Arxeoastronomiya - Archaeoastronomy

Boshqa maqsadlar uchun qarang Arxeoastronomiya (ajralish).
Buni chalkashtirib yubormaslik kerak Yulduzli arxeologiya.
Ko'tarilish Quyosh ning ichki kamerasini yoritadi Newgrange, Irlandiya, faqat qish fasli.

Arxeoastronomiya (shuningdek yozilgan arxeoastronomiya) bo'ladi fanlararo[1] yoki ko'p tarmoqli[2] o'tmishda odamlar qanday tushunganligini o'rganish hodisalar ichida osmon, bu hodisalarni qanday ishlatganliklari va osmon ular uchun qanday rol o'ynaganligi madaniyatlar ".[3] Clive Ruggles Arxeoastronomiyani qadimgi davrni o'rganish deb hisoblash noto'g'ri astronomiya, zamonaviy astronomiya ilmiy intizom bo'lsa, arxeoastronomiya osmondagi hodisalarni boshqa madaniyatlarning ramziy jihatdan boy madaniy talqinlarini ko'rib chiqadi.[4][5] Ko'pincha egizak bo'ladi etnoastronomiya, antropologik zamonaviy jamiyatlarda osmon tomosha qilishni o'rganish. Arxeoastronomiya ham chambarchas bog'liqdir tarixiy astronomiya, osmon voqealari tarixiy yozuvlaridan astronomik muammolarga javob berish uchun foydalanish va astronomiya tarixi, o'tmishdagi astronomik amaliyotni baholash uchun yozma yozuvlardan foydalaniladi.

Quyosh botishi tengkunlik tarixida Pizzo Vento saytidan ko'rilgan Fondachelli Fantina, Sitsiliya

Arxeoastronomiya arxeologiya, antropologiya, astronomiya, statistika va ehtimollik hamda tarixni o'z ichiga olgan o'tmishdagi amaliyotlarning dalillarini aniqlash uchun turli usullardan foydalanadi. Ushbu usullar xilma-xilligi va turli xil manbalardan olingan ma'lumotlardan foydalanganligi sababli, ularni izchil argumentga qo'shish arxeoastronomlar uchun uzoq muddatli qiyinchilik bo'lib kelgan.[6] Arxeoastronomiya to'ldiruvchi joylarni to'ldiradi landshaft arxeologiyasi va kognitiv arxeologiya. Moddiy dalillar va uning osmon bilan aloqasi yanada keng landshaftni qanday qilib birlashtirish mumkinligini ochib berishi mumkin tabiatning tsikllari haqidagi e'tiqodlar, kabi Maya astronomiyasi va uning qishloq xo'jaligi bilan aloqasi.[7] Idrok va landshaft g'oyalarini birlashtirgan boshqa misollarga aholi punktlari yo'llariga o'rnatilgan kosmik tartibni o'rganish kiradi.[8][9]

Arxeoastronomiya barcha madaniyatlarda va barcha davrlarda qo'llanilishi mumkin. Osmonning ma'nolari har xil madaniyatda farq qiladi; ammo qadimiy e'tiqodlarni o'rganishda madaniyatlarda qo'llaniladigan ilmiy uslublar mavjud.[10] Ehtimol, arxeoastronomiyaning ijtimoiy va ilmiy jihatlarini muvozanatlash zarurati Klayv Ragglzni "bir tomoni yuqori sifatli, ammo ikkinchisida aqlsizlik bilan chegaradosh nazoratsiz spekulyatsiya sohasi" deb ta'riflashga undagan.[11]

Tarix

O'zining "Astro-arxeologiya" ning qisqa tarixida Jon Mishel so'nggi ikki asr davomida qadimgi astronomiya bo'yicha tadqiqotlarning holati yaxshilanganini ta'kidlab, "aqlsizlikdan bid'atga qiziqarli tushunchaga va nihoyat pravoslavlik eshiklariga o'tdi". Taxminan yigirma yil o'tgach, biz hali ham savol bera olamiz: arxeoastronomiya hali ham pravoslavlik eshigida kutib turadimi yoki u darvoza ichiga kirdimi?

— Jon Misheldan iqtibos keltirgan Todd Bostvik[12]

Ikki yuz yil oldin Jon Mishel arxeoastronomlar yo'q edi va yo'q edi professional arxeologlar, ammo u erda astronomlar va antiqiylar. Ularning ayrim asarlari arxeoastronomiyaning kashshoflari hisoblanadi; antiqariylar ingliz qishloqlarini belgilab qo'ygan xarobalarning astronomik yo'nalishini quyidagicha talqin qildilar Uilyam Stukley qilgan Stonehenge 1740 yilda,[13] esa Jon Obri 1678 yilda[14] va Genri Chonsi 1700 yilda cherkovlarning yo'nalishi asosida shunga o'xshash astronomik printsiplarni izladi.[15] Kabi XIX asr oxirlarida astronomlar Richard Proktor va Charlz Piazzi Smit ning astronomik yo'nalishlarini o'rganib chiqdi piramidalar.[16]

Atama arxeoastronomiya 1973 yilda Elizabeth Chesley Baity (Euan Makkining taklifiga binoan) tomonidan ilgari surilgan,[17][18] ammo tadqiqot mavzusi sifatida u arxeoastronomiya qanday aniqlanganiga qarab ancha eski bo'lishi mumkin. Clive Ruggles[19] buni aytadi Geynrix Nissen, o'n to'qqizinchi asrning o'rtalarida ishlash, shubhasiz, birinchi arxeoastronom edi. Rolf Sinkler[20] buni aytadi Norman Lokyer 19-asr oxiri va 20-asr boshlarida ishlaganlarni "arxeoastronomiyaning otasi" deb atash mumkin edi. Euan Makki[21] "... arxeoastronomiyaning genezisi va zamonaviy gullashi shubhasiz Aleksandr Tom 1930 va 1970 yillar orasida Britaniyada ".

Dastlabki arxeoastronomlar Buyuk Britaniyadagi orollarda joylashgan megalitik inshootlarni tadqiq qilishgan Auglish yilda Londonderri okrugi, statistik qonuniyatlarni topishga urinishda.

1960-yillarda muhandis Aleksandr Tom va astronomning ishi Jerald Xokkins, kim buni taklif qildi Stonehenge edi a Neolitik kompyuter,[22] qadimiy joylarning astronomik xususiyatlariga yangi qiziqish uyg'otdi. Xokkinsning da'volari asosan rad etildi,[23] ammo bu Aleksandr Tomsning ishi uchun emas edi, uning so'rov natijalari megalitik saytlarda Britaniya orollarida aniq astronomiya amaliyotining keng tarqalganligi taxmin qilingan.[24] Tuanning nazariyalarini sinab ko'rish kerakligini anglagan Euan Makki 1970 va 1971 yillarda Argilllshirdagi Kintraw turgan tosh maydonchasida qazib olib, toshning tepalikdagi qiyalikdagi kuzatuv platformasi haqidagi bashoratining to'g'riligini tekshirdi. U erda sun'iy platforma mavjud edi va Tomsning uzoqqa tenglashish gipotezasini aniq tekshirish (Kintraw aniq deb tashxis qo'yilgan qish fasli sayt) uni Thomning Kultoondagi geometrik nazariyalarini tekshirishga undadi tosh doirasi Islayda ham ijobiy natija bilan. Shuning uchun Makki Tomsning xulosalarini keng qabul qildi va Britaniyaning yangi tarixlarini nashr etdi.[25] Aksincha, Tomning dala ishlarini Kliv Ragles tomonidan qayta baholash Tomsning yuqori aniqlikdagi astronomiya haqidagi da'volari dalillar bilan to'liq tasdiqlanmaganligini ta'kidladi.[26] Shunga qaramay, Tomsning merosi mustahkam bo'lib qolmoqda, Edvin C. Krupp[27] 1979 yilda shunday deb yozgan edi: "Deyarli yakka o'zi u arxeo-astronomik dala ishlari va talqin qilish standartlarini o'rnatdi va uning ajoyib natijalari so'nggi o'ttiz yil ichida tortishuvlarga sabab bo'ldi". Ma'lumotlarni statistik sinovdan o'tkazish amaliyoti va ta'siri uning arxeoastronomiya usullaridan biri bo'lib qolmoqda.[28][29]

Taklif qilingan Mayya kabi saytlar Uxmal astronomik yo'nalishlarga muvofiq ravishda qurilgan.

