Anomalies and Fluctuations of Near-surface Air Temperature at Tianhuangping (Zhejiang), China, Produced by the Longest Total Solar Eclipse of the 21st Century Under Cloudy Skies
During a total eclipse of the Sun, the solar disk blocked by the lunar disk produces an instant and strong decline of energy at the surface. This loss of energy leads to a decreasing air temperatures near the surface. Anyone under a completely clear sky, with a total solar eclipse (TSE) in progress,...
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| description | During a total eclipse of the Sun, the solar disk blocked by the lunar disk produces an instant and strong decline of energy at the surface. This loss of energy leads to a decreasing air temperatures near the surface. Anyone under a completely clear sky, with a total solar eclipse (TSE) in progress, feels a cooling, whose minimum is reached a few minutes after totality. This drop in temperature is known as an anomaly and this delay is called thermal lag. During a TSE air temperature changes appreciably not only in magnitude but also in timing, depending on weather and geographical conditions. If the eclipse is partially or totally obscured by clouds, some effects are produced on the thermal lag. Under clear skies, the temperature response lags behind the change in solar flux as one expects in TSE; however, under cloudy skies, the lag can reverse in early and/or late stages of partial phases. The normal heating of the surface by the Sun, which drives turbulent motion in the air layer near the surface, is disrupted during the eclipse. The 2009 TSE in China provided an opportunity to have a look at these kinds of perturbations caused by this eclipse. In this paper, the second of a series of three, we analyze the near-surface air temperature response, at three different heights over the ground, recorded by the Williams College expedition under meteorological conditions characterized by cloudy skies during the longest total solar eclipse of the 21st century on 2009 July 22, at Tianhuangping (Zhejiang), China. An analysis of the relationship between solar radiation and air temperature was made by applying a study previously published in the first paper of this series in which we evaluated the cloudiness contribution in estimating the impact on global solar radiation throughout this phenomenon at that site. The analysis of this response includes linear and absolute negative anomalies as well as fluctuations, which was undertaken through a statistical study to get information on the convection activity produced by the latter. The fluctuations generated by turbulence were studied by analyzing variance and residuals. The results, indicating a steady decrease and recovery of both perturbations, were consistent with those published by other studies for this total solar eclipse. |
| doi_str_mv | 10.1088/1538-3873/abb2f9 |
| format | Article |
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This loss of energy leads to a decreasing air temperatures near the surface. Anyone under a completely clear sky, with a total solar eclipse (TSE) in progress, feels a cooling, whose minimum is reached a few minutes after totality. This drop in temperature is known as an anomaly and this delay is called thermal lag. During a TSE air temperature changes appreciably not only in magnitude but also in timing, depending on weather and geographical conditions. If the eclipse is partially or totally obscured by clouds, some effects are produced on the thermal lag. Under clear skies, the temperature response lags behind the change in solar flux as one expects in TSE; however, under cloudy skies, the lag can reverse in early and/or late stages of partial phases. The normal heating of the surface by the Sun, which drives turbulent motion in the air layer near the surface, is disrupted during the eclipse. The 2009 TSE in China provided an opportunity to have a look at these kinds of perturbations caused by this eclipse. In this paper, the second of a series of three, we analyze the near-surface air temperature response, at three different heights over the ground, recorded by the Williams College expedition under meteorological conditions characterized by cloudy skies during the longest total solar eclipse of the 21st century on 2009 July 22, at Tianhuangping (Zhejiang), China. An analysis of the relationship between solar radiation and air temperature was made by applying a study previously published in the first paper of this series in which we evaluated the cloudiness contribution in estimating the impact on global solar radiation throughout this phenomenon at that site. The analysis of this response includes linear and absolute negative anomalies as well as fluctuations, which was undertaken through a statistical study to get information on the convection activity produced by the latter. The fluctuations generated by turbulence were studied by analyzing variance and residuals. The results, indicating a steady decrease and recovery of both perturbations, were consistent with those published by other studies for this total solar eclipse.