中世纪温暖时期
中世纪温暖时期(Medieval Warm Period, MWP)是指北大西洋地区内由公元10世纪到13世纪所出现一个不正常温暖的时期。
在气象记录中,不同地区的暖化峰值出现的时间不同,表明中世纪暖期不是全球统一的事件。[1]中世纪温暖时期常常成为全球变暖的讨论课题。有些人则称呼为中世纪气候异常(Medieval Climatic Anomaly),借此强调其他气候现象与温度同等重要。[2][3]
MWP之后,北大西洋与其他地区出现了区域性降温期,常常称作小冰期(Little Ice Age, LIA)。
MWP的可能成因包括太阳活动增加、火山活动减少、洋流变化等。[4]模拟证据表明,自然变化不足以解释MWP,成因中必定有其他外部因素。[5]
研究
编辑中世纪温暖时期的气候十分不正常,当时正值欧洲的中世纪,大约在8世纪至13世纪[7]。欧洲已经进行大量关于中世纪温暖时期及小冰期的初步研究,气候不正常的现象已经很明显及有清晰的记录。有研究者认为在一般认为的中世纪暖期前还有“早期中世纪暖期”(MWP-I),大约从5世纪持续到9世纪末。11至13世纪的则是“传统中世纪暖期”(MWP-II)。[8]1965年,古气候学先驱之一Hubert Lamb发表了基于植物学、历史记录、气象学数据的研究,得到公元1200年和公元1600年前后英格兰的平均气温与降水。他认为:“各方面数据暗示,世界上很多地区都曾经历过一个暖期,在11至12世纪左右、至少有上百年。之后的16、17世纪则是冷期,是末次冰期以来最冷的时期。”[9] “中世纪暖期”和“小冰期”的说法很快流行开来亚洲地区影响最大大约是在公元950年至1150年,相当于中国的北宋时期(960年至1127年)。当初认为温度的改变是全球性的。可是,这个观点很快受到质疑,如1990年的IPCC第一次评估报告中称“公元1000年前后的中世纪暖期(可能不是全球性事件)与19世纪中晚期才结束的小冰期……西欧、冰岛和格陵兰10世纪晚期至13世纪初(大约AD950–1250)的温度异常地高。”[10]2001年的IPCC第三次评估报告概括了这项研究,指出“现在的证据没法支持当时全球同步地发生不规则的冷暖转变的论调,传统所指的小冰期及中世纪温暖时期只能有限地描述北半球或全球在过去几个世纪中平均气温的改变。”[11] 全球的冰芯、树木年轮、湖床沉积等气象记录表明,全球范围内中世纪暖期可能比20世纪早中期略低0.03°C。[12][13]
古气候学家重建特定地区过去几个世纪的气候时,通常将最冷的时期称作“LIA”,将最暖的时期称作“MWP”。[12][14]其他人则遵循这一惯例,当LIA或MWP时期内发生重大气候事件,就将其与时期联系起来。因此,文献中一部分“MWP事件”实际上是潮湿事件或寒冷事件,并非严格意义上的温暖事件。特别是南极洲中部,那里的气候模式同北大西洋几乎是相反的。
中世纪暖期的全球气候
编辑MWP的性质与范围(是否是全球性事件)一直有争议。[15][16]2019年,PAGES-2k联盟通过广大的数据集证实[17],中世纪气候异常不是全球同步事件:各个地区在MWP中最温暖的51年不同时。他们主张对公元以来、工业化前的气候变化进行区域性分析。[18]
发生事件
编辑北大西洋地区
编辑对马尾藻海洋底沉积物箱式取样数据的碳14定年显示,400年前(小冰期)与1700年前的海面温度比现在低1 °C ;而1000年前(MWP)的海洋表面温度比现在高1 °C 。[19] 波多黎各、墨西哥湾沿岸、佛罗里达到新英格兰的大西洋沿岸的证据一致表明,北大西洋热带飓风活动在中世纪温暖期达到一个高峰,随后处于暂时的安静期[20]。
中世纪温暖时期,北极海域的浮冰大量减少,使古斯堪地纳维亚人(或称维京人)能横越北大西洋,抵达格陵兰和北美东岸,促成了与因纽特人的短暂相遇。
冰岛
编辑冰岛最早有人定居大约在865年到930年之间,当时人们认为冰岛足够温暖,适合发展航海与畜牧。[21][22]研究分析洋底沉积物与软体动物生长模式,重建了罗马温暖期到MWP与小冰期的10年分辨率尺度氧18、碳13同位素记录。[23]该研究发现,在冰岛有人定居后,夏季气温仍在高位,但冬季气温有所降低。[23]
格陵兰
编辑格陵兰岛南部和北美洲部分地区在MWP(研究中定义为公元950–1250年)期间的温度超过了1961–1990年水平,部分地区甚至超过1990–2010年水平。北半球大部在小冰期(研究中定义为15–17世纪)出现明显降温,但拉布拉多和美国个别地区的温度似乎与1961–1990年水平大致相同。[7]MWP期间格陵兰冬季氧同位素数据同北大西洋涛动(NAO)高度相关。[24]
诺斯人殖民北美可能同暖期有关。[25]一般认为,诺斯人在暖期可以横穿不封冻的洋面,殖民格陵兰和临近岛屿沿岸地区。[26]不过,哥伦比亚大学的一份研究表明,格陵兰不是在较暖的时期被殖民的,格陵兰的暖期只持续了很短时间。[27]公元1000年前后,足够温暖的气候能支持维京人前往纽芬兰岛,建立临时定居点。[28]
985年左右,维京人建立了格陵兰东殖民地与格陵兰西殖民地,都在格陵兰岛南端附近。他们在殖民初期放牧牛羊过活,并有约四分之一食物是海产。1250年之后,气候变得更加恶劣,他们的饮食结构便向海产转移。到1300年前后,鳍足类(海豹)占食物来源的超过四分之三。
到1350年,格陵兰定居点的出口已经很少,同欧洲的贸易基本停滞。最后的关于定居者的记录是一份1412年的文献,之后几十年里,居民似乎因为经济原因陆续返回了欧洲。[29]
欧洲地区
