

Lee, W.J., Woo, E.J., Oh, C.S., Yoo, J.A., Kim, Y.S., Hong, J.H., Yoon, A.Y., Wilkinson, C.M., Ju, J.O., Choi, S.J., Lee, S.D., & Shin, D.H. (2016) Bio-Anthropological Studies on Human Skeletons from the 6th Century Tomb of Ancient Silla Kingdom in South Korea. PLOS ONE, 11(6), e0156632.

Lacquin, A.L., Colonese, A.C., Farrell, T.F.G., & Craig, O.E. (2016). Utilising phytanic acid diastereomers for the characterisation of archaeological lipid residues in pottery samples. Tetrahedron Letters, 57, 703-707.

Kusaka, S., Ikarashi T., Hyodo F., Fujisawa S., & Katayama K. (2011). Stable isotope analysis on human skeletal remains from the Edo-period Fushimi castle site in Japan. Anthropological Science, 119, 9-17 [in Japanese].

Koike, Y., Kosa, N., & Sato, R. (1990). Toritsu Ueno koto gakkoiseki shutsudo jinkotsu no δ13C δ15N niyoru shokusei bunseki. In Toeizan Kaneiji Gokokuin. Toritsu gakko Iseki Chosa kai, Tokyo, 369-374 [in Japanese].

Kaifu, Y., & Yoneda, M. (1999). Toyama-ken Uozu-shi Uozu-kou shikichi yori shutsudo sita kinsei jinkotsu. Bulletin of Uozu’s Hisotric Folk Museum, 5, 49-59 [in Japanese].

Jerković, I., Marijanović, Z., Gugić, M., & Roje, M. (2011). Chemical Profile of the Organic Residue from Ancient Amphora Found in the Adriatic Sea Determined by Direct GC and GC-MS Analysis. Molecules, 16, 7936-7948.

Heron, C., & Evershed, R.P. (1993). The analysis of organic residues and the study of pottery use. Archaeological Method and Theory, 5, 247-284.

Hedges, R.E.M., & Reynard, L.M. (2007). Nitrogen isotopes and the trophic level of humans in archaeology. Journal of Archaeological Science, 34, 1240-1251.

Hansel, F.A., Copley, M.S., Madureira, L.A.S., & Evershed, R.P. (2004). Thermally produced ω-(o-alkylphenyl)alkanoic acids provide evidence for the processing of marine products in archaeological pottery vessels. Tetrahedron Letters, 45, 2999-3002.

Hansel, F.A., Bull, I.D., & Evershed, R.P. (2011). Gas chromatographic mas spectrometric detection of dihydroxy fatty acid preservation in the 'bound' phase of organic residues of archaeological pottery vessels. Rapid Communications in Mass spectrometry, 25, 1893-1898.

Font, J., Salvad , N., But , S., & Enrich, J. (2007). Fourier transform infrared spectroscopy as a suitable technique in the study of the materials used in waterproofing of archaeological amphorae. Analytica Chimica Acta, 598, 119-127.

Evershed, R.P., Heron, C., Charters, S., & Goad, L.J. (1992). The survive of food residues: new methods of analysis, interpretation and application. Proceedings of the British academy, 77, 187-208.

Evershed, R.P., Heron, C., & Goad, L.J. (1990). Analysis of organic residues of archaeological origin by high temperature gas chromatography/mass spectrometry. Analyst, 115, 1339-1342.

Evershed, R.P., Dudd, S.N., Copley,M.S., Berstan, R., Stott, A.W., Mottram, H., Buckley, S.A., & Crossman, Z. (2002). Chemistry of Archaeological Animal Fats. Account of Chemical Research, 35(8), 660-668.

Evershed, R.P., Copley M.S., Dickson, L., & Hansel, F.A. (2008). Experimental evidence for the processing of marine animal products and other commodities containing polyunsaturated fatty acids in pottery vessels. Archaeometry, 50(1), 101-113.

Evershed, R.P. (2008b). Experimental approaches to the interpretation of absorbed organic residues in archaeological ceramics. World Archaeology, 40, 26-47.

Evershed, R.P. (2008a). Organic residue analysis in archaeology: the archaeological biomarker revolution. Archaeometry, 50(6), 895-924.

Evershed, R.P. (1993). Biomolecular archaeology and lipids. World Archaeology, 25, 74-93.

Evershed, R.P, Stott, A.W., Raven, A., Dudd, S.N., Charters, S., & Leyden, A. (1995). Formation of long-chain ketones in ancient pottery vessels by pyrolysis of acyl lipids. Tetrahedron Letters, 36(48), 8875-8878.