Ga yaqinlashish Yangi dunyo, bu erda antropologlar astronomiyaning rolini to'liqroq ko'rib chiqa boshladilar Amerikalik tsivilizatsiyalar, sezilarli darajada boshqacha edi. Ular manbalardan foydalanish imkoniyatiga ega edilar tarix kabi Evropaning etishmasligi etnografiyalar[30][31] va dastlabki tarixiy yozuvlar mustamlakachilar. Entoni Avenining kashshof namunasiga ergashib,[32][33] bu Yangi Dunyo arxeoastronomlariga Eski Dunyoda shunchaki taxminlar bo'lgan motivlar bo'yicha da'vo qilishlariga imkon berdi. Tarixiy ma'lumotlarga kontsentratsiya Evropada olib borilgan statistik tekshiruvlarga nisbatan ancha zaif bo'lgan yuqori aniqlik bo'yicha ba'zi da'volarni keltirib chiqardi.[34]

Bu homiylik qilgan yig'ilishda boshga chiqdi Xalqaro Astronomiya Ittifoqi (IAU) in Oksford 1981 yilda.[35] Ishtirokchilarning metodikasi va tadqiqot savollari shunchalik boshqacha deb hisoblandiki, konferentsiya materiallari ikki jild bo'lib nashr etildi.[36][37] Shunga qaramay, konferentsiya tadqiqotchilarni birlashtirishda muvaffaqiyatli hisoblanadi va Oksford konferentsiyalari har to'rt yoki besh yilda bir marta dunyoning turli joylarida davom etadi. Keyingi konferentsiyalar arxeologik tadqiqotlarning kontekstualligini birlashtirishga qaratilgan tadqiqotchilar bilan ko'proq fanlararo yondashuvlarga o'tishga olib keldi,[38] arxeoastronomiya nafaqat qadimgi astronomiyalar mavjudligini belgilash o'rniga, bugungi kunda arxeoastronomiya holatini keng tavsiflaydi, nima uchun odamlar tungi osmonga qiziqish bildirishini tushuntirishga harakat qilishadi.

Boshqa fanlarga aloqalar

... [O] arxeoastronomiyaning eng yoqimli xususiyatlaridan biri bu uning turli sohalardagi akademiklarni bir-biri bilan ziddiyatlarga solish qobiliyatidir.

— Clive Ruggles[39]

Arxeoastronomiya uzoq vaqtdan beri boshqa madaniyatlarning astronomiyalarini o'rganish uchun yozma va yozilmagan dalillardan foydalanadigan fanlararo soha sifatida qaraldi. Shunday qilib, qadimgi astronomiyani tadqiq qilish uchun boshqa intizomiy yondashuvlarni birlashtiruvchi sifatida ko'rish mumkin: astroarxeologiya (qadimgi me'morchilik va landshaftlar uyg'unligidan astronomik ma'lumot oladigan tadqiqotlar uchun eskirgan atama), astronomiya tarixi (bu asosan yozma matnli dalillar bilan shug'ullanadi) va etnoastronomiya (bu tarixiy yozuvlar va zamonaviy etnografik tadqiqotlar asosida).[40][41]

Arxeoastronomiyaning disiplinlerarası mavzu sifatida rivojlanishini aks ettirgan holda, ushbu sohadagi tadqiqotlar turli xil fanlar bo'yicha o'qitilgan tergovchilar tomonidan olib boriladi. Yaqinda o'tkazilgan doktorlik dissertatsiyalari mualliflari o'zlarining ishlarini arxeologiya va madaniy antropologiya sohalariga tegishli deb ta'rifladilar; tarixning turli sohalari, shu jumladan aniq mintaqalar va davrlar tarixi, fan tarixi va din tarixi bilan; astronomiyaning san'at, adabiyot va din bilan aloqasi bilan. Faqat kamdan-kam hollarda ular o'zlarining ishlarini astronomik deb ta'rifladilar, keyin esa faqat ikkinchi darajali toifaga aylantirdilar.[42]

Amaliyotchi arxeoastronomlar ham, intizomni kuzatuvchilar ham unga turli nuqtai nazardan qarashadi. Jorj Gummerman va Miranda Warburtonlar arxeoastronomiyani arxeologiyaning bir qismi deb hisoblashadi madaniy antropologiya va "guruhning o'zlari haqidagi tushunchasini osmonga nisbatan", bir so'z bilan aytganda, uning kosmologiyasini tushunishga qaratilgan.[43] Todd Bostvik "arxeoastronomiya antropologiya - insonning o'tmish va hozirgi davrdagi xulq-atvorini o'rganadi", deb ta'kidlagan.[44] Pol Bahn arxeoastronomiyani kognitiv arxeologiya sohasi deb ta'riflagan.[45] Boshqa tadqiqotchilar arxeoastronomiyani ilm-fan tarixi bilan bog'laydilar, chunki bu madaniyatning tabiatni kuzatishlari va ushbu kuzatishlarga buyurtma berish uchun o'ylab topgan kontseptual asoslari bilan bog'liq.[46] yoki ma'lum bir tarixiy aktyorlarni ma'lum bir astronomik tushunchalarni yoki texnikani joylashtirishga undagan siyosiy sabablarga tegishli.[47][48] San'atshunos Richard Poss yanada g'ayratli yondoshdi va Shimoliy Amerika janubi-g'arbiy qismidagi astronomik tosh san'ati "g'arbiy san'atshunoslik va san'atshunoslikning hermenevtik an'analari" asosida o'qilishi kerak edi.[49] Biroq, astronomlar o'zlarining talabalariga identifikatsiya qilinadigan narsalarni berishga intilib, turli xil savollarni ko'tarishadi kashshoflar ularning intizomiga oid masalalar va ayniqsa, aniq saytlar ataylab astronomik ekanligini qanday tasdiqlash kerakligi haqidagi muhim savol bilan bog'liq.[50]

Professional arxeologlarning arxeoastronomiyaga bo'lgan munosabatlari qat'iyan aralashgan. Ba'zilar tushunmovchilikni yoki hatto dushmanlikni ifoda etdilar, ular arxeoastronomik chekka deb hisoblagan narsaning rad etilishidan tortib, arxeologlarning madaniy yo'nalishi va dastlabki arxeoastronomlarning miqdoriy yo'nalishi o'rtasidagi tushunmovchilikgacha.[51] Ammo arxeologlar tobora ko'proq arxeoastronomiyadan tushunchalarni arxeologiya darsliklariga kiritmoqdalar.[52] va, yuqorida aytib o'tganimizdek, ba'zi talabalar arxeoastronomik mavzularda arxeologik dissertatsiyalar yozdilar.

Arxeoastronomlar intizomni tavsiflash bo'yicha juda keng kelishmovchiliklarga ega bo'lganligi sababli, ular hatto uning nomi bilan ham bahslashmoqdalar. Uchta yirik xalqaro ilmiy birlashmalar ham ushbu atamadan foydalangan holda arxeoastronomiyani madaniyatni o'rganish bilan bog'liq Madaniyatdagi astronomiya yoki tarjima. Maykl Xoskin intizomning muhim qismini nazariy emas, balki faktlarni yig'ish deb biladi va intizomning ushbu jihatini belgilashni taklif qildi Arxeotopografiya.[53] Raglz va Sonders taklif qildi Madaniy astronomiya xalq astronomiyalarini o'rganishning turli usullari uchun birlashtiruvchi atama sifatida.[54] Boshqalar astronomiya noto'g'ri atamadir, nima o'rganilayotganini ta'kidladilar kosmologiyalar va foydalanishga qarshi bo'lgan odamlar logotiplar ispanlarni qabul qilishni taklif qildilar kosmovision.[55]

Bahslar texnikalar o'rtasida polarizatsiya bo'lganda, usullar birinchi bo'lib yondashuvlar birinchi bo'lib ajratilgan birinchi Oksford konferentsiyasidan ikki jildning bog'lanish ranglariga asoslangan holda rang kodi bilan ataladi.[56] Yashil (Eski dunyo ) arxeoastronomlar asosan statistik ma'lumotlarga tayanadilar va ba'zida ijtimoiy amaliyot nima ekanligini madaniy kontekstni sog'inishda ayblashadi. Jigarrang (Yangi dunyo ) arxeoastronomlar aksincha, etnografik va tarixiy dalillarga ega va o'lchov va statistik tahlil masalalarida "otliq" deb ta'riflangan.[57] Turli xil yondashuvlarni birlashtirish usulini topish 1990-yillarning boshidan buyon ko'p muhokama qilinmoqda.[58][59]

Metodika

Uzoq vaqt davomida men bunday xilma-xillik ba'zi qamrab oluvchi nazariyani ixtiro qilishni talab qiladi deb ishongan edim. O'ylaymanki, bunday narsa har doim bo'lishi mumkin edi, deb o'ylaganimda juda sodda edim.