编辑在这段时期,南欧经历了大规模冰川消退,一些较小的冰川完全消融。[30]沉积记录显示,东欧的淹水多发时期同MWP吻合,这归因于北大西洋涛动正相导致的降水增加。[31]酿酒用的葡萄能够遍布欧洲,最北达英国南部。大西洋鲱鱼盛产,盐腌鲱鱼的消费几乎遍及欧陆,甚至一度成为军粮与缴税物。[32][33][34] 气候变化的其他影响(如对地貌的影响)不那么显然。MWP之前,撒丁岛西部的沿海地区被罗马人遗弃,沿海地区得以向潟湖扩张,并在MWP期间到达高水位。地貌因气候变化而变化后,回到这里定居的人只得重新建立港口。[35]在伊比利亚中央山脉,湖泊生产力提高、土壤侵蚀加剧,高强度径流事件频繁发生。[36]
北美洲
编辑切萨皮克湾(位于今美国马里兰州、弗吉尼亚州)在MWP(950–1250年)和小冰期(1400–1700,冷期持续到20世纪初)经历了大规模温度漂移,可能同北大西洋温盐环流的强度变化有关。[37]哈德逊河谷下游的皮埃蒙沼泽沉积物表明,当地9到13世纪经历了干期。[38]康涅狄格州哈莫克河盐沼因为较高的海平面,比现在向西延伸15公里。[39]
长期干旱影响今日美国西部的很多地区,特别是加利福尼亚州东部与大盆地西部。[12][40]公元以来,阿拉斯加经历了3个可比较的温暖期:1–300,850–1200,1800以来。[41]对北美洲MWP的了解有助于确定一些原住民遗址的年代,特别是西部干旱地区。[42][43]美国东南部的干旱,MWP期间稍稍多于LIA期间,差异在统计上可能并不显著。[44]MWP期间的干旱可能也影响了美国东部的原住民定居点,如卡霍基亚土墩遗址。[45][46]对近期考古研究的回顾表明,随着不寻常的文化变迁迹象逐渐进入学界视野,暴力与健康问题等早期模式比以前认为的更复杂,地区差异也更大。定居点中断、长途贸易恶化、人口迁移等模式也得到了进一步证实。[47]
非洲
编辑赤道东部非洲的气候在相对今日干燥与潮湿之间变化。MWP(1000–1270)期间,是相对干旱。[48]对加那利群岛居民遗体的放射性定年法测年表明,MWP到LIA的过渡期间,当地气温至少下降了5°C。之后,当地居民的饮食结构不再经历显著变化。[49]
南极洲
编辑MWP在南大洋的出现比北大西洋晚约150年。[50]从南极半岛东Bransfield盆地取到的岩芯样本保存了LIA和MWP事件的证据。Khim B. (2002)认为:“全新世晚期记录清晰地保留了新冰期事件LIA和MWP。”[51]1000-1200年间,南极洲部分地区额外偏冷、部分地区额外偏热。[52]
热带太平洋珊瑚礁的分析,在公元2000年的早期,气候是寒冷干燥的,相等于拉尼娜现象[53]。澳大利亚艾尔湖地貌表明[54]9至10世纪的气候类似于拉尼娜现象。
太平洋
编辑太平洋热带珊瑚礁表明,相对凉爽干燥的气候可能在第1千纪早期持续存在,ENSO也维持在类拉尼娜的状态。[55] 一份2013年的研究指出,太平洋海水在MWP期间比LIA期间高0.9度,比研究前的10年平均值高0.65度。[56]
南美洲
编辑在智利的一份1500年湖床岩芯[57]与厄瓜多尔中部山脉岩芯记录都可以观察到MWP。[58]
基于冰芯的重建发现,南美洲热带的MWP大约从1050年持续到1300年,之后是15世纪开始的小冰期。20世纪末温度超过MWP,是1600年以来最热的时期。[59]
东亚
编辑对中国过去2000年间的气温进行的确定性分析中,发现16世纪之前呈现高度的不确定性,而近500年来则在全国有良好的一致性,有1620–1710年代与1800–1860年代两个显著冷期,以及20世纪以来的变暖期。他们还发现,10到14世纪部分地区的变暖幅度堪比20世纪末,是过去500年未见的。[60]总的来说,中国在MWP时期经历过暖期,但在全国范围内看是不一致的:MWP到小冰期的温度变化在东北、中东部地区显著,但在西南地区和青藏高原不显著。[61]MWP期间,东亚夏季季候风(EASM)达到近1千年来最强,[62]且对ENSO高度敏感。[63]毛乌素沙漠在MWP期间持续变得潮湿,[64]东南地区的泥炭岩芯表明,EASM和ENSO变化是导致MWP期间降水增加的主要原因。[65]华南的一些样本则显示出MWP期间变干或无显著变化,显示出MWP影响的空间异质性。[66]模拟表明,MWP期间的EASM强度在初夏较低,但在夏末非常高。[67]
俄罗斯远东大陆地区在MWP期间经历严重的淹水,邻近岛屿的降水则变少,致使泥炭地面积减小。花粉数据表明暖气候植被和阔叶林扩张,针叶林收缩。[68] 对日本中部中纲湖的沉积物研究中,发现10至12世纪有对应于MWP的暖期与3个冷期,其中两个可以对应小冰期。[69]对日本东北部的研究表明公元以来750年到1200年有一暖湿阶段,之前与之后都是冷干阶段。[70]
南亚
编辑南亚夏季季候风(ISM)同样在MWP期间增强,对大西洋多年代际振荡(AMO)有受温度变化驱使的影响,[71]给印度带来了更多降水。[72]喜马偕尔邦拉豪尔和斯皮提县的植被记录表明距今1158年至647年前有暖湿期。[73]中央邦花粉记录为增强的季候风降水提供了直接证据。[74]喀拉拉邦Pookode湖记录也反映了MWP期间的偏暖。[75]
中东
编辑阿拉伯海海面温度在MWP期间因较强的季候风而升高。[76]MWP期间,阿拉伯海生物生产力增加。[77]今日已十分干旱的阿拉伯半岛在MWP期间更干旱,长期干旱直到距今约660年前才终止。[78]
大洋洲
编辑澳大利亚关于MWP和小冰期的数据严重匮乏,而从浪成卵石滩台地可以看出,9、10世纪间艾尔湖一直在高水位[79],符合类拉尼娜状态,但数据不足以说明湖面每年的变化,也不足以说明澳大利亚其他地方气候条件如何。
由纽西兰一处洞穴(40.67°S, 172.43°E)中石笋的氧同位素比得到的温度表明,中世纪暖期发生在约1050年至约1400年间,比当前暖期(Current Warm Period)的温度高约0.75度。[80]纽西兰的更多证据来自有1100年历史的年轮记录。[81]