</description><identifier>ISSN: 0004-6280</identifier><identifier>ISSN: 1538-3873</identifier><identifier>EISSN: 1538-3873</identifier><identifier>DOI: 10.1088/1538-3873/abb2f9</identifier><language>eng</language><publisher>Philadelphia: The Astronomical Society of the Pacific</publisher><subject>21st century ; Air temperature ; Astronomical Software, Data Analysis, and Techniques ; Atmospheric effects ; Cloudiness ; Clouds ; Earth atmosphere ; Expeditions ; Fluctuations ; Meteorological conditions ; Solar eclipses ; Solar radiation ; Solar-terrestrial interactions ; Surface temperature ; Surface-air temperature relationships ; Temperature ; Temperature changes ; Total eclipses</subject><ispartof>Publications of the Astronomical Society of the Pacific, 2020-11, Vol.132 (1017), p.1-20</ispartof><rights>2020. 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Astron. Soc. Pac</addtitle><description>During a total eclipse of the Sun, the solar disk blocked by the lunar disk produces an instant and strong decline of energy at the surface. This loss of energy leads to a decreasing air temperatures near the surface. Anyone under a completely clear sky, with a total solar eclipse (TSE) in progress, feels a cooling, whose minimum is reached a few minutes after totality. This drop in temperature is known as an anomaly and this delay is called thermal lag. During a TSE air temperature changes appreciably not only in magnitude but also in timing, depending on weather and geographical conditions. If the eclipse is partially or totally obscured by clouds, some effects are produced on the thermal lag. Under clear skies, the temperature response lags behind the change in solar flux as one expects in TSE; however, under cloudy skies, the lag can reverse in early and/or late stages of partial phases. The normal heating of the surface by the Sun, which drives turbulent motion in the air layer near the surface, is disrupted during the eclipse. The 2009 TSE in China provided an opportunity to have a look at these kinds of perturbations caused by this eclipse. In this paper, the second of a series of three, we analyze the near-surface air temperature response, at three different heights over the ground, recorded by the Williams College expedition under meteorological conditions characterized by cloudy skies during the longest total solar eclipse of the 21st century on 2009 July 22, at Tianhuangping (Zhejiang), China. An analysis of the relationship between solar radiation and air temperature was made by applying a study previously published in the first paper of this series in which we evaluated the cloudiness contribution in estimating the impact on global solar radiation throughout this phenomenon at that site. The analysis of this response includes linear and absolute negative anomalies as well as fluctuations, which was undertaken through a statistical study to get information on the convection activity produced by the latter. The fluctuations generated by turbulence were studied by analyzing variance and residuals. The results, indicating a steady decrease and recovery of both perturbations, were consistent with those published by other studies for this total solar eclipse.</description><subject>21st century</subject><subject>Air temperature</subject><subject>Astronomical Software, Data Analysis, and Techniques</subject><subject>Atmospheric effects</subject><subject>Cloudiness</subject><subject>Clouds</subject><subject>Earth atmosphere</subject><subject>Expeditions</subject><subject>Fluctuations</subject><subject>Meteorological conditions</subject><subject>Solar eclipses</subject><subject>Solar radiation</subject><subject>Solar-terrestrial interactions</subject><subject>Surface temperature</subject><subject>Surface-air temperature relationships</subject><subject>Temperature</subject><subject>Temperature changes</subject><subject>Total eclipses</subject><issn>0004-6280</issn><issn>1538-3873</issn><issn>1538-3873</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2020</creationdate><recordtype>article</recordtype><recordid>eNp1UU1r3DAQFaWFbtPceykM9NLAupEsyx_HxSRtYEkD2Vx6MWNrvOutV3Il-7A_q_-wMg7pKaeBee_Ne8xj7JPg3wTP82uhZB7JPJPXWNdxW7xhq5fVW7binCdRGuf8Pfvg_ZFzIXLBV-zvxtgT9h15QKPhtp-accKxs8aDbeGe0EV-ci02BJvOwY5OAzkcJ0eAI-w6NIcJzX7ozB6-_jrQMWz2V2soD53BNTw4q6eGNNRnGA8EW2v25IPQjtjDo-3RwU3Td4On2W-mxCLgJZngcYYno8lB2dtJn-Hxd8j5kb1rsfd0-Twv2NPtza78EW1_fr8rN9uokVk8RkWS1kWaFirF8BCdcNUmrSoykecyw7RAFFTXRFmrFNeaKC-ESrRKYhSFIpQX7Mtyd3D2zxQyV0c7ORMsqzhRsRAqTVVg8YXVOOu9o7YaXHdCd64Er-ZiqrmFam6hWooJks-L5OhH6174cVpkUkoe8PWCd3b47_nquX-Cy5qd</recordid><startdate>20201101</startdate><enddate>20201101</enddate><creator>Peñaloza-Murillo, Marcos A.</creator><creator>Roman, Michael T.</creator><creator>Pasachoff, Jay M.</creator><general>The Astronomical Society of the Pacific</general><general>IOP Publishing Limited</general><general>IOP Publishing</general><scope>AAYXX</scope><scope>CITATION</scope><scope>7TG</scope><scope>KL.