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Half The Planet Has Not Cooperated

With The ‘Global’ Warming Narrative

According to overseers of the long-term instrumental temperature data, the Southern Hemisphere record is “mostly made up”. This is due to an extremely limited number of available measurements both historically and even presently from the south pole to the equatorial regions.

Below is an actual e-mail conversation between the Climate Research Unit’s Phil Jones and climate scientist Tom Wigley. Phil Jones is the one who is largely responsible for making up the 1850-present temperature data for the Met Office in the UK (HadCRUT).

According to Peterson and Vose (1997), in 1901 the representation of maximum/minimum instrumental temperature stations in the Southern Hemisphere (SH) up through the equatorial regions (South Asia, North Africa, Central America) was negligible. Only coastal Australia had substantial instrumental representation in the early 20th century. The rest of the temperature data for the SH and equatorial regions needed to be made up to extend “global” instrumental temperature data back to 1850.

To measure the historical temperature record for the bottom half of the planet, then, scientists use proxy evidence from such sources as ice cores or alkenones to reconstruct past climates. When they do that, a common theme emerges. The proxy evidence used in temperature reconstructions suggests that there has been no significant changes in temperature from Antarctica to the regions near or just above the equator in the last few centuries. In other words, half the globe has not been following along with the anthropogenic “global” warming narrative.

Listed below are about 75 graphical reconstructions indicating no obvious warming trend during the last few hundred years of assumed anthropogenic influence on surface temperatures.

Delong et al., 2012

Ault et al., 2013

Wei et al., 2015

Rosenthal et al., 2017

“We show that water masses linked to North Pacific and Antarctic intermediate waters were warmer by 2.1°C and 1.5°C, respectively, during the middle Holocene Thermal Maximum than over the past century. Both water masses were ~0.9°C warmer during the Medieval Warm period than during the Little Ice Age and ~0.65° warmer than in recent decades.”

Jalali et al., 2016

Cheung, 2017

Fischel et al., 2017

Shevenell et al., 2011

Bird et al., 2017

Zhang et al., 2017

Dechnik et al., 2017

Kolansky et al., 2015

Dodrill et al., 2017

South America

Elbert et al., 2013

de Jong et al., 2013

von Gunten et al., 2009

De Jong et al., 2016

“[T]he reconstruction…shows that recent warming (until AD 2009) is not exceptional in the context of the past century. For example, the periods around AD 1940 and from AD 1950–1955 were warmer. … [B]ased on tree ring analyses from the upper tree limit in northern Patagonia, Villalba et al. (2003) found that the period just before AD 1950 was substantially warmer than more recent decades.”

Bertrand et al., 2014

Neukom et al., 2011

Silveira and Pezzi, 2014

Caniupán et al., 2014

Rebolledo et al., 2015

Sepúlveda et al., 2009

Shevenell et al., 2011

South Africa

Tyson et al., 2000

“The climate of the interior of South Africa was around 1°C cooler in Little Ice Age [AD 1300 to 1800] and may have been over 3°C higher than at present during the extremes of the medieval warm period [AD 1000 to 1300].”

“It was variable throughout the millennium, but considerably more so during the warming of the eleventh to thirteenth centuries. The lowest temperature events recorded during the Little Ice Age in South Africa are coeval with the Maunder and Sporer Minima in solar irradiance. The medieval warming is shown to have coincided with … the Medieval Maximum in solar radiation.”

Sánchez-Sesma, 2015

Zinke et al., 2014

Dupont et al., 2004

Weldeab et al, 2005

Powers et al., 2005

Australia, New Zealand

Parker and Ollier, 2017

“In the centre of Australia, all the stations available in a circle of radius 1,000 km were showing very little or no warming, as still acknowledged in the GHCN v2 data set up to October 2011 (Fig. 6). … Table 1 presents the warming trend for the 30 longest temperature records of Australia collected in a single location, with measurements started before 1900 and continued until after 1985. … In the 30 locations, the monthly mean maximum temperature is warming 0.0004°C/year, or 0.04°C/century. “

O’Donnell et al., 2016

Tyson et al., 2000

de Frietas et al., 2015

Jara et al., 2017

South Asia

Sunkara and Tiwari, 2016

Yan et al., 2015

Fan et al., 2009

Munz et al., 2015

Zinke et al., 2016

Thapa et al., 2015

“[T]emperature in Central Asia and northern Hemisphere revert back towards cooling trends in the late twentieth century.”

Böll et al., 2014

Loomis et al., 2015

Southern Ocean

Turney et al., 2017

“Occupying about 14% of the world’s surface, the Southern Ocean plays a fundamental role in ocean and atmosphere circulation, carbon cycling and Antarctic ice-sheet dynamics. … As a result of anomalies in the overlying wind, the surrounding waters are strongly influenced by variations in northward Ekman transport of cold fresh subantarctic surface water and anomalous fluxes of sensible and latent heat at the atmosphere–ocean interface. This has produced a cooling trend since 1979.”

Jones et al., 2016

Markle et al., 2017

Bostock et al., 2013

Foster et al., 2016

Antarctica

Stenni et al., 2017

Schneider et al., 2006

Miles et al., 2013

“[O]ur spatial analysis of Antarctic meteorological data demonstrates a net cooling on the Antarctic continent between 1966 and 2000, particularly during summer and autumn.”

Mayewski et al., 2017

Turner et al., 2016

Fudge et al., 2016

“A marine sediment record from off the shore of the western Antarctic Peninsula also shows an early Holocene optimum during which surface ocean temperatures were determined to be 3.5°C higher than present. Other evidence suggests that the George VI ice shelf on the southwestern Antarctic Peninsula was absent during this early-Holocene warm interval but reformed in the mid Holocene.”

Chu et al., 2017

Albot, 2017