另见
编辑参考文献
编辑- ^ Solomon, Susan Snell; Intergovernmental Panel on Climate Change. 6.6 The Last 2,000 Years. Climate change 2007: the physical science basis: contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge: Cambridge University Press for the Intergovernmental Panel on Climate Change. 2007. ISBN 978-0-521-70596-7. Box 6.4 互联网档案馆的存档,存档日期2015-03-28.
- ^ Bradley, Raymond S. Climate of the Last Millennium (PDF). Climate System Research Center. 2003.
- ^ Ladurie, Emmanuel Le Roy. Times of Feast, Times of Famine: a History of Climate Since the Year 1000. Farrar Straus & Giroux. 1971. ISBN 978-0-374-52122-6.[页码请求]
- ^ How does the Medieval Warm Period compare to current global temperatures?. SkepticalScience. [2017-10-12].
- ^ Hunt, B. G. The Medieval Warm Period, the Little Ice Age and simulated climatic variability. Climate Dynamics. 2006-05-11, 27 (7–8): 677–694 [2023-09-05]. ISSN 0930-7575. S2CID 128890550. doi:10.1007/s00382-006-0153-5 (英语).
- ^ Hawkins, Ed. 2019 years. climate-lab-book.ac.uk. 2020-01-30. (原始内容存档于2020-02-02). ("数据表明,现代同过去已经大不同了。常被引用的中世纪暖期和小冰期是真实现象,但同最近的变化相比微不足道。")
- ^ 7.0 7.1 Mann, M. E.; Zhang, Z.; Rutherford, S.; et al. Global Signatures and Dynamical Origins of the Little Ice Age and Medieval Climate Anomaly (PDF). Science. 2009, 326 (5957): 1256–60. Bibcode:2009Sci...326.1256M. PMID 19965474. S2CID 18655276. doi:10.1126/science.1177303.
- ^ Cronin, T.M; Dwyer, G.S; Kamiya, T; Schwede, S; Willard, D.A. Medieval Warm Period, Little Ice Age and 20th century temperature variability from Chesapeake Bay. Global and Planetary Change. March 2003, 36 (1–2): 17–29 [2023-09-05]. doi:10.1016/S0921-8181(02)00161-3. hdl:10161/6578 (英语).
- ^ Lamb, H.H. The early medieval warm epoch and its sequel. Palaeogeography, Palaeoclimatology, Palaeoecology. 1965, 1: 13–37. Bibcode:1965PPP.....1...13L. doi:10.1016/0031-0182(65)90004-0.
- ^ IPCC First Assessment Report Working Group 1 report, Chapter 7, Executive Summary p. 199, Climate of the Past 5,000,000 Years p. 202.
- ^ Folland, C.K.; Karl, T.R.; Christy, J.R.; et al. 2.3.3 Was there a “Little Ice Age” and a “Medieval Warm Period”?". Houghton, J.T.; Ding, Y.; Griggs, D.J.; Noguer, M.; van der Linden; Dai; Maskell; Johnson (编). Working Group I: The Scientific Basis. Intergovernmental Panel on Climate Change Climate Change 2001. Cambridge, United Kingdom and New York, NY, USA: Cambridge University Press. 2001: 881. ISBN 978-0-521-80767-8.
