Interpreting Differential Temperature Trends at the Surface and in the Lower Troposphere

B. D. Santer; T. M. L. Wigley; D. J. Gaffen; L. Bengtsson; C. Doutriaux; J. S. Boyle; M. Esch; J. J. Hnilo; P. D. Jones; G. A. Meehl; E. Roeckner; K. E. Taylor; M. F. Wehner

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Interpreting Differential Temperature Trends at the Surface and in the Lower Troposphere

机译：解释对流层和对流层下部的温度差异趋势

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Estimated global-scale temperature trends at Earth's surface (as recorded by thermometers) and in the lower troposphere (as monitored by satellites) diverge by up to 0.14℃ per decade over the period 1979 to 1998. Accounting for differences in the spatial coverage of satellite and surface measurements reduces this differential, but still leaves a statistically significant residual of roughly 0.1℃ per decade. Natural internal climate variability alone, as simulated in three state-of-the-art coupled atmosphere-ocean models, cannot completely explain this residual trend difference. A model forced by a combination of anthropogenic factors and volcanic aerosols yields surface-troposphere temperature trend differences closest to those observed.

机译：在1979年至1998年期间，地球表面（由温度计记录）和对流层下层（由卫星监测）的估计全球尺度温度趋势每十年最高相差0.14℃。考虑到卫星空间覆盖率的差异表面测量可以减小这种差异，但仍具有统计学上的显着残差，大约为每十年0.1℃。在三个最新的大气-海洋耦合模型中模拟得出，仅自然内部气候变化就无法完全解释这种残余趋势差异。由人为因素和火山气溶胶共同作用产生的模型产生的对流层温度趋势差异最接近所观测到的趋势。

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《Science》 |2000年第5456期|p.1227-1232|共6页
作者
B. D. Santer; T. M. L. Wigley; D. J. Gaffen; L. Bengtsson; C. Doutriaux; J. S. Boyle; M. Esch; J. J. Hnilo; P. D. Jones; G. A. Meehl; E. Roeckner; K. E. Taylor; M. F. Wehner;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类自然科学总论;
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入库时间 2022-08-18 02:57:42

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1. An alternative explanation for differential temperature trends at the surface and in the lower troposphere [J] . Philip J. Klotzbach, Roger A. Pielke Sr., Roger A. Pielke Jr., Journal of Geophysical Research, D. Atmospheres: JGR . 2009,第D21期

机译：地表和对流层下层温度变化趋势的另一种解释
2. Temperature trends in the tropical upper troposphere and lower stratosphere: Connections with sea surface temperatures and implications for water vapor and ozone [J] . Garfinkel C.I., Waugh D.W., Oman L.D., Journal of Geophysical Research, D. Atmospheres: JGR . 2013,第17期

机译：热带对流层和平流层下部的温度趋势：与海面温度的关系及其对水蒸气和臭氧的影响
3. Correction to "An alternative explanation for differential temperaturetrends at the surface and in the lower troposphere" [J] . Philip J. Klotzbach, Roger A. Pielke Sr, Roger A. Pielke Jr, Journal of Geophysical Research, D. Atmospheres: JGR . 2010,第D1期

机译：更正为“对流层和对流层下部的温差趋势的另一种解释”
4. Design and testing of a compact diode-laser-based differential absorption lidar (DIAL) for water vapor profiling in the lower troposphere [C] . Amin R. Nehrir, rnKevin S. Repasky, rnJohn L. Carlsten Lidar remote sensing for environmental monitoring X . 2009

机译：紧凑型基于二极管激光的差分吸收激光雷达（DIAL）的设计和测试，用于对流层下层的水蒸气分析
5. Investigations of radical kinetics at high pressures and low temperatures: Chemistry of the troposphere and lower stratosphere. [D] . Dransfield, Timothy James. 2002

机译：在高压和低温下的自由基动力学研究：对流层和低平流层的化学性质。
6. Comparison of CO2 Vertical Profiles in the Lower Troposphere between 1.6 µm Differential Absorption Lidar and Aircraft Measurements Over Tsukuba [O] . Yasukuni Shibata, Chikao Nagasawa, Makoto Abo, 2018

机译：筑波地区1.6 µm差分吸收激光雷达与对流层下层对流层CO2垂直剖面的比较
7. The oceans mediate the response of global climate to natural and anthropogenic forcings. Yet for the past 2,000 years — a key interval for understanding the present and future climate response to these forcings — global sea surface temperature changes and the underlying driving mechanisms are poorly constrained. Here we present a global synthesis of sea surface temperatures for the Common Era (ce) derived from 57 individual marine reconstructions that meet strict quality control criteria. We observe a cooling trend from 1 to 1800 ce that is robust against explicit tests for potential biases in the reconstructions. Between 801 and 1800 ce, the surface cooling trend is qualitatively consistent with an independent synthesis of terrestrial temperature reconstructions, and with a sea surface temperature composite derived from an ensemble of climate model simulations using best estimates of past external radiative forcings. Climate simulations using single and cumulative forcings suggest that the ocean surface cooling trend from 801 to 1800 ce is not primarily a response to orbital forcing but arises from a high frequency of explosive volcanism. Our results show that repeated clusters of volcanic eruptions can induce a net negative radiative forcing that results in a centennial and global scale cooling trend via a decline in mixed-layer oceanic heat content. [O] . McGregor, Helen V., Evans, Michael N., Goosse, Hugues, 2015

机译：海洋调节了全球气候对自然和人为强迫的响应。然而，在过去的2,000年中（这是了解当前和未来气候对这些强迫的响应的关键间隔），全球海表温度变化及其潜在的驱动机制受到的约束很有限。在这里，我们提出了一个共同的时期（ce）的全球海面温度的全球综合，该综合来自57个符合严格质量控制标准的海洋重建项目。我们观察到从1到1800 ce的冷却趋势，对于显式测试重建中潜在的偏倚而言，该趋势很稳健。在801至1800 ce之间，表面降温趋势在质量上与地面温度重建的独立合成以及从使用过去外部辐射强迫的最佳估计的气候模型模拟集合推导出的海面温度合成在质量上是一致的。使用单一和累积强迫的气候模拟表明，从801到1800 ce的海洋表面冷却趋势主要不是对轨道强迫的反应，而是爆炸性火山爆发的频繁发生。我们的结果表明，火山喷发的反复簇可引起净的负辐射强迫，这会导致混合层海洋热量降低而导致百年和全球规模的降温趋势。
8. Temperature Trends in the Tropical Upper Troposphere and Lower Stratosphere: Connections with Sea Surface Temperatures and Implications for Water Vapor and Ozone. [R] . Garfinkel, C. I., Waugh, D. W., Oman, L. D., 2013

机译：热带上层对流层和低层平流层的温度趋势：与海面温度的关系及对水汽和臭氧的影响。

Interpreting Differential Temperature Trends at the Surface and in the Lower Troposphere

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