Enser, M. (1991). Animal carcass fats and fish oil. In Analysis of Oilseeds, Fats and Fatty Foods. Rossel, J.B. and Pritchard, J.L.R. ed. Elsevier Applied Science, London, UK.

Eerkens, J.W. (2005). GC-MS analysis and fatty acid ratiosof archaeological potsherds from the western great basin of North America. Archaeometry, 47, 83-102.

Dudd, S.N., & Evershed, R.P. (1998). Direct demonstration of milk as element of archaeological economies. Science, 282, 1478-1481.

Craig, O.E. Forster, M., Andersen, S.H., Koch, E., Cromb , P., Milner, N.J., Stern, B., Bailey, G.N., & Heron, C.P.. (2007). Molecular nd isotopic demonstration of the processing of aquatic products in northern European prehistoric pottery. Archaeometry, 49(1), 135-152.

Correa-Ascencio, M., & Evershed R.P. (2014). High throughput screening of organic residues in archaeological potsherds using direct acidified methanol extraction. Analytical Methods, 6, 1330-1340.

Copley, M.S., Bland, M.A., Rose, P., Horton, M., & Evershed, R.P. (2005c). Gas chromatographic, mass spectrometric and stable carbon isotopic investigations of organic residues of plant oils and animal fats employed as illuminants in archaeological lamps from Egypt. Analyst, 130, 860-871.

Copley, M.S., Berstan, R., Straker, V., Payne, S., & Evershed, R.P. (2005b). Dairying in antiquity. Ⅱ. Evidance from absorbed lipid residues dating to the British Bronze Age. Journal of Archaeological Science, 32, 505-521.

Copley, M.S., Berstan, R., Dudd, S.N., Straker, V., Payne, S., & Evershed, R.P. (2005a). Dairying in antiquity. Ⅰ. Evidance from absorbed lipid residues dating to the British Iron age. J ournal of Archaeological Science, 32, 485-503.

Condamin, J., Formenti, F., Metais, M.O., Michel, M., & Blond, P. (1976). The application of gas chromatography to the tracing of oil in ancient amphorae. Archaeometry, 18, 195-201.

Colombini, M.P., Giachi, G., Modugno, F., & Ribechini, E. (2005). Characterisation of organic residues in pottery vessels of the Roman age of Antione (Egypt). Microchemical Journal, 79, 83-90.

Choy, K., Jung, S., Nehlich, O., & Richards, M.P. (2015). Stable Isotopic Analysis of Human Skeletons from the Sunhung Mural Tomb, Yeongju, Korea: Implication for Human Diet in the Three Kingdoms Period. International J ournal of Osteoarchaeology, 25(3), 313-321.

Choy, K., Jeon, O.K., Fuller, B.T., & Richards, M.P. (2010a). Isotopic evidence of dietary variations and weaning practices in the Gaya cemetery at Yeanri, Gimhae, South Korea. American J ournal of Physical Anthropology, 142(1), 74-84.

Choy, K., An, D., & Richards, M.P. (2012). Stable isotopic analysis of human and faunal remains from the Incipient Chulmun (Neolithic) shell midden site of Ando Island, Korea. Journal of Archaeological Science, 39, 2091-2097.

Choy, K., & Richards, M.P. (2010b). Isotopic evidence for diet in the Middle Chulmun period: a case study from the Tongsamdong shell midden, Korea. Archaeological and Anthropological Sciences, 2, 1-10.

Choy, K., & Richards, M.P. (2009). Stable Isotope Evidence of Human Diet at the Nukdo Shell Midden Site, South Korea. Journal of Archaeological Science, 36(7), 1312-1318.

Brown, T.A., Nelson, D.E., Vogel, J.S., & Southon, J.R. (1988). Improved collagen extraction by modified Longin method. Radiocarbon, 30, 171-177.

Blanco-Zubiaguirre, L., Olivares, M., Castro, K., I a ez, J.G., & Madariaga, J.M. (2016). An alternative analytical method based on ultrasound micro bath hydrolysis and GC-MS analysis for the characterization of organic biomarkers in archaeological ceramics. Analytical and Bioanalytical Chemistry, 408(28), 8001-8012.

Bass, W.M. (1987). Human Osteology A laboratory and field manual, 3rd editions, Missouri Archaeological Society.

Ambrose, S.H., & Norr, L. (1993). Experimental evidence for the relationship of the carbon isotope ratios of whole diet and dietary protein to those of bone collagen and carbonate. 『Prehistoric human bone: archaeology et the molecular leve l』, Springer-Verlag, 1-37.

Ambrose, S.H. (1990). Preparation and characterization of bone and tooth collagen fod isotope analysis. J ournal of Archaeological Science, 17, 431-451.

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