- ^ 12.0 12.1 12.2 Bradley, R. S.; Hughes, MK; Diaz, HF. CLIMATE CHANGE: Climate in Medieval Time. Science. 2003, 302 (5644): 404–5. PMID 14563996. S2CID 130306134. doi:10.1126/science.1090372.
- ^ Crowley, Thomas J.; Lowery, Thomas S. How Warm Was the Medieval Warm Period?. Ambio: A Journal of the Human Environment. 2000, 29: 51–54. S2CID 86527510. doi:10.1579/0044-7447-29.1.51.
- ^ Jones, P. D.; Mann, M. E. Climate over past millennia. Reviews of Geophysics. 2004, 42 (2): 2002. Bibcode:2004RvGeo..42.2002J. doi:10.1029/2003RG000143 .
- ^ Broecker, Wallace S. Was the Medieval Warm Period Global?. Science. 2001-02-23, 291 (5508): 1497–1499 [2023-06-18]. PMID 11234078. S2CID 17674208. doi:10.1126/science.291.5508.1497.
- ^ Hughes, Malcolm K.; Diaz, Henry F. Was there a 'medieval warm period', and if so, where and when?. Climatic Change. 1994-03, 26 (2–3): 109–142 [2023-06-18]. Bibcode:1994ClCh...26..109H. S2CID 128680153. doi:10.1007/BF01092410.
- ^ Emile-Geay, Julien; McKay, Nicholas P.; Kaufman, Darrell S.; von Gunten, Lucien; Wang, Jianghao; Anchukaitis, Kevin J.; Abram, Nerilie J.; Addison, Jason A.; Curran, Mark A.J.; Evans, Michael N.; Henley, Benjamin J. A global multiproxy database for temperature reconstructions of the Common Era. Scientific Data. 2017-07-11, 4 (1): 170088. Bibcode:2017NatSD...470088E. ISSN 2052-4463. PMC 5505119 . PMID 28696409. doi:10.1038/sdata.2017.88 (英语).
- ^ Neukom, Raphael; Steiger, Nathan; Gómez-Navarro, Juan José; Wang, Jianghao; Werner, Johannes P. No evidence for globally coherent warm and cold periods over the preindustrial Common Era. Nature. 2019, 571 (7766): 550–554. Bibcode:2019Natur.571..550N. ISSN 1476-4687. PMID 31341300. S2CID 198494930. doi:10.1038/s41586-019-1401-2 (英语).
- ^ Keigwin, L. D. The Little Ice Age and Medieval Warm Period in the Sargasso Sea. Science. 1996, 274 (5292): 1504–1508. Bibcode:1996Sci...274.1504K. PMID 8929406. S2CID 27928974. doi:10.1126/science.274.5292.1504.
- ^ Mann, Michael E.; Woodruff, Jonathan D.; Donnelly, Jeffrey P.; Zhang, Zhihua. Atlantic hurricanes and climate over the past 1,500 years. Nature. 2009, 460 (7257): 880–3. Bibcode:2009Natur.460..880M. PMID 19675650. doi:10.1038/nature08219.
- ^ Gunnar Karlsson. The history of Iceland. Minneapolis, Minn.: University of Minnesota Press. 2000. ISBN 0-8166-3588-9. OCLC 42736334.
- ^ Lamb, H. H. Climate : present, past and future. Volume 2, Climatic history and the future. Abingdon, Oxon: Routledge. 2011. ISBN 978-0-203-80430-8. OCLC 900419132.
- ^ 23.0 23.1 Patterson, W. P.; Dietrich, K. A.; Holmden, C.; Andrews, J. T. Two millennia of North Atlantic seasonality and implications for Norse colonies. Proceedings of the National Academy of Sciences of the United States of America. 2010, 107 (12): 5306–10. Bibcode:2010PNAS..107.5306P. PMC 2851789 . PMID 20212157. doi:10.1073/pnas.0902522107 .
- ^ Vinther, B. M.; Jones, P. D.; Briffa, K. R.; Clausen, H. B.; Andersen, K. K.; Dahl-Jensen, D.; Johnsen, S. J. Climatic signals in multiple highly resolved stable isotope records from Greenland. Quaternary Science Reviews. February 2010, 29 (3–4): 522–538. Bibcode:2010QSRv...29..522V. doi:10.1016/j.quascirev.2009.11.002.
- ^ D'Andrea, William J.; Huang, Yongsong; Fritz, Sherilyn C.; Anderson, N. John. Abrupt Holocene climate change as an important factor for human migration in West Greenland. Proceedings of the National Academy of Sciences of the United States of America. 31 May 2011, 108 (24): 9765–9769. Bibcode:2011PNAS..108.9765D. PMC 3116382 . PMID 21628586. doi:10.1073/pnas.1101708108 .
- ^ Diamond, Jared. Collapse: How Societies Choose to Fail or Succeed. New York: Penguin Books. 2005: 216–220. ISBN 0-670-03337-5.
- ^ Study Undercuts Idea That 'Medieval Warm Period' Was Global – The Earth Institute – Columbia University. earth.columbia.edu. [7 April 2018].