— Stanislav Iwaniszewski[60]

Arxeoastronomiya qilishning yagona usuli yo'q. Arxeoastronomlar o'rtasidagi bo'linishlar fizik olimlar va ijtimoiy olimlar o'rtasida bo'lmasligi kerak. Buning o'rniga u tadqiqotchi uchun mavjud bo'lgan ma'lumotlar turiga bog'liq. Qadimgi dunyoda ma'lumotlar oz, ammo saytlarning o'zi; Yangi dunyoda saytlar etnografik va tarixiy ma'lumotlar bilan to'ldirildi. Arxeoastronomiyaning turli joylarda izolyatsiya qilingan rivojlanishining samaralarini bugungi kunda ham tadqiqotlarda ko'rish mumkin. Tadqiqot usullarini ikkita yondashuvning biriga kirgan deb tasniflash mumkin, ammo so'nggi loyihalarda ko'pincha ikkala toifadagi usullardan foydalaniladi.

Yashil arxeoastronomiya

Yashil arxeoastronomiya kitob muqovasi nomi bilan nomlangan Qadimgi dunyoda arxeoastronomiya.[61] U asosan statistik ma'lumotlarga asoslanadi va ayniqsa, tarixiy davrga nisbatan ijtimoiy dalillar nisbatan kam bo'lgan tarixgacha bo'lgan saytlar uchun juda mos keladi. Asosiy usullar Aleksandr Tom tomonidan Britaniyaning megalitik saytlarini keng tadqiq qilish paytida ishlab chiqilgan.

Thom tarixgacha bo'lgan xalqlarning yuqori aniqlikdagi astronomiyadan foydalanganligini yoki ishlatmaganligini tekshirishni xohladi. U gorizont astronomiyasidan foydalanib, kuzatuvchilar yilning sanalarini aniq kunga qadar taxmin qilishlari mumkin deb ishongan. Kuzatuv uchun ma'lum bir kunda Quyosh ufqning tepasida joylashgan joyni topish kerak edi. Umumiy mavzu - bu Quyoshni to'sib qo'ygan tog'dir, lekin to'g'ri kunda eng kichik kasrning boshqa tomonda "ikki marta quyosh botishi '. Quyidagi animatsiyada ikkita quyosh botishi ko'rsatilgan taxminiy sayt, bir kun oldin yoz kunlari ikkinchisi esa quyosh botishi ikki barobar bo'lgan yozgi kunduzda.

Ushbu g'oyani sinab ko'rish uchun u yuzlab tosh qatorlar va doiralarni o'rganib chiqdi. Har qanday individual hizalanma tasodifan yo'nalishni ko'rsatishi mumkin edi, lekin u hizalamalar taqsimotining tasodifiy bo'lmaganligini ko'rsatishni rejalashtirdi va hech bo'lmaganda ba'zi hizalanmalar yo'nalishiga astronomik niyat borligini ko'rsatdi. Uning natijalari yil sakkiz, o'n oltita yoki ehtimol o'ttiz ikkita teng taqsimot mavjudligini ko'rsatdi. Ikki quyosh kunlari, ikkitasi teng kunlar va to'rtta choraklararo kunlar, kun bilan tenglashish o'rtasida yarim kunlik kunlar O'rta asrlarning keltlar taqvimi bilan bog'liq edi.[62] Ushbu xulosalarning barchasi qabul qilinmagan bo'lsa-da, bu arxeoastronomiyaga, ayniqsa Evropada doimiy ta'sir ko'rsatdi.

Evan Makki Tomsning tahlilini qo'llab-quvvatladi va unga taqqoslash orqali arxeologik kontekstni qo'shdi Neolitik Buyuk Britaniya uchun Maya tsivilizatsiyasi bu davrda tabaqalashtirilgan jamiyat uchun bahslashish.[25] O'zining g'oyalarini sinab ko'rish uchun u Shotlandiyadagi tarixdan oldingi rasadxonalarda bir nechta qazish ishlarini olib bordi. Kintraw balandligi to'rt metr bo'lgan tosh bilan ajralib turadigan joy. Thom bu Baynn Shianaidh va Beynn O'Cholias o'rtasidagi uzoq ufqda joylashgan nuqtani oldindan ko'rish edi, deb taklif qildi. Yura.[63] Bu, Tomsning ta'kidlashicha, qishning o'rtalarida quyosh botishi mumkin bo'lgan ufqdagi chiziq edi. Biroq, zamin darajasidan boshlab, bu quyosh botishini landshaftdagi tizma to'sib qo'yar edi va tomoshabinni ikki metrga ko'tarish kerak edi: yana bir kuzatuv platformasi kerak edi. Bu mayda toshlardan platforma hosil bo'lgan jarlik bo'ylab aniqlandi. Artefaktlarning etishmasligi ba'zi arxeologlarni xavotirga solgan va petrofabrikani tahlil qilish natijasiz edi, ammo keyingi tadqiqotlar Mays Xou[64] va Bush Barrou Lozenge[65] Makkini "fan" atamasi anaxronistik bo'lishi mumkin bo'lsa-da, Tom yuqori aniqlikdagi moslashtirish mavzusida keng ma'noda degan xulosaga keldi.[66]

Farqli o'laroq Clive Ruggles Toms so'rovlarida ma'lumotlarni tanlashda muammolar mavjudligini ta'kidladi.[67][68] Boshqalar ufq astronomiyasining aniqligi o'zgarishlar bilan cheklanganligini ta'kidladilar sinish ufqqa yaqin.[69] Yashil arxeoastronomiyani chuqurroq tanqid qilish - bu javob bera olishidir yo'qmi o'tmishda astronomiyaga qiziqish bo'lishi mumkin edi, chunki uning ijtimoiy elementi yo'qligi bu javob berishga qiynalishini anglatadi nima uchun odamlar ilgari qiziqish uyg'otadi, bu o'tmishdagi jamiyat haqida savol beradigan odamlardan cheklangan foydalanishga imkon beradi. Keyt Kintigh shunday deb yozgan edi: "Ochig'ini aytganda, ko'p hollarda antropologiyaning rivojlanishi uchun ma'lum bir arxeoastronomik da'voning to'g'ri yoki noto'g'riligi muhim emas, chunki ma'lumot hozirgi talqin savollariga xabar bermaydi".[70] Shunga qaramay, hizalamalarni o'rganish, ayniqsa Evropada, arxeoastronomik tadqiqotlarning asosiy qismi bo'lib qolmoqda.[71]

Jigarrang arxeoastronomiya

Yashil arxeoastronomiyaning asosan hizalanishga yo'naltirilgan statistik jihatdan olib borilgan usullaridan farqli o'laroq, jigarrang arxeoastronomiya astronomiya tarixi yoki ga madaniy tarix, tarixiy va etnografik yozuvlarga asoslanib, dastlabki astronomiyalar va ularning taqvim va marosimlar bilan aloqalari haqidagi tushunchalarini boyitadi.[56] Ispan xronikachilari tomonidan yaratilgan mahalliy urf-odatlar va e'tiqodlarning ko'pgina yozuvlari shuni anglatadiki, jigarrang arxeoastronomiya ko'pincha Amerikadagi astronomiya tadqiqotlari bilan bog'liq.[72]

Tarixiy yozuvlardan saytlarni talqin qilishda foydalanilgan mashhur saytlardan biri Chichen Itza. Arxeoastronomlar saytni tahlil qilish va qaysi nishonlar mashhur ko'rinishini ko'rish o'rniga, etnografik yozuvlarni o'rganib, osmonning qaysi xususiyatlari Mayya va keyin arxeologik korrelyatlar izlandi. Tarixiy yozuvlarsiz e'tiborsiz qoldirilishi mumkin bo'lgan bir misol - bu mayyalarning sayyoraga bo'lgan qiziqishi Venera. Ushbu qiziqish tomonidan tasdiqlangan Drezden kodeksi unda Veneraning osmonda paydo bo'lishi haqida ma'lumot berilgan jadvallar mavjud.[73] Ushbu tsikllar Venera bilan bog'liq bo'lganligi sababli astrolojik va marosim ahamiyatga ega bo'lar edi Quetzalcoatl yoki Xolotl.[74] Arxitektura xususiyatlari bilan Venera parametrlari uyushmalarini Chichen Itza, Uxmal va, ehtimol, Mesoamerikaning ba'zi boshqa joylarida topish mumkin.[75]

