1. Remote Sensing Systems, 438 First Street, Suite 200, Santa Rosa, California 95401, USA

Correspondence to: Frank J. Wentz¹ Correspondence and requests for materials should be addressed to F.J.W. (e-mail: Email: wentz@remss.com).

Abstract

The 17-year lower-tropospheric temperature record derived from the satellite Microwave Sounding Unit (MSU)^{1, 2, 3} shows a global cooling trend, from 1979 to 1995, of -0.05 K per decade at an altitude of about 3.5 km (refs 4, 5). Air temperatures measured at the Earth's surface, in contrast, have risen by approximately +0.13 K per decade over the same period⁴,⁶. The two temperature records are derived from measurements of different physical parameters, and thus are not directly comparable. In fact, the lower stratosphere is cooling substantially (by about -0.5 K per decade)⁵, so the warming trend seen at the surface is expected to diminish with altitude and change into a cooling trend at some point in the troposphere. Even so, it has been suggested that the cooling trend seen in the satellite data is excessive⁴,⁷,⁸. The difficulty in reconciling the information from these different sources has sparked a debate in the climate community about possible instrumental problems and the existence of global warming⁴,⁷,⁹. Here we identify an artificial cooling trend in the satellite-derived temperature series caused by previously neglected orbital-decay effects. We find a new, corrected estimate of +0.07 K per decade for the MSU-based temperature trend, which is in closer agreement with surface temperatures. We also find that the reported⁷ cooling of the lower troposphere, relative to the middle troposphere, is another artefact caused by uncorrected orbital-decay effects.

1. Remote Sensing Systems, 438 First Street, Suite 200, Santa Rosa, California 95401, USA

Correspondence to: Frank J. Wentz¹ Correspondence and requests for materials should be addressed to F.J.W. (e-mail: Email: wentz@remss.com).