- ^ Ingstad, Anne Stine. The Excavation of a Norse Settlement at L'Anse aux Meadows, Newfoundland. Helge Ingstad; Anne Stine Ingstad (编). The Viking Discovery of America. New York: Checkmark. 2001: 141–169. ISBN 978-0-8160-4716-1. OCLC 46683692.
- ^ Stockinger, Günther. Archaeologists Uncover Clues to Why Vikings Abandoned Greenland. Der Spiegel Online. 2012-01-10 [2013-01-12].
- ^ Moreno, Ana; Bartolomé, Miguel; López-Moreno, Juan Ignacio; Pey, Jorge; Corella, Juan Pablo; García-Orellana, Jordi; Sancho, Carlos; Leunda, María; Gil-Romera, Graciela; González-Sampériz, Penélope; Pérez-Mejías, Carlos. The case of a southern European glacier which survived Roman and medieval warm periods but is disappearing under recent warming. The Cryosphere. 3 March 2021, 15 (2): 1157–1172. Bibcode:2021TCry...15.1157M. ISSN 1994-0416. S2CID 232275176. doi:10.5194/tc-15-1157-2021 . hdl:10810/51794 (English).
- ^ Perșoiu, Ioana; Perșoiu, Aurel. Flood events in Transylvania during the Medieval Warm Period and the Little Ice Age. The Holocene. 2019, 29 (1): 85–96. Bibcode:2019Holoc..29...85P. ISSN 0959-6836. S2CID 134035133. doi:10.1177/0959683618804632 (英语).
- ^ The History of English Wine: Domesday & Middle Ages. [2006-05-04]. (原始内容存档于2006-04-29).
- ^ Jones, Gregory. Making Wine in a Changing Climate. Geotimes. August 2004 [2006-05-04]. (原始内容存档于2006-02-27).
- ^ Schmidt, Gavin. Medieval warmth and English wine. RealClimate. 2006 [2006-07-12]. (原始内容存档于2006-07-18).
- ^ Pascucci, V.; De Falco, G.; Del Vais, C.; Sanna, I.; Melis, R. T.; Andreucci, S. Climate changes and human impact on the Mistras coastal barrier system (W Sardinia, Italy). Marine Geology. 2018-01-01, 395: 271–284. Bibcode:2018MGeol.395..271P. ISSN 0025-3227. doi:10.1016/j.margeo.2017.11.002 (英语).
- ^ Sánchez-López, G.; Hernández, A.; Pla-Rabes, S.; Trigo, R.M.; Toro, M.; Granados, I.; Sáez, A.; Masqué, P.; Pueyo, J.J.; Rubio-Inglés, M.J.; Giralt, S. Climate reconstruction for the last two millennia in central Iberia: The role of East Atlantic (EA), North Atlantic Oscillation (NAO) and their interplay over the Iberian Peninsula. Quaternary Science Reviews. October 2016, 149: 135–150 [2024-04-13]. doi:10.1016/j.quascirev.2016.07.021. hdl:2445/101594 –通过Elsevier Science Direct (英语).
- ^ Medieval Warm Period, Little Ice Age and 20th Century Temperature Variability from Chesapeake Bay. USGS. [2006-05-04]. (原始内容存档于2006-06-30).
- ^ Marshes Tell Story Of Medieval Drought, Little Ice Age, And European Settlers Near New York City. Earth Observatory News. 2005-05-19 [2006-05-04]. (原始内容存档于2006-10-02).
- ^ Van de Plassche, Orson; Van der Borg, Klaas; De Jong, Arie F. M. Sea level–climate correlation during the past 1400 yr. Geology. 1998-04-01, 26 (4): 319–322 [2023-07-14]. Bibcode:1998Geo....26..319V. doi:10.1130/0091-7613(1998)026<0319:SLCCDT>2.3.CO;2.
- ^ Stine, Scott. Extreme and persistent drought in California and Patagonia during mediaeval time. Nature. 1994, 369 (6481): 546–549. Bibcode:1994Natur.369..546S. S2CID 4315201. doi:10.1038/369546a0.
- ^ Hu, F. S. Pronounced climatic variations in Alaska during the last two millennia. Proceedings of the National Academy of Sciences of the United States of America. 2001, 98 (19): 10552–10556. Bibcode:2001PNAS...9810552H. PMC 58503 . PMID 11517320. doi:10.1073/pnas.181333798 .
- ^ Dean, Jeffrey S. The medieval warm period on the southern Colorado Plateau. Climatic Change. 1994, 26 (2–3): 225–241. Bibcode:1994ClCh...26..225D. S2CID 189877071. doi:10.1007/BF01092416.
- ^ C. Michael Hogan (2008) Los Osos Back Bay, Megalithic Portal, editor A. Burnham.
- ^ Stahle, David W.; Cleaveland, Malcolm K. Tree-ring reconstructed rainfall over the southeastern U.S.A. during the medieval warm period and little ice age. Climatic Change. March 1994, 26 (2–3): 199–212 [5 September 2023]. ISSN 0165-0009. S2CID 189878139. doi:10.1007/BF01092414 (英语).
- ^ Benson, Larry V.; Pauketat, Timothy R.; Cook, Edward R. Cahokia's Boom and Bust in the Context of Climate Change. American Antiquity. 2009, 74 (3): 467–483. ISSN 0002-7316. S2CID 160679096. doi:10.1017/S000273160004871X (英语).