"El Caracol", Chichen Itza shahridagi mumkin bo'lgan rasadxona ibodatxonasi

Jangchilar ibodatxonasida Quetzalcoatl yoki Kukulcan bilan bog'liq tukli ilonlar tasvirlangan ikonografiya mavjud. Bu shuni anglatadiki, binoning kechqurun osmonda Venera birinchi marta paydo bo'lgan ufqdagi joyga to'g'ri kelishi (yomg'irli mavsumga to'g'ri kelganda) mazmunli bo'lishi mumkin.[76] Biroq, ushbu hodisaning sanasi ham, azimuti ham doimiy ravishda o'zgarib turishi sababli, ushbu yo'nalishni quyosh talqini ehtimoli katta.[77]

Aveni Kukulkan shaklida Venera sayyorasi bilan bog'liq bo'lgan yana bir bino va Chichen Itza yomg'irli mavsumi deb da'vo qilmoqda. Karakol.[78] Bu dumaloq minora va eshiklari asosiy yo'nalishlarga qaragan bino. Baza Veneraning eng shimoliy tomoniga qarab turadi. Binoning yuqori platformasidagi stilobat ustunlari qora va qizil rangga bo'yalgan. Bu Venera bilan kechqurun va ertalab yulduz sifatida bog'langan ranglar.[79] Ammo minoradagi derazalar teshiklardan biroz ko'proq bo'lib tuyulgan, chunki ular yorug'likni yaxshi ta'minlamaydilar, lekin ko'rish uchun mos joy yaratdilar.[80] Arxeoastronomik joylarning ishonchliligini muhokama qilishda, Kott va Raggles Karakolning rasadxona joyi ekanligi haqidagi talqinni mutaxassislar o'rtasida munozarali munozarani ko'rib chiqdilar va ularning to'rtinchi darajadagi ishonchliligini qondirdilar.[81]

Aveni, jigarrang metodologiyaning kuchli tomonlaridan biri shundaki, u statistik tahlilga ko'rinmaydigan astronomiyalarni o'rganishi va astronomiyasini taklif qilishi mumkin. Incalar yana bir misol sifatida. Inklar imperiyasi yordamida kontseptual ravishda bo'lingan cheques da poytaxtdan chiqadigan radial yo'nalishlar Cusco. Shunday qilib, barcha yo'nalishlarda astronomik ahamiyatga ega emasligini ko'rsatadigan kelishuvlar mavjud, ammo, etnohistorik yozuvlar shuni ko'rsatadiki, turli yo'nalishlar kosmologik va astronomik ahamiyatga ega bo'lib, landshaftning turli nuqtalari yilning turli vaqtlarida ahamiyatlidir.[82][83] Sharqiy Osiyoda arxeoastronomiya astronomiya tarixidan rivojlandi va ko'plab arxeoastronomiya tarixiy yozuvlarning moddiy o'zaro bog'liqligini izlamoqda. Bu astronomik hodisalarning boy tarixiy rekordlari bilan bog'liq bo'lib, ular Xitoyda yana kengayib boradi Xan sulolasi, miloddan avvalgi ikkinchi asrda.[84]

Ushbu uslubni tanqid qilish shundaki, u statistik jihatdan zaif bo'lishi mumkin. Sheefer, xususan, Karakolda da'vo qilingan yo'nalishlarning qanchalik mustahkamligiga shubha qildi.[85][86] Artefaktlarni va saytlarni o'z ichiga olishi mumkin bo'lgan turli xil dalillarga ega bo'lganligi sababli, arxeoastronomiya bilan shug'ullanishning biron bir usuli yo'q.[87] Shunga qaramay, arxeoastronomiya alohida o'tiradigan intizom emasligi qabul qilingan. Arxeoastronomiya fanlararo soha bo'lganligi sababli, tekshirilayotgan har qanday narsa ham arxeologik, ham astronomik jihatdan mantiqiy bo'lishi kerak. Bu kabi arxeologiyada topilgan nazariy vositalardan foydalansangiz, tadqiqotlar sog'lom deb hisoblanadi o'xshashlik va homologiya va agar ular astronomiyada aniqlik va aniqlik tushunchasini namoyish qila olsalar. Yaqinda Mayya hududidagi me'moriy yo'nalishlarni tizimli o'rganishda etnografik o'xshashlik va boshqa kontekstual dalillarga asoslangan ikkala miqdoriy tahlil va talqinlar qo'llanilmoqda.[88] va Mesoamerikaning boshqa qismlarida.[89]

Manba materiallari

Arxeoastronomiya odamlarning osmon bilan o'zaro aloqalarining ko'p va xilma-xilligi haqida bo'lganligi sababli, astronomik amaliyotlar to'g'risida ma'lumot beruvchi turli xil manbalar mavjud.

Hizalamalar

Arxeoastronomiya uchun ma'lumotlarning keng tarqalgan manbai bu hizalamalarni o'rganishdir. Buning sababi, arxeologik maydonni tekislash o'qi mazmunli ravishda astronomik maqsadga yo'naltirilganligi haqidagi taxminlarga asoslanadi. Jigarrang arxeoastronomlar ushbu taxminni tarixiy yoki etnografik manbalarni o'qish orqali oqlashlari mumkin, yashil arxeoastronomlar esa hizalamalarni tasodifan tanlab olish mumkin emasligini isbotlashga intilishadi, odatda bir nechta joylarda tekislashning umumiy naqshlarini namoyish qilishadi.

Hizalama o'lchash orqali hisoblanadi azimut, strukturaning shimoldan burchagi va u qaragan ufqning balandligi[90] Azimut odatda a yordamida o'lchanadi teodolit yoki a kompas. Kompasni ishlatish osonroq, ammo Yer magnit maydonining haqiqiy shimoldan og'ishi, uning nomi magnit moyillik hisobga olinishi kerak. Kompaslar magnit aralashuvga moyil bo'lgan joylarda, masalan, iskala yordamida qo'llab-quvvatlanadigan joylarda ham ishonchsizdir. Bundan tashqari, kompas azimutni faqat yarim daraja aniqlikda o'lchashi mumkin.[91]

Teodolit to'g'ri ishlatilganda ancha aniqroq bo'lishi mumkin, ammo uni to'g'ri ishlatish ancha qiyin. Teodolitni Shimol bilan tekislashning o'ziga xos usuli yo'q va shuning uchun o'lchov bo'lishi kerak kalibrlangan astronomik kuzatuvdan foydalanib, odatda Quyoshning pozitsiyasi.[92] Yerning aylanishi tufayli osmon jismlarining holati sutkaning o'zgarishiga qarab o'zgarib turishi sababli, bu kalibrlash kuzatuvlari vaqti aniq ma'lum bo'lishi kerak, aks holda o'lchovlarda sistematik xato bo'ladi. Ufq balandliklarini teodolit yoki a bilan o'lchash mumkin klinometr.

Artefaktlar

Antikithera mexanizmi (asosiy qism)

Kabi asarlar uchun Nebraning osmon disklari, Bronza davri kosmosni aks ettiruvchi artefakt deb da'vo qilingan,[93][94] tahlil odatdagiga o'xshash bo'lar edi qazishdan keyingi tahlil arxeologiyada boshqa sub'ektlarda ishlatilganidek. Artefakt o'rganilib, boshqa xalqlarning tarixiy yoki etnografik yozuvlari bilan o'xshashlik yaratishga urinishlar qilinmoqda. Parallelliklarni topish mumkin bo'lganligi sababli, boshqa arxeologlar tomonidan tushuntirishni qabul qilish ehtimoli ko'proq.

