 |
|
|
|
|
|
| Index of Editorials Measurements Sea Surface Temperature |
All Editorials for 2020 2013 2012 2011 2010 2009 2008 Categories Subcategories Antarctic Warming Skepticism [2] Book Review [3] Climate Change CO2 Emissions [1] Climate Models Uncertainty [2] Climate Science Climate Cycles [1] Climate Sensitivity [1] Holes [1] Thermal History [1] Unsolved Problems [1] Energy Issues American Power Act [1] Clean and Sustainable [1] Nuclear Waste Storage [1] Renewable Electricity Standard (RES) [1] Environmentalism Surrogate Religion [1] Foreword Energy Primer for Kids [1] Geo-Engineering Applications [2] Global Climate - International French Academy [1] Global Warming Anthropogenic Global Warming (AGW) [6] Confusion [1] Economics [1] General [2] Greenhouse Gases [1] Hockeystick [4] Ice Cores [1] Junkscience [9] Oceans' Role [2] Skepticism [1] Sun's Role [2] Health Issues Second Hand Smoke [1] Measurements Arctic Sea Ice [1] Atmospheric Temperature Data [2] Sea Surface Temperature [1] Surface Data [2] Misinformation Statistics Misuse [1] Modern Empirical Science v. Medieval Science [1] NIPCC China [1] Nuclear Fuel Supplies [1] Organizations Climate Research Unit (CRU) [1] International Panel on Climate Change (IPCC) [2] Nongovernmental International Panel on Climate Change (NIPCC) [1] UK Met Office [1] World Meteorological Organization (WMO) [1] Political Issues Climate Realism [1] Climategate [3] Independent Cross Check of Temperature Data [1] Report IPCC Assessment Report [2] NOAA State of the Climate 2009 [1] NRC-NAS Advancing the Science of Climate Change [1] Sea-Level Rise West Antarctic Ice Sheet (WAIS) [1] Alarmism [1] Types of Energy Nuclear Energy [1] |
|
|
|
|
SEPP Science Editorial #15 (in TWTW Dec 13, 2008) S. Fred Singer, Chairman and President , Science and Environmental Policy Project (SEPP) The Problem with Sea Surface Temperature (SST) (2) Dec 13, 2008 Oceans cover 71% of the Earth's surface; SST essentially determines surface temperature. While not subject to the problems of land temperature data (urban heat islands, weather station placement and maintenance, etc), SST has even more severe problems, mainly related to coverage and to changes in methods of measurement. Just recently, the Hadley Centre had to fix a 'glitch' caused by a change from wooden to canvas sampling buckets, which led to a temperature 'discontinuity.' Since 1980 we have a situation where data from floating buoys (from a warm layer of about 50 cm depth) are increasingly combined with ship inlet data (from a colder layer at depth of ~10 m). Could this lead to a fictitious warming trend? How to check whether this produces a problem? One method would be to process ship data and buoy data separately before combining them. I have not been successful in penetrating the data analysis bureaucracy to arrange for such a test. But there may be a simpler way (which I first proposed at a conference in Erice in 2005): Compare day-time and night-time SST trends. If they do not differ, then the 'buoy effect' is likely of little importance. Singer, S. F. (2006). How effective is greenhouse warming of sea surface temperatures? In International Seminar on Nuclear War and Planetary Emergencies. Climatology: Global Warming. (ed. A Zichichi and R. Ragini). World Scientific Publishing Company, Singapore. pp. 176-182. View The Week That Was in which this editorial appeared. Return to Top of Page |
|
Free use is granted for non-commercial purposes of all materials on this Website.
Acknowledgement would be appreciated. SEPP is funded through the generous contributions of individuals such as yourself. (c) Copyright 2010-2019 Science and Environmental Policy Project |