- ^ White, A. J.; Stevens, Lora R.; Lorenzi, Varenka; Munoz, Samuel E.; Schroeder, Sissel; Cao, Angelica; Bogdanovich, Taylor. Fecal stanols show simultaneous flooding and seasonal precipitation change correlate with Cahokia's population decline. Proceedings of the National Academy of Sciences of the United States of America. 2019-03-19, 116 (12): 5461–5466. Bibcode:2019PNAS..116.5461W. ISSN 0027-8424. PMC 6431169 . PMID 30804191. doi:10.1073/pnas.1809400116 (英语).
- ^ Jones, Terry L.; Schwitalla, Al. Archaeological perspectives on the effects of medieval drought in prehistoric California. Quaternary International. 2008, 188 (1): 41–58. Bibcode:2008QuInt.188...41J. doi:10.1016/j.quaint.2007.07.007.
- ^ Drought In West Linked To Warmer Temperatures. Earth Observatory News. 2004-10-07 [2006-05-04]. (原始内容存档于2006-10-04).
- ^ Lécuyer, Christophe; Goedert, Jean; Klee, Johanne; Clauzel, Thibault; Richardin, Pascale; Fourel, François; Delgado-Darias, Teresa; Alberto-Barroso, Verónica; Velasco-Vázquez, Javier; Betancort, Juan Francisco; Amiot, Romain. Climatic change and diet of the pre-Hispanic population of Gran Canaria (Canary Archipelago, Spain) during the Medieval Warm Period and Little Ice Age. Journal of Archaeological Science. 2021-04-01, 128: 105336 [2023-06-18]. Bibcode:2021JArSc.128j5336L. ISSN 0305-4403. S2CID 233597524. doi:10.1016/j.jas.2021.105336 (英语).
- ^ Goosse, H.; Masson-Delmotte, V.; Renssen, H.; Delmotte, M.; Fichefet, T.; Morgan, V.; Van Ommen, T.; Khim, B. K.; Stenni, B. A late medieval warm period in the Southern Ocean as a delayed response to external forcing?. Geophysical Research Letters. 17 March 2004, 31 (6): 1–5. Bibcode:2004GeoRL..31.6203G. S2CID 17322719. doi:10.1029/2003GL019140 .
- ^ Khim, B.; Yoon, Ho Il; Kang, Cheon Yun; Bahk, Jang Jun. Unstable Climate Oscillations during the Late Holocene in the Eastern Bransfield Basin, Antarctic Peninsula. Quaternary Research. 2002, 58 (3): 234. Bibcode:2002QuRes..58..234K. S2CID 129384061. doi:10.1006/qres.2002.2371.
- ^ Lüning, Sebastian; Gałka, Mariusz; Vahrenholt, Fritz. The Medieval Climate Anomaly in Antarctica. Palaeogeography, Palaeoclimatology, Palaeoecology. 2019-10-15, 532: 109251. Bibcode:2019PPP...53209251L. ISSN 0031-0182. doi:10.1016/j.palaeo.2019.109251 (英语).
- ^ Cobb, Kim M.; Chris Charles, Hai Cheng, R. Lawrence Edwards. The Medieval Cool Period And The Little Warm Age In The Central Tropical Pacific? Fossil Coral Climate Records Of The Last Millennium. The Climate of the Holocene (ICCI) 2003. 2003-07-08 [2006-05-04]. (原始内容存档于2004-08-25).
- ^ Allen, Robert J. The Australasian Summer Monsoon, Teleconnections, and Flooding in the Lake Eyre Basin. Royal Geographical Society of Australasia, S.A. Branch. 1985. ISBN 0-909112-09-6.
- ^ Cobb, Kim M.; Chris Charles; Hai Cheng; R. Lawrence Edwards. The Medieval Cool Period And The Little Warm Age In The Central Tropical Pacific? Fossil Coral Climate Records Of The Last Millennium. The Climate of the Holocene (ICCI) 2003. July 8, 2003 [2006-05-04]. (原始内容存档于2004-08-25).
- ^ Rosenthal, Yair; Linsley, Braddock K.; Oppo, Delia W. Pacific Ocean Heat Content During the Past 10,000 Years. Science. 2013-11-01, 342 (6158): 617–621. Bibcode:2013Sci...342..617R. ISSN 0036-8075. PMID 24179224. S2CID 140727975. doi:10.1126/science.1240837 (英语).
- ^ Fletcher, M-S.; Moreno, P.I. Vegetation, climate and fire regime changes in the Andean region of southern Chile (38°S) covaried with centennial-scale climate anomalies in the tropical Pacific over the last 1500 years. Quaternary Science Reviews. 2012-07-16, 46: 46–56. Bibcode:2012QSRv...46...46F. doi:10.1016/j.quascirev.2012.04.016. hdl:10533/131338 .
- ^ Ledru, M.-P.; Jomelli, V.; Samaniego, P.; Vuille, M.; Hidalgo, S.; Herrera, M.; Ceron, C. The Medieval Climate Anomaly and the Little Ice Age in the eastern Ecuadorian Andes. Climate of the Past. 2013, 9 (1): 307–321. Bibcode:2013CliPa...9..307L. doi:10.5194/cp-9-307-2013 .