Oddiyroq misol - bu mavjudlik astrolojik belgilar Rim imperiyasidagi ba'zi poyabzal va sandallarda topilgan. Oyoq kiyimlari va poyabzallardan foydalanish yaxshi ma'lum, ammo Kerol van Driel-Myurrey sandalga tushirilgan astrolojik belgilar poyabzalga ma'naviy yoki dorivor ma'no berishni taklif qildi.[95] Bunga astrolojik belgilarning boshqa ma'lum ishlatilishlari va ularni tibbiy amaliyot bilan va o'sha davrning tarixiy yozuvlari bilan bog'lash orqali keltirish mumkin.[96]

Astronomik foydalanishga ega bo'lgan yana bir taniqli artefakt bu Antikithera mexanizmi. Bunday holda, artefaktni tahlil qilish va Tsitseron tomonidan tavsiflangan o'xshash qurilmalarning tavsifiga murojaat qilish, ushbu qurilma uchun maqbul foydalanishni ko'rsatishi mumkin. Argumentlar mexanizmda belgilar mavjud bo'lib, diskni o'qishga imkon beradi.[97]

San'at va yozuvlar

Quyidagi xanjarlarning joylashishini ko'rsatuvchi diagramma Fajada Butte turli kunlarda petroglif

San'at va yozuvlar nafaqat asarlar bilan chegaralanib qolishi, balki arxeologik maydonga bo'yalgan yoki yozilgan ko'rinishi ham mumkin. Ba'zida yozuvlar saytdan foydalanish bo'yicha ko'rsatmalar berish uchun etarlicha yordam beradi. Masalan, steladagi yunoncha yozuv (dan Itanos ) quyidagicha tarjima qilingan: "Patron buni Zevs Epopsios uchun o'rnatdi. Qish kunlari. Kimdir bilishni xohlasa:" kichkina cho'chqa "dan chiqib, steldan quyosh aylanadi."[98] Mesoamerikadan keladi Maya va Aztek kodlari. Bular buklangan kitoblar Amatl, joylashgan daraxtning qobig'i qayta ishlangan gliflar yilda Maya yoki Aztek yozuvi. The Drezden kodeksi Venera tsikliga oid ma'lumotlarni o'z ichiga oladi, bu uning Mayya uchun ahamiyatini tasdiqlaydi.[73]

Quyoshning turli vaqt va fasllarda harakatlanishi yorug'lik va soyaning o'zaro ta'sirini keltirib chiqaradigan holatlar yanada muammoli petrogliflar.[99] Keng taniqli misol - Quyosh xanjaridir Fajada Butte bunda spiral petroglifdan quyosh nuri porlaydi.[100] Petroglifda yorug'lik xanjarining joylashishi yil davomida o'zgarib turadi. Yozgi kunduzda spiral yuragi orqali xanjar ko'rish mumkin; qish faslida uning ikki tomonida ikkita xanjar ko'rinadi. Ushbu petroglif ushbu voqealarni belgilash uchun yaratilgan deb taklif qilinmoqda. So'nggi tadqiqotlar AQShning janubi-g'arbiy va Meksikaning shimoliy-g'arbiy qismlarida o'xshash joylarni aniqladi.[101][102] Ushbu saytlarda solstitsial markerlar soni ularning quyosh nurlarini belgilashga qaratilganligi to'g'risida statistik dalillar keltiradi, deb ta'kidladilar.[103] Nyu-Meksiko shtatidagi Chako Kanyonidagi Fajada Buttda joylashgan "Sun xanjar" sayti quyosh va oy tsikllarining barcha muhim voqealari - yozgi kun botishi, qish fasllari, tengkunlik va katta va kichik kunlarni qayd etuvchi aniq yorug'lik belgilari bilan ajralib turadi. oyning to'xtashi Oyning 18,6 yillik tsiklining.[104][105] Fajada-Buttdagi yana ikkita saytda qo'shimcha ravishda petrogliflarda yoz va qish fasllari, tengkunlik va quyosh peshinlari yozilgan beshta yorug'lik belgisi mavjud.[106] Chako Kanyonidagi ulkan uylarning ko'plab binolari va binolararo tekisliklari va Quyosh xanjarida belgilangan quyosh va oy yo'nalishlariga yo'naltirilgan.[107]

Agar ushbu tasdiqni qo'llab-quvvatlaydigan etnografik yoki tarixiy ma'lumotlar topilmasa, g'oyani qabul qilish Shimoliy Amerikada bunday o'zaro bog'liqlik tasodifan sodir bo'lishi mumkin bo'lgan petroglif joylari etarli yoki yo'qligiga bog'liq. Petrogliflar mavjud bo'lgan xalqlar bilan bog'langanida foydalidir. Bu etnoastronomlarga ma'lumot beruvchilardan bunday ramzlarning ma'nosini so'rashga imkon beradi.

Etnografiyalar

Xalqlarning o'zlari qoldirgan materiallar bilan bir qatorda, ularga duch kelgan boshqa kishilarning hisobotlari ham mavjud. Tarixiy yozuvlari Konkistadorlar Kolumbiyadan oldingi amerikaliklar haqida boy ma'lumot manbai. Etnograflar ko'plab boshqa xalqlar haqida ma'lumot beradi.

Aveni zenit parchalarining ahamiyatini etnografiyaning ahamiyati misolida ishlatadi. Saraton va Uloq tropiklari orasida yashovchi xalqlar uchun yilning ikki kuni bor, peshin Quyosh to'g'ridan-to'g'ri tepadan o'tib, soya solmaydi. Mesoamerika qismlarida bu kun muhim kun deb hisoblandi, chunki bu yomg'ir yog'ishini e'lon qiladi va shuning uchun qishloq xo'jaligi aylanishida muhim rol o'ynaydi. Ushbu bilim bugungi kunda Markaziy Amerikada yashovchi mayya hindulari orasida hali ham muhim hisoblanadi. Etnografik yozuvlar arxeoastronomlarga ushbu kun qadimgi mayyaliklar uchun muhim bo'lgan bo'lishi mumkinligini taxmin qildi. Quyosh tepadan o'tib ketganda er osti xonalarini yoritadigan "zenit naychalari" deb nomlangan vallar ham mavjud. Monte Alban va Xochicalco. Faqatgina etnografiya orqali biz Mayya jamiyatida yorug'lik vaqti muhim deb hisoblangan deb taxmin qilishimiz mumkin.[108] Zenitdan o'tish kunida quyosh chiqishi va botishi bilan tenglashishlar bir nechta joylarda mavjud deb da'vo qilingan. Biroq, ushbu hodisalar bilan bog'liq bo'lishi mumkin bo'lgan yo'nalishlar juda kam bo'lganligi sababli, ular turli xil tushuntirishlarga ega ekanligi ko'rsatildi.[109]

Shuningdek, etnografiyalar saytlarni ortiqcha izohlashdan ehtiyot bo'lishadi. Saytdagi Chako kanyoni topish mumkin a piktogramma yulduz, yarim oy va qo'l bilan. Bu ba'zi bir astronomlar tomonidan qayd etilgan deb ta'kidlashmoqda 1054 Supernova.[110] Biroq yaqinda o'tkazilgan "supernova petrogliflari" ni qayta ko'rib chiqish, umuman bunday saytlarga oid savollarni tug'dirmoqda.[111] Cotte and Ruggles Supernova petrpglyph-dan butunlay rad etilgan saytga misol sifatida foydalangan[81] va antropologik dalillar boshqa tanqisliklarni keltirib chiqaradi. The Zuni xalqi, Chako bilan ajdodlarimizning kuchli mansubligini da'vo qilganlar, Chako saytida topilganlarga o'xshash, yarim oy, yulduz, qo'l va quyosh nurlari bilan quyosh nurlarini tomosha qilish stantsiyasini belgilab qo'yishdi.[112]

Etnoastronomiya shuningdek, Amerika qit'asidan tashqarida ham muhim sohadir. Masalan, avstraliyalik avstraliyaliklar bilan olib borilgan antropologik ishlar ular haqida juda ko'p ma'lumotlarga ega Mahalliy astronomiyalar[113][114] va ularning zamonaviy dunyo bilan o'zaro ta'siri haqida.[115]

Qadimgi osmonni qayta tiklash

... [A] turli xil madaniyatlarda ilm-fanning turli xil usullari va turli xil ilmiy natijalar paydo bo'lishiga qaramay, bu fanlarning biz yashayotgan dunyo haqida ishonchli bayonot berish qobiliyatiga shubha qilish uchun bunday farqlardan foydalanadiganlar uchun juda kam yordam beradi. .

— Stiven Makkluski[116]

Tadqiqotchining tekshirishi uchun ma'lumotlarga ega bo'lgandan so'ng, ko'pincha ma'lumotlarni tarixiy muhitga joylashtirish uchun qadimgi osmon sharoitlarini tiklashga urinish kerak bo'ladi.

Nishab

Asosiy maqola: Nishab

Qaysi astronomik xususiyatlarni hisoblash uchun koordinatalar tizimiga duch keladigan struktura zarur. Yulduzlar bunday tizimni ta'minlaydi. Agar siz ochiq tunda ko'chaga chiqmoqchi bo'lsangiz, samoviy qutb atrofida aylanayotgan yulduzlarni kuzatasiz. Shimoliy osmon qutbini kuzatayotgan bo'lsangiz, bu nuqta + 90 ° yoki janubiy osmon qutbini kuzatayotgan bo'lsangiz -90 °.[117] Yulduzlar chizgan konsentrik doiralar - bu ma'lum bo'lgan samoviy kenglik chiziqlari moyillik. Ufqdagi Sharq va G'arb sababli (agar ufq tekis bo'lsa) va osmon qutblari orasidagi barcha nuqtalarni birlashtiruvchi yoy, 0 ° ga teng bo'lgan samoviy ekvatordir. Ko'rinadigan pasayishlar dunyoning qaerdaligiga qarab farqlanadi. Faqatgina Yerning Shimoliy qutbidagi kuzatuvchi tunda Janubiy osmon yarim sharidan biron bir yulduzni ko'ra olmaydi (quyidagi diagramaga qarang). Ufqda joylashgan binoga nisbatan moyillik aniqlangandan so'ng, ma'lum bir tanani shu yo'nalishda ko'rish mumkinmi, deyish mumkin.

