过去2000年全球甲烷收支的意外变化。

Unexpected changes to the global methane budget over the past 2000 years.

作者信息

Ferretti D F, Miller J B, White J W C, Etheridge D M, Lassey K R, Lowe D C, Macfarling Meure C M, Dreier M F, Trudinger C M, van Ommen T D, Langenfelds R L

机构信息

Institute of Arctic and Alpine Research, University of Colorado, Boulder, CO 80309, USA.

出版信息

Science. 2005 Sep 9;309(5741):1714-7. doi: 10.1126/science.1115193.

DOI:10.1126/science.1115193

PMID:16151008

Abstract

We report a 2000-year Antarctic ice-core record of stable carbon isotope measurements in atmospheric methane (delta13CH4). Large delta13CH4 variations indicate that the methane budget varied unexpectedly during the late preindustrial Holocene (circa 0 to 1700 A.D.). During the first thousand years (0 to 1000 A.D.), delta13CH4 was at least 2 per mil enriched compared to expected values, and during the following 700 years, an about 2 per mil depletion occurred. Our modeled methane source partitioning implies that biomass burning emissions were high from 0 to 1000 A.D. but reduced by almost approximately 40% over the next 700 years. We suggest that both human activities and natural climate change influenced preindustrial biomass burning emissions and that these emissions have been previously understated in late preindustrial Holocene methane budget research.

摘要

我们报告了一份可追溯2000年的南极冰芯记录，该记录包含大气甲烷（δ13CH4）中稳定碳同位素的测量数据。δ13CH4的大幅变化表明，在工业化前的全新世晚期（约公元0年至1700年），甲烷收支出现了意外变化。在最初的一千年（公元0年至1000年），δ13CH4比预期值至少富集2‰，而在接下来的700年里，出现了约2‰的贫化。我们模拟的甲烷源分配表明，公元0年至1000年生物质燃烧排放较高，但在接下来的700年里减少了近约40%。我们认为，人类活动和自然气候变化都影响了工业化前的生物质燃烧排放，并且这些排放在工业化前全新世晚期甲烷收支研究中此前被低估了。

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过去2000年全球甲烷收支的意外变化。

Unexpected changes to the global methane budget over the past 2000 years.

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