- ^ Kellerhals, T.; Brütsch, S.; Sigl, M.; Knüsel, S.; Gäggeler, H. W.; Schwikowski, M. Ammonium concentration in ice cores: A new proxy for regional temperature reconstruction?. Journal of Geophysical Research. 2010, 115 (D16): D16123. Bibcode:2010JGRD..11516123K. doi:10.1029/2009JD012603.
- ^ Ge, Q.-S.; Zheng, J.-Y.; Hao, Z.-X.; Shao, X.-M.; Wang, Wei-Chyung; Luterbacher, Juerg. Temperature variation through 2000 years in China: An uncertainty analysis of reconstruction and regional difference. Geophysical Research Letters. 2010, 37 (3): 03703 [2023-06-18]. Bibcode:2010GeoRL..37.3703G. S2CID 129457163. doi:10.1029/2009GL041281 .
- ^ Hao, Zhixin; Wu, Maowei; Liu, Yang; Zhang, Xuezhen; Zheng, Jingyun. Multi-scale temperature variations and their regional differences in China during the Medieval Climate Anomaly. Journal of Geographical Sciences. 2020-01-01, 30 (1): 119–130. ISSN 1861-9568. S2CID 209843427. doi:10.1007/s11442-020-1718-7 (英语).
- ^ Zhou, XiuJi; Zhao, Ping; Liu, Ge; Zhou, TianJun. Characteristics of decadal-centennial-scale changes in East Asian summer monsoon circulation and precipitation during the Medieval Warm Period and Little Ice Age and in the present day. Chinese Science Bulletin. 2011-09-24, 56 (28–29). ISSN 1001-6538. doi:10.1007/s11434-011-4651-4 (英语).
- ^ Zhang, Zhenqiu; Liang, Yijia; Wang, Yongjin; Duan, Fucai; Yang, Zhou; Shao, Qingfeng; Liu, Shushuang. Evidence of ENSO signals in a stalagmite-based Asian monsoon record during the medieval warm period. Palaeogeography, Palaeoclimatology, Palaeoecology. 2021-12-15, 584: 110714 [2023-07-08]. Bibcode:2021PPP...58410714Z. S2CID 239270259. doi:10.1016/j.palaeo.2021.110714.
- ^ Liu, Xiaokang; Lu, Ruijie; Jia, Feifei; Chen, Lu; Li, Tengfei; Ma, Yuzhen; Wu, Yongqiu. Holocene water-level changes inferred from a section of fluvio-lacustrine sediments in the southeastern Mu Us Desert, China. Quaternary International. 2018-03-05, 469: 58–67 [2023-09-23]. doi:10.1016/j.quaint.2016.12.032 (英语).
- ^ Sun, Jia; Ma, Chunmei; Zhou, Bin; Jiang, Jiawei; Zhao, Cheng. Biogeochemical evidence for environmental and vegetation changes in peatlands from the middle Yangtze river catchment during the medieval warm period and little ice Age. The Holocene. 2021, 31 (10): 1571–1581. Bibcode:2021Holoc..31.1571S. ISSN 0959-6836. S2CID 237010950. doi:10.1177/09596836211025966 (英语).
- ^ Chu, Peter C.; Li, Hong-Chun; Fan, Chenwu; Chen, Yong-Heng. Speleothem evidence for temporal–spatial variation in the East Asian Summer Monsoon since the Medieval Warm Period. Journal of Quaternary Science. 11 December 2012, 27 (9): 901–910 [23 September 2023]. ISSN 0267-8179. S2CID 9727512. doi:10.1002/jqs.2579. hdl:10945/36182 (英语).
- ^ Kamae, Youichi; Kawana, Toshi; Oshiro, Megumi; Ueda, Hiroaki. Seasonal modulation of the Asian summer monsoon between the Medieval Warm Period and Little Ice Age: a multi model study. Progress in Earth and Planetary Science. 4 August 2017, 4 (1): 1–13. ISSN 2197-4284. doi:10.1186/s40645-017-0136-7 (英语).
- ^ Razjigaeva, Nadezhda G.; Ganzey, Larisa A.; Bazarova, Valentina B.; Arslanov, Khikmatulla A.; Grebennikova, Tatiana A.; Mokhova, Ludmila M.; Belyanina, Nina I.; Lyaschevskaya, Marina S. Landscape response to the Medieval Warm Period in the South Russian Far East. Quaternary International. The 3rd ASQUA Conference (Part II). 2019-06-10, 519: 215–231 [2023-06-18]. Bibcode:2019QuInt.519..215R. ISSN 1040-6182. S2CID 134246491. doi:10.1016/j.quaint.2018.12.006 (英语).
- ^ Adhikari, D. P.; Kumon, F. Climatic changes during the past 1300 years as deduced from the sediments of Lake Nakatsuna, central Japan. Limnology. 2001, 2 (3): 157. S2CID 20937188. doi:10.1007/s10201-001-8031-7.
- ^ Yamada, Kazuyoshi; Kamite, Masaki; Saito-Kato, Megumi; Okuno, Mitsuru; Shinozuka, Yoshitsugu; Yasuda, Yoshinori. Late Holocene monsoonal-climate change inferred from Lakes Ni-no-Megata and San-no-Megata, northeastern Japan. Quaternary International. 2010-06, 220 (1–2): 122–132 [2023-07-08]. Bibcode:2010QuInt.220..122Y. doi:10.1016/j.quaint.2009.09.006.