Osmonning turli kengliklarda ko'rinadigan qismlari diagrammasi

Quyoshning joylashishini aniqlash

Yulduzlar o'zlarining mayllariga qarab turganda, Quyosh emas. Quyoshning ko'tarilish nuqtasi yil davomida o'zgarib turadi. Solstices tomonidan belgilangan ikkita chegara o'rtasida a ga o'xshash biroz tebranadi mayatnik, haddan oshganda sekinlashadi, lekin o'rta nuqtadan tezlik bilan o'tadi. Agar arxeoastronom azimut va ufq balandligidan maydonni + 23,5 ° gacha pasayishini ko'rish uchun qurilganligini hisoblasa, u 21-iyunga qadar sayt haqiqatan ham yozgi quyosh botishiga to'g'ri kelishini tasdiqlash uchun kutmasligi kerak.[118] Qo'shimcha ma'lumot uchun qarang Quyoshni kuzatish tarixi.

Oyni joylashtirish

Oyning ko'rinishi ancha murakkabroq. Uning harakati, Quyosh singari, ikkita chegara orasida - ma'lum lunistices dan ko'ra solstices. Biroq, uning turmush o'rtoqlari orasidagi sayohati ancha tezroq. Buning uchun oylik oyi Quyoshning bir yillik yurishidan ko'ra uning aylanishini yakunlash. Bu yanada murakkablashmoqda, chunki Oyning harakatlanish chegaralarini belgilovchi baxtsizliklar davom etmoqda an 18.6 year cycle. For slightly over nine years the extreme limits of the Moon are outside the range of sunrise. For the remaining half of the cycle the Moon never exceeds the limits of the range of sunrise. However, much lunar observation was concerned with the bosqich Oyning. The cycle from one Yangi oy to the next runs on an entirely different cycle, the Synodic month.[119] Thus when examining sites for lunar significance the data can appear sparse due to the extremely variable nature of the moon. Qarang Oy batafsil ma'lumot uchun.

Stellar positioning

Asosiy maqola: Equinoxes prekessiyasi
Precessional movement

Finally there is often a need to correct for the apparent movement of the stars. On the timescale of human civilisation the stars have largely maintained the same position relative to each other. Each night they appear to rotate around the celestial poles due to the Earth's rotation about its axis. However, the Earth spins rather like a aylanuvchi tepa. Not only does the Earth rotate, it wobbles. The Earth's axis takes around 25,800 years to complete one full wobble.[120] The effect to the archaeoastronomer is that stars did not rise over the horizon in the past in the same places as they do today. Nor did the stars rotate around Polaris as they do now. Taqdirda Misr piramidalari, it has been shown they were aligned towards Tuba, yulduz turkumidagi xira yulduz Drako.[121] The effect can be substantial over relatively short lengths of time, historically speaking. For instance a person born on 25 December in Roman times would have been born with the Sun in the constellation Uloq. In the modern period a person born on the same date would have the Sun in Yay tufayli tenglashishlar prekessiyasi.

Transient phenomena

Halley's Comet depicted on the Bayeux gobelenlari

Additionally there are often transient phenomena, events which do not happen on an annual cycle. Most predictable are events like tutilish. Bo'lgan holatda quyosh tutilishi these can be used to date events in the past. A solar eclipse mentioned by Gerodot enables us to date a battle between the Midiya va Lidiyaliklar, which following the eclipse failed to happen, to 28 May, 585 BC.[122] Other easily calculated events are supernovalar whose remains are visible to astronomers and therefore their positions and magnitude can be accurately calculated.

Biroz kometalar are predictable, most famously Halley kometasi. Yet as a class of object they remain unpredictable and can appear at any time. Some have extremely lengthy orbital davrlar which means their past appearances and returns cannot be predicted. Others may have only ever passed through the Quyosh sistemasi once and so are inherently unpredictable.[123]

Meteorli yomg'ir should be predictable, but some meteorlar are cometary debris and so require calculations of orbits which are currently impossible to complete.[124] Other events noted by ancients include avrora, quyosh itlari va kamalak all of which are as impossible to predict as the ancient weather, but nevertheless may have been considered important phenomena.

Major topics of archaeoastronomical research

What has astronomy brought into the lives of cultural groups throughout history? The answers are many and varied...

— Von Del Chamberlain and M. Jane Young[125]

The use of calendars

A common justification for the need for astronomy is the need to develop an accurate taqvim uchun qishloq xo'jaligi sabablari. Ancient texts like Hesiod 's Works and Days, an ancient farming manual, would appear to partially confirm this: astronomical observations are used in combination with ekologik signs, such as qushlarning ko'chishi to determine the seasons. Ethnoastronomical studies of the Hopi ning AQShning janubi-g'arbiy qismida indicate that they carefully observed the rising and setting positions of the Sun to determine the proper times to plant crops.[126] Howerver, ethnoastronomical work with the Mursi ning Efiopiya shows that their luni-solar calendar was somewhat haphazard, indicating the limits of astronomical calendars in some societies.[127] All the same, calendars appear to be an almost universal phenomenon in societies as they provide tools for the regulation of communal activities.

An example of a non-agricultural calendar is the Tzolk'in kalendar Mayya tsivilizatsiyasi ning kolumbiygacha Mesoamerika, which is a cycle of 260 days. This count is based on an earlier calendar and is found throughout Mesoamerica. This formed part of a more comprehensive system of Mayya taqvimlari which combined a series of astronomical observations and ritual cycles.[128]

Other peculiar calendars include ancient Yunoniston kalendarlari. These were nominally oy bilan boshlanadi Yangi oy. In reality the calendar could pause or skip days with confused citizens inscribing dates by both the civic calendar and ton theoi, tomonidan oy.[129] The lack of any universal calendar for ancient Greece suggests that coordination of panhellenic events such as o'yinlar or rituals could be difficult and that astronomical symbolism may have been used as a politically neutral form of timekeeping.[130] Orientation measurements in Greek temples and Byzantine churches have been associated to deity's name day, festivities, and special events.[131][132][133]

Myth and cosmology

Burjlar turkumi Argo Navis tomonidan chizilgan Yoxannes Hevelius 1690 yilda

Another motive for studying the sky is to understand and explain the koinot. In these cultures afsona was a tool for achieving this, and the explanations, while not reflecting the standards of modern fan, bor kosmologiyalar.

The Incalar arranged their empire to demonstrate their cosmology. Poytaxt, Cusco, was at the centre of the empire and connected to it by means of ceques, conceptually straight lines radiating out from the centre.[134] These ceques connected the centre of the empire to the four suyus, which were regions defined by their direction from Cusco. The notion of a quartered cosmos is common across the And. Gary Urton, who has conducted fieldwork in the Andean villagers of Misminay, has connected this quartering with the appearance of the Somon yo'li tungi osmonda.[135] In one season it will bisect the sky and in another bisect it in a perpendikulyar moda.

The importance of observing cosmological factors is also seen on the other side of the world. The Taqiqlangan shahar yilda Pekin is laid out to follow cosmic order though rather than observing four directions. The Chinese system was composed of five directions: Shimoliy, Janubiy, Sharq, G'arb va Markaz. The Forbidden City occupied the centre of ancient Beijing.[136] One approaches the Emperor from the south, thus placing him in front of the sirkumpolyar yulduzlar. This creates the situation of the heavens revolving around the person of the Emperor. The Chinese cosmology is now better known through its export as feng shui.

