Estimating the Mean Annual Surface Air Temperature at Armagh Observatory, Northern Ireland, and the Global Land-Ocean Temperature Index for Sunspot Cycle 24, the Current Ongoing Sunspot Cycle

As noted by Gray et al., Sir William Herschel was the first to suggest a possible close connection between the Sun and the Earths climate. The Sun, being the source of energy that impacts and drives the Earths climate system, displays a variety of changes over both short and long term time scales, t...

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Main Author: Wilson, Robert M.
Format: Other/Unknown Material
Language:unknown
Published: 2013
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Online Access:http://hdl.handle.net/2060/20140000832
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spelling ftnasantrs:oai:casi.ntrs.nasa.gov:20140000832 2023-05-15T17:37:15+02:00 Estimating the Mean Annual Surface Air Temperature at Armagh Observatory, Northern Ireland, and the Global Land-Ocean Temperature Index for Sunspot Cycle 24, the Current Ongoing Sunspot Cycle Wilson, Robert M. Unclassified, Unlimited, Publicly available July 2013 application/pdf http://hdl.handle.net/2060/20140000832 unknown Document ID: 20140000832 http://hdl.handle.net/2060/20140000832 No Copyright CASI Meteorology and Climatology NASA/TP-2013-217484 M-1360 2013 ftnasantrs 2019-07-21T06:16:17Z As noted by Gray et al., Sir William Herschel was the first to suggest a possible close connection between the Sun and the Earths climate. The Sun, being the source of energy that impacts and drives the Earths climate system, displays a variety of changes over both short and long term time scales, the most obvious examples being the somewhat regular waxing and waning of sunspots with time (i.e., the sunspot cycle (SC)), first described by Samuel Heinrich Schwabe, a German apothecary and amateur astronomer who observed the Sun from Dessau, Germany, and the now well established variation of the Suns irradiance over the SC. Other factors related to the SC have been linked to changes in climate as well. Some of these other factors include the role of cosmic rays and the solar wind (i.e., the geomagnetic cycle) on climate, as well as the apparent close association between trends in global and northern hemispheric temperature and the length of the SC, although some investigators have described the inferred association between climate and, in particular, SC length as now being weak. More recently, Solheim et al. have reported on the relation between SC length and the average temperature in the same and immediately following SC for a number of meteorological stations in Norway and in the North Atlantic region. They noted that while they found no significant trend (correlation) between SC length and the average temperature when measured for the same cycle, in contrast, they found a significant negative trend when SC length was compared with the following cycles average temperature. From this observation, they suggested that average northern hemispheric temperature during the present ongoing SC (SC24) will be lower by about 0.9 C than was seen in SC23 (spanning 19962007, based on yearly averages of sunspot number (SSN), and onset for SC24 occurring in 2008). The purpose of this Technical Publication (TP) is to examine the annual variations of the Armagh surface air temperature (ASAT) and the Global Land-Ocean Temperature Index (GLOTI) in relation to SSN and the SC in order to determine their likely values during SC24. Hence, it may provide insight as to whether solar forcing of global temperature is now lessening as a contributor to global warming, thereby indicating a possible cooling in the near term immediate future that potentially could ameliorate the effect of increased anthropogenic warming. Other/Unknown Material North Atlantic NASA Technical Reports Server (NTRS) Norway Solheim ENVELOPE(9.612,9.612,63.683,63.683)
institution Open Polar
collection NASA Technical Reports Server (NTRS)
op_collection_id ftnasantrs
language unknown
topic Meteorology and Climatology
spellingShingle Meteorology and Climatology
Wilson, Robert M.
Estimating the Mean Annual Surface Air Temperature at Armagh Observatory, Northern Ireland, and the Global Land-Ocean Temperature Index for Sunspot Cycle 24, the Current Ongoing Sunspot Cycle
topic_facet Meteorology and Climatology
description As noted by Gray et al., Sir William Herschel was the first to suggest a possible close connection between the Sun and the Earths climate. The Sun, being the source of energy that impacts and drives the Earths climate system, displays a variety of changes over both short and long term time scales, the most obvious examples being the somewhat regular waxing and waning of sunspots with time (i.e., the sunspot cycle (SC)), first described by Samuel Heinrich Schwabe, a German apothecary and amateur astronomer who observed the Sun from Dessau, Germany, and the now well established variation of the Suns irradiance over the SC. Other factors related to the SC have been linked to changes in climate as well. Some of these other factors include the role of cosmic rays and the solar wind (i.e., the geomagnetic cycle) on climate, as well as the apparent close association between trends in global and northern hemispheric temperature and the length of the SC, although some investigators have described the inferred association between climate and, in particular, SC length as now being weak. More recently, Solheim et al. have reported on the relation between SC length and the average temperature in the same and immediately following SC for a number of meteorological stations in Norway and in the North Atlantic region. They noted that while they found no significant trend (correlation) between SC length and the average temperature when measured for the same cycle, in contrast, they found a significant negative trend when SC length was compared with the following cycles average temperature. From this observation, they suggested that average northern hemispheric temperature during the present ongoing SC (SC24) will be lower by about 0.9 C than was seen in SC23 (spanning 19962007, based on yearly averages of sunspot number (SSN), and onset for SC24 occurring in 2008). The purpose of this Technical Publication (TP) is to examine the annual variations of the Armagh surface air temperature (ASAT) and the Global Land-Ocean Temperature Index (GLOTI) in relation to SSN and the SC in order to determine their likely values during SC24. Hence, it may provide insight as to whether solar forcing of global temperature is now lessening as a contributor to global warming, thereby indicating a possible cooling in the near term immediate future that potentially could ameliorate the effect of increased anthropogenic warming.
format Other/Unknown Material
author Wilson, Robert M.
author_facet Wilson, Robert M.
author_sort Wilson, Robert M.
title Estimating the Mean Annual Surface Air Temperature at Armagh Observatory, Northern Ireland, and the Global Land-Ocean Temperature Index for Sunspot Cycle 24, the Current Ongoing Sunspot Cycle
title_short Estimating the Mean Annual Surface Air Temperature at Armagh Observatory, Northern Ireland, and the Global Land-Ocean Temperature Index for Sunspot Cycle 24, the Current Ongoing Sunspot Cycle
title_full Estimating the Mean Annual Surface Air Temperature at Armagh Observatory, Northern Ireland, and the Global Land-Ocean Temperature Index for Sunspot Cycle 24, the Current Ongoing Sunspot Cycle
title_fullStr Estimating the Mean Annual Surface Air Temperature at Armagh Observatory, Northern Ireland, and the Global Land-Ocean Temperature Index for Sunspot Cycle 24, the Current Ongoing Sunspot Cycle
title_full_unstemmed Estimating the Mean Annual Surface Air Temperature at Armagh Observatory, Northern Ireland, and the Global Land-Ocean Temperature Index for Sunspot Cycle 24, the Current Ongoing Sunspot Cycle
title_sort estimating the mean annual surface air temperature at armagh observatory, northern ireland, and the global land-ocean temperature index for sunspot cycle 24, the current ongoing sunspot cycle
publishDate 2013
url http://hdl.handle.net/2060/20140000832
op_coverage Unclassified, Unlimited, Publicly available
long_lat ENVELOPE(9.612,9.612,63.683,63.683)
geographic Norway
Solheim
geographic_facet Norway
Solheim
genre North Atlantic
genre_facet North Atlantic
op_source CASI
op_relation Document ID: 20140000832
http://hdl.handle.net/2060/20140000832
op_rights No Copyright
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