</scope><orcidid>https://orcid.org/0000-0003-3490-0456</orcidid><orcidid>https://orcid.org/0000-0002-4372-4928</orcidid><orcidid>https://orcid.org/0000-0003-4046-1031</orcidid></search><sort><creationdate>20201101</creationdate><title>Anomalies and Fluctuations of Near-surface Air Temperature at Tianhuangping (Zhejiang), China, Produced by the Longest Total Solar Eclipse of the 21st Century Under Cloudy Skies</title><author>Peñaloza-Murillo, Marcos A. ; Roman, Michael T. ; Pasachoff, Jay M.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c372t-946b966956aabbd405f4f59718837a69aa1ebbee7f550ddee89154d542a195ea3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2020</creationdate><topic>21st century</topic><topic>Air temperature</topic><topic>Astronomical Software, Data Analysis, and Techniques</topic><topic>Atmospheric effects</topic><topic>Cloudiness</topic><topic>Clouds</topic><topic>Earth atmosphere</topic><topic>Expeditions</topic><topic>Fluctuations</topic><topic>Meteorological conditions</topic><topic>Solar eclipses</topic><topic>Solar radiation</topic><topic>Solar-terrestrial interactions</topic><topic>Surface temperature</topic><topic>Surface-air temperature relationships</topic><topic>Temperature</topic><topic>Temperature changes</topic><topic>Total eclipses</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Peñaloza-Murillo, Marcos A.</creatorcontrib><creatorcontrib>Roman, Michael T.</creatorcontrib><creatorcontrib>Pasachoff, Jay M.</creatorcontrib><collection>CrossRef</collection><collection>Meteorological & Geoastrophysical Abstracts</collection><collection>Meteorological & Geoastrophysical Abstracts - Academic</collection><jtitle>Publications of the Astronomical Society of the Pacific</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Peñaloza-Murillo, Marcos A.</au><au>Roman, Michael T.</au><au>Pasachoff, Jay M.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Anomalies and Fluctuations of Near-surface Air Temperature at Tianhuangping (Zhejiang), China, Produced by the Longest Total Solar Eclipse of the 21st Century Under Cloudy Skies</atitle><jtitle>Publications of the Astronomical Society of the Pacific</jtitle><addtitle>Publ. Astron. Soc. Pac</addtitle><date>2020-11-01</date><risdate>2020</risdate><volume>132</volume><issue>1017</issue><spage>1</spage><epage>20</epage><pages>1-20</pages><issn>0004-6280</issn><issn>1538-3873</issn><eissn>1538-3873</eissn><abstract>During a total eclipse of the Sun, the solar disk blocked by the lunar disk produces an instant and strong decline of energy at the surface. This loss of energy leads to a decreasing air temperatures near the surface. Anyone under a completely clear sky, with a total solar eclipse (TSE) in progress, feels a cooling, whose minimum is reached a few minutes after totality. This drop in temperature is known as an anomaly and this delay is called thermal lag. During a TSE air temperature changes appreciably not only in magnitude but also in timing, depending on weather and geographical conditions. If the eclipse is partially or totally obscured by clouds, some effects are produced on the thermal lag. Under clear skies, the temperature response lags behind the change in solar flux as one expects in TSE; however, under cloudy skies, the lag can reverse in early and/or late stages of partial phases. The normal heating of the surface by the Sun, which drives turbulent motion in the air layer near the surface, is disrupted during the eclipse. The 2009 TSE in China provided an opportunity to have a look at these kinds of perturbations caused by this eclipse. In this paper, the second of a series of three, we analyze the near-surface air temperature response, at three different heights over the ground, recorded by the Williams College expedition under meteorological conditions characterized by cloudy skies during the longest total solar eclipse of the 21st century on 2009 July 22, at Tianhuangping (Zhejiang), China. An analysis of the relationship between solar radiation and air temperature was made by applying a study previously published in the first paper of this series in which we evaluated the cloudiness contribution in estimating the impact on global solar radiation throughout this phenomenon at that site. The analysis of this response includes linear and absolute negative anomalies as well as fluctuations, which was undertaken through a statistical study to get information on the convection activity produced by the latter. The fluctuations generated by turbulence were studied by analyzing variance and residuals. 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| source | JSTOR Archive Collection A-Z Listing; Institute of Physics Journals; Alma/SFX Local Collection |
| subjects | 21st century Air temperature Astronomical Software, Data Analysis, and Techniques Atmospheric effects Cloudiness Clouds Earth atmosphere Expeditions Fluctuations Meteorological conditions Solar eclipses Solar radiation Solar-terrestrial interactions Surface temperature Surface-air temperature relationships Temperature Temperature changes Total eclipses |
| title | Anomalies and Fluctuations of Near-surface Air Temperature at Tianhuangping (Zhejiang), China, Produced by the Longest Total Solar Eclipse of the 21st Century Under Cloudy Skies |
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