There is also much information about how the universe was thought to work stored in the mythology of the burjlar. The Barasana of the Amazon plan part of their annual cycle based on observation of the stars. When their constellation of the Caterpillar-Jaguar (roughly equivalent to the modern Scorpius) falls they prepare to catch the pupating caterpillars of the forest as they fall from the trees.[137] The caterpillars provide food at a season when other foods are scarce.[138]

A more well-known source of constellation myth are the texts of the Greeks and Romans. The origin of their constellations remains a matter of vigorous and occasionally fractious debate.[139][140]

The loss of one of the sisters, Merope, in some Greek myths may reflect an astronomical event wherein one of the stars in the Pleiades disappeared from view by the naked eye.[141]

Giorgio de Santillana, professor of the History of Science in the School of Humanities at the Massachusets texnologiya instituti, along with Hertha von Dechend believed that the old mythological stories handed down from antiquity were not random fictitious tales but were accurate depictions of celestial kosmologiya clothed in tales to aid their oral transmission. The chaos, monsters and violence in ancient myths are representative of the forces that shape each age. They believed that ancient myths are the remains of preliterate astronomiya that became lost with the rise of the Greco-Roman civilization. Santillana and von Dechend in their book Hamletning tegirmoni, afsona va vaqt doirasidagi insho (1969) clearly state that ancient myths have no historical or factual basis other than a cosmological one encoding astronomical phenomena, especially the tenglashishlar prekessiyasi.[142] Santillana and von Dechend's approach is not widely accepted.

Displays of power

The Amun-Re uchastkasi was aligned on the midwinter solstice.

By including celestial motifs in clothing it becomes possible for the wearer to make claims the power on Earth is drawn from above. It has been said that the Shield of Axilles tomonidan tasvirlangan Gomer is also a catalogue of constellations.[143] In North America shields depicted in Komanchi petrogliflar appear to include Venus symbolism.[144]

Solsticial alignments also can be seen as displays of power. When viewed from a ceremonial plaza on the Quyosh oroli (the mythical origin place of the Sun) in Titikaka ko'li, the Sun was seen to rise at the June solstice between two towers on a nearby ridge. The sacred part of the island was separated from the remainder of it by a stone wall and ethnographic records indicate that access to the sacred space was restricted to members of the Inka ruling elite. Oddiy ziyoratchilar stood on a platform outside the ceremonial area to see the solstice Sun rise between the towers.[145]

In Egypt the temple of Amun-Re da Karnak has been the subject of much study. Evaluation of the site, taking into account the change over time of the obliquity of the ecliptic show that the Great Temple was aligned on the rising of the midwinter Sun.[146] Yilning boshqa vaqtlarida quyosh nuri tushadigan koridorning uzunligi yorug'likni cheklaydi.

In a later period the Serapeum yilda Iskandariya was also said to have contained a quyosh alignment so that, on a specific sunrise, a shaft of light would pass across the lips of the statue of Serapis thus symbolising the Quyosh saluting the god.[147]

Major sites of archaeoastronomical interest

Asosiy maqola: Mamlakatlar bo'yicha saralangan arxeoastronomik maydonlarning ro'yxati

Clive Ruggles va Mishel Kott recently edited a book on heritage sites of astronomy and archaeoastronomy that provides a list of the main sites around the world.[148]

At Stonehenge in England and at Carnac in France, in Egypt and Yucatán, across the whole face of the earth, are found mysterious ruins of ancient monuments, monuments with astronomical significance... They mark the same kind of commitment that transported us to the moon and our spacecraft to the surface of Mars.

— Edvin Krupp[149]

Newgrange

The sunlight enters the tomb at Newgrange via the roofbox built above the door.
Asosiy maqola: Newgrange

Newgrange is a passage tomb in the Republic of Ireland dating from around 3,300 to 2,900 BC[150] For a few days around the Winter Solstice light shines along the central passageway into the heart of the tomb. What makes this notable is not that light shines in the passageway, but that it does not do so through the main entrance. Instead it enters via a hollow box above the main doorway discovered by Michael O'Kelly.[151] It is this roofbox which strongly indicates that the tomb was built with an astronomical aspect in mind. In their discussion of the credibility of archaeoastronomical sites, Cotte and Ruggles gave Newgrange as an example of a Generally accepted site, the highest of their four levels of credibility.[81] Clive Ruggles notes:

...[F]ew people—archaeologists or astronomers—have doubted that a powerful astronomical symbolism was deliberately incorporated into the monument, demonstrating that a connection between astronomy and funerary ritual, at the very least, merits further investigation.[117]

Misr

The pyramids of Giza
Asosiy maqola: Giza nekropoli

Since the first modern measurements of the precise cardinal orientations of the pyramids by Flinders Petri, various astronomical methods have been proposed for the original establishment of these orientations.[152][153][154] It was recently proposed that this was done by observing the positions of two stars in the Plough / Big Dipper which was known to Egyptians as the thigh. It is thought that a vertical alignment between these two stars checked with a plumb bob was used to ascertain where north lay. The deviations from true north using this model reflect the accepted dates of construction.[155]

Constellations on the astronomical ceiling of Senemut Qabr

Some have argued that the pyramids were laid out as a map of the three stars in the belt of Orion,[156] although this theory has been criticized by reputable astronomers.[157][158] The site was instead probably governed by a spectacular hierophany which occurs at the summer solstice, when the Sun, viewed from the Sphinx terrace, forms—together with the two giant pyramids—the symbol Akhet, which was also the name of the Great Pyramid. Further, the south east corners of all the three pyramids align towards the temple of Heliopolis, as first discovered by the Egyptologist Mark Lehner.

The astronomical ceiling of the tomb of Senenmut (v. 1470 BC) contains the Celestial Diagram depicting circumpolar constellations in the form of discs. Each disc is divided into 24 sections suggesting a 24-hour time period. Constellations are portrayed as sacred deities of Egypt. The observation of lunar cycles is also evident.

El Castillo

Asosiy maqola: El Kastillo, Chichen Itza

El Castillo, also known as Kukulcán's Pyramid, is a Mesoamerican step-pyramid built in the centre of Maya markazi Chichen Itza Meksikada. Several architectural features have suggested astronomical elements. Each of the stairways built into the sides of the pyramid has 91 steps. Along with the extra one for the platform at the top, this totals 365 steps, which is possibly one for each day of the year (365.25) or the number of lunar orbits in 10,000 rotations (365.01).

Olxo'ri ilon

A visually striking effect is seen every March and September as an unusual shadow occurs around the equinoxes. Light and shadow phenomena have been proposed to explain a possible architectural hierophany involving the sun at Chichén Itzá in a Maya Toltec structure dating to about 1000 CE.[159] A shadow appears to descend the west balustrade of the northern stairway. The visual effect is of a serpent descending the stairway, with its head at the base in light. Additionally the western face points to sunset around 25 May, traditionally the date of transition from the dry to the rainy season.[160] The intended alignment was, however, likely incorporated in the northern (main) facade of the temple, as it corresponds to sunsets on May 20 and July 24, recorded also by the central axis of Castillo at Tulum.[161] The two dates are separated by 65 and 300 days, and it has been shown that the solar orientations in Mesoamerica regularly correspond to dates separated by calendrically significant intervals (multiples of 13 and 20 days).[162] In their discussion of the credibility of archaeoastronomical sites, Cotte and Ruggles used the "equinox hierophany" at Chichén Itzá as an example of an Unproven site, the third of their four levels of credibility.[81]

Stonehenge

The Sun rising over Stonehenge at the 2005 Summer Quyosh kuni
Asosiy maqola: Arxeoastronomiya va Stonehenge

Many astronomical alignments have been claimed for Stonehenge, a complex of megalitlar va tuproq ishlari ichida Solsberi tekisligi Angliya. The most famous of these is the midsummer alignment, where the Sun rises over the Heel Stone. However, this interpretation has been challenged by some archaeologists who argue that the midwinter alignment, where the viewer is outside Stonehenge and sees the Sun setting in the henge, is the more significant alignment, and the midsummer alignment may be a coincidence due to local topography.[163] In their discussion of the credibility of archaeoastronomical sites, Cotte and Ruggles gave Stonehenge as an example of a Generally accepted site, the highest of their four levels of credibility.[81]

As well as solar alignments, there are proposed lunar alignments. The four station stones mark out a rectangle. The short sides point towards the midsummer sunrise and midwinter sunset. The long sides if viewed towards the south-east, face the most southerly rising of the Moon. Aveni notes that these lunar alignments have never gained the acceptance that the solar alignments have received.[164] The Heel Stone azimuth is one-seventh of circumference, matching the latitude of Avebury, while summer solstice sunrise azimuth is no longer equal to the construction era direction.[iqtibos kerak ]