- ^ Naidu, Pothuri Divakar; Ganeshram, Raja; Bollasina, Massimo A.; Panmei, Champoungam; Nürnberg, Dirk; Donges, Jonathan F. Coherent response of the Indian Monsoon Rainfall to Atlantic Multi-decadal Variability over the last 2000 years. Scientific Reports. 2020-01-28, 10 (1): 1302. Bibcode:2020NatSR..10.1302N. ISSN 2045-2322. PMC 6987308 . PMID 31992786. doi:10.1038/s41598-020-58265-3 (英语).
- ^ Naidu, Pothuri Divakar; Ganeshram, Raja; Bollasina, Massimo A.; Panmei, Champoungam; Nürnberg, Dirk; Donges, Jonathan F. Coherent response of the Indian Monsoon Rainfall to Atlantic Multi-decadal Variability over the last 2000 years. Scientific Reports. 28 January 2020, 10 (1): 1302. Bibcode:2020NatSR..10.1302N. ISSN 2045-2322. PMC 6987308 . PMID 31992786. doi:10.1038/s41598-020-58265-3 (英语).
- ^ Rawat, Suman; Gupta, Anil K.; Sangode, S. J.; Srivastava, Priyeshu; Nainwal, H.C. Late Pleistocene–Holocene vegetation and Indian summer monsoon record from the Lahaul, Northwest Himalaya, India. Quaternary Science Reviews. 15 April 2015, 114: 167–181 [23 September 2023]. doi:10.1016/j.quascirev.2015.01.032 (英语).
- ^ Quamar, M. F.; Chauhan, M. S. Signals of Medieval Warm Period and Little Ice Age from southwestern Madhya Pradesh (India): A pollen-inferred Late-Holocene vegetation and climate change. Quaternary International. Holocene Palynology and Tropical Paleoecology. 19 March 2014, 325: 74–82 [23 September 2023]. ISSN 1040-6182. doi:10.1016/j.quaint.2013.07.011.
- ^ Veena, M.P.; Achyuthan, Hema; Eastoe, Christopher; Farooqui, Anjum. A multi-proxy reconstruction of monsoon variability in the late Holocene, South India. Quaternary International. 19 March 2014, 325: 63–73 [23 September 2023]. doi:10.1016/j.quaint.2013.10.026 (英语).
- ^ Gupta, Anil K.; Anderson, David M.; Overpeck, Jonathan T. Abrupt changes in the Asian southwest monsoon during the Holocene and their links to the North Atlantic Ocean. Nature. 23 January 2003, 421 (6921): 354–357. ISSN 1476-4687. S2CID 4304234. doi:10.1038/nature01340 (英语).
- ^ Agnihotri, Rajesh; Dutta, Koushik; Bhushan, Ravi; Somayajulu, B. L. K. Evidence for solar forcing on the Indian monsoon during the last millennium. Earth and Planetary Science Letters. 15 May 2002, 198 (3): 521–527 [30 September 2023]. ISSN 0012-821X. doi:10.1016/S0012-821X(02)00530-7.
- ^ Kalman, Akos; Katz, Timor; Hill, Paul; Goodman-Tchernov, Beverly. Droughts in the desert: Medieval Warm Period associated with coarse sediment layers in the Gulf of Aqaba-Eilat, Red Sea. Sedimentology. 21 March 2020, 67 (6): 3152–3166 [18 June 2023]. S2CID 216335544. doi:10.1111/sed.12737.
- ^ Allen, Robert J. The Australasian Summer Monsoon, Teleconnections, and Flooding in the Lake Eyre Basin. Royal Geographical Society of Australasia, S.A. Branch. 1985. ISBN 978-0-909112-09-7.
- ^ Wilson, A. T.; Hendy, C. H.; Reynolds, C. P. Short-term climate change and New Zealand temperatures during the last millennium. Nature. 1979, 279 (5711): 315. Bibcode:1979Natur.279..315W. S2CID 4302802. doi:10.1038/279315a0.
- ^ Cook, Edward R.; Palmer, Jonathan G.; d'Arrigo, Rosanne D. Evidence for a 'Medieval Warm Period' in a 1,100 year tree-ring reconstruction of past austral summer temperatures in New Zealand. Geophysical Research Letters. 2002, 29 (14): 12. Bibcode:2002GeoRL..29.1667C. S2CID 34033855. doi:10.1029/2001GL014580.
阅读更多
编辑- Fagan, Brian. The Little Ice Age: How Climate Made History, 1300–1850 . Basic Books. 2000. ISBN 978-0-465-02272-4.
- Fagan, Brian. The Great Warming: Climate Change and the Rise and Fall of Civilizations . Bloomsbury Publishing. 2009. ISBN 9781596913929.
- Lamb, Hubert. Climate, History, and the Modern World: Second Edition. Routledge. 1995.
- Staff members at NOAA Paleoclimatology. The "Medieval Warm Period". A Paleo Perspective...on Global Warming. NOAA Paleoclimatology. 2000-05-19.
外部链接
编辑- HistoricalClimatology.com, further links, resources, and relevant news, updated 2016
- Climate History Network
- The Little Ice Age and Medieval Warm Period at the American Geophysical Union