Maeshove

Ning ichki qismi Maeshove kamerali qabr
Asosiy maqola: Maeshove

This is an architecturally outstanding Neolithic chambered tomb on the mainland of Orkney, Shotlandiya —probably dating to the early 3rd millennium BC, and where the setting Sun at midwinter shines down the entrance passage into the central chamber (see Newgrange). In the 1990s further investigations were carried out to discover whether this was an accurate or an approximate solar alignment. Several new aspects of the site were discovered. In the first place the entrance passage faces the hills of the island Xoy, about 10 miles away. Secondly, it consists of two straight lengths, angled at a few degrees to each other. Thirdly, the outer part is aligned towards the midwinter sunset position on a level horizon just to the left of Ward Hill on Hoy. Fourthly the inner part points directly at the Barnhouse standing stone about 400m away and then to the right end of the summit of Ward Hill, just before it dips down to the notch between it at Cuilags to the right. This indicated line points to sunset on the first Sixteenths of the solar year (according to A. Thom) before and after the winter solstice and the notch at the base of the right slope of the Hill is at the same declination. Fourthly a similar 'double sunset' phenomenon is seen at the right end of Cuilags, also on Hoy; here the date is the first Eighth of the year before and after the winter solstice, at the beginning of November and February respectively—the Old Celtic festivals of Samxeyn va Imbolc. This alignment is not indicated by an artificial structure but gains plausibility from the other two indicated lines. Maeshowe is thus an extremely sophisticated calendar site which must have been positioned carefully in order to use the horizon foresights in the ways described.[64]

Uxmal

The Palace of the Governor at Uxmal
Asosiy maqola: Uxmal

Uxmal is a Mayan city in the Puuc Hills of Yucatan yarimoroli, Meksika. The Governor's Palace at Uxmal is often used as an exemplar of why it is important to combine ethnographic and alignment data. The palace is aligned with an azimut of 118° on the pyramid of Cehtzuc. This alignment corresponds approximately to the southernmost rising and, with a much greater precision, to the northernmost setting of Venus; both phenomena occur once every eight years. By itself this would not be sufficient to argue for a meaningful connection between the two events. The palace has to be aligned in one direction or another and why should the rising of Venus be any more important than the rising of the Sun, Moon, other planets, Sirius et cetera? The answer given is that not only does the palace point towards significant points of Venus, it is also covered in glyphs which stand for Venus and Mayan zodiacal constellations.[165] Moreover, the great northerly extremes of Venus always occur in late April or early May, coinciding with the onset of the rainy season. The Venus glyphs placed in the cheeks of the Maya rain god Chac, most likely referring to the concomitance of these phenomena, support the west-working orientation scheme.[166]

Chako kanyoni

The Great Kiva at Chaco Canyon

In Chaco Canyon, the center of the ancient Pueblo culture in the American Southwest, numerous solar and lunar light markings and architectural and road alignments have been documented. These findings date to the 1977 discovery of the Sun Dagger site by Anna Sofaer.[167] Three large stone slabs leaning against a cliff channel light and shadow markings onto two spiral petroglyphs on the cliff wall, marking the solstices, equinoxes and the lunar standstills of the 18.6 year cycle of the moon.[105] Subsequent research by the Solstice Project and others demonstrated that numerous building and interbuilding alignments of the great houses of Chaco Canyon are oriented to solar, lunar and cardinal directions.[168][169] In addition, research shows that the Great North Road, a thirty-five mile engineered “road”, was constructed not for utilitarian purposes but rather to connect the ceremonial center of Chaco Canyon with the direction north.[170]

Lascaux g'ori

According to Rappenglueck, the eyes of the bull, the bird, and the bird-man may represent the three stars Vega, Altair, and Deneb commonly known as the Yozgi uchburchak.

In recent years, new research has suggested that the Lascaux cave paintings in France may incorporate prehistoric star charts. Michael Rappenglueck of the Myunxen universiteti argues that some of the non-figurative dot clusters and dots within some of the figurative images correlate with the constellations of Toros, Pleades and the grouping known as the "Yozgi uchburchak ".[171] Based on her own study of the astronomical significance of Bronze Age petrogliflar ichida Vallée des Merveilles[172] and her extensive survey of other prehistoric cave painting sites in the region—most of which appear to have been selected because the interiors are illuminated by the setting Sun on the day of the qish fasli —French researcher Chantal Jègues-Wolkiewiez has further proposed that the gallery of figurative images in the Great Hall represents an extensive star map and that key points on major figures in the group correspond to stars in the main burjlar as they appeared in the Paleolithic.[173][174] Appliying phylogenetics to myths of the Cosmic Hunt, Julien d'Huy suggested that the palaeolithic version of this story could be the following: there is an animal that is a horned herbivore, especially an elk. One human pursues this ungulate. The hunt locates or gets to the sky. The animal is alive when it is transformed into a constellation. It forms the Big Dipper. This story may be represented in the famous Lascaux shaft ‘scene’[175]

Fringe archaeoastronomy

Qo'shimcha ma'lumotlar: Arxeoastronomiya va vedalik xronologiya

At least now we have all the archaeological facts to go along with the astronomers, the Druids, the Flat Earthers and all the rest.

— Sir Jocelyn Stephens[176]

Archaeoastronomy owes something of this poor reputation among scholars to its occasional misuse to advance a range of psevdo-tarixiy hisob-kitoblar. During the 1930s, Otto S. Reuter compiled a study entitled Germanische Himmelskunde, or "Teutonic Skylore". The astronomical orientations of ancient monuments claimed by Reuter and his followers would place the ancient Germanic peoples ahead of the Qadimgi Yaqin Sharq in the field of astronomy, demonstrating the intellectual superiority of the "Oriylar " (Indo-Europeans) over the Semitlar.[177]

Since the 19th century, numerous scholars have sought to use archaeoastronomical calculations to demonstrate the antiquity of Ancient Indian Vedic culture, computing the dates of astronomical observations ambiguously described in ancient poetry to as early as 4000 BC.[178] Devid Pingri, a historian of Indian astronomy, condemned "the scholars who perpetrate wild theories of prehistoric science and call themselves archaeoastronomers."[179]

More recently Gallagher,[180] Pyle,[181] va Yiqildi[182] interpreted inscriptions in West Virginia as a description in Celtic Ogham alphabet of the supposed winter solstitial marker at the site. The controversial translation was supposedly validated by a problematic archaeoastronomical indication in which the winter solstice Sun shone on an inscription of the Sun at the site. Subsequent analyses criticized its cultural inappropriateness, as well as its linguistic and archeaoastronomical[183] claims, to describe it as an example of "cult archaeology ".[184]

Archaeoastronomy is sometimes related to the fringe discipline of Archaeocryptography, when its followers attempt to find underlying mathematical orders beneath the proportions, size, and placement of archaeoastronomical sites such as Stonehenge and the Pyramid of Kukulcán at Chichen Itza.[185]

Archaeoastronomical organisations and publications

There are currently three academic organisations for scholars of archaeoastronomy. ISAAC – the International Society for Archaeoastronomy and Astronomy in Culture – was founded in 1995 and now sponsors the Oxford conferences and Archaeoastronomy – the Journal of Astronomy in Culture. SEAC – La Société Européenne pour l’Astronomie dans la Culture – is slightly older; it was created in 1992. SEAC holds annual conferences in Europe and publishes refereed conference proceedings on an annual basis. U erda ham bor SIAC – La Sociedad Interamericana de Astronomía en la Cultura, birinchi navbatda a Lotin Amerikasi organisation which was founded in 2003. Two new organisations focused on regional archaeoastronomy were founded in 2013: ASIA – the Australian Society for Indigenous Astronomy Avstraliyada va SMART – the Society of Māori Astronomy Research and Traditions Yangi Zelandiyada. Additionally, in 2017, the Romanian Society for Cultural Astronomy sobiq tashkil etilgan. It holds an annual international conference and has published the first monography on archaeo- and ethnoastronomy in Romania (2019).[186]

Qo'shimcha ravishda Astronomiya tarixi jurnali publishes many archaeoastronomical papers. For twenty-seven volumes (from 1979 to 2002) it published an annual supplement Arxeoastronomiya. The Astronomiya tarixi va merosi jurnali (National Astronomical Research Institute of Thailand), Culture & Cosmos (University of Wales, UK) and O'rta er dengizi arxeologiyasi va arxeometriyasi (University of Aegean, Greece) also publish papers on archaeoastronomy.

Various national archaeoastronomical projects have been undertaken. Among them is the program at the Tata Institute of Fundamental Research named "Archaeo Astronomy in Indian Context " that has made interesting findings in this field.[187]

Shuningdek qarang

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Bibliografiya

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Qo'shimcha o'qish

Kutubxona resurslari haqida
Arxeoastronomiya

Tashqi havolalar

Jamiyatlar

  • ISAAC Madaniyatda Arxeoastronomiya va Astronomiya Xalqaro Jamiyati.
  • SEAC La Société Européenne pour l'Astronomie dans la Culture. Ingliz tilidagi sayt.
  • SIAC La Sociedad Interamericana de Astronomía en la Cultura.
  • Astronomiya tarixi jamiyati

Jurnallar