[h=2]2011[/h] 44.
Variability of rainfall and temperature (1912–2008) parameters measured from Santa Maria (29°41′S, 53°48′W) and their connections with ENSO and solar activity , Rampelotto et al, 12/2011; read
more here. “…study shows that both solar activity fluctuations and internal oceanic cycles played crucial roles on Southern Brazilian climate during the last 100 years and continue to play a role today.
45.
A 15,000 year record of vegetation and climate change from a treeline lake in the Rocky Mountains, Wyoming, USA, Mensing et al, 12/2011; read
more here. “…
46.
A possible solar pacemaker for Holocene fluctuations of a salt-marsh in southern Italy, Di Rita, 12/2011; read
more here. “…important fluctuations in the extent of the salt-marsh in the coastal Tavoliere plain are related to variations of solar activity.”
47.
Testing an astronomically based decadal-scale empirical harmonic climate model versus the IPCC (2007) general circulation climate models , 12/2011; read
more here.
48.
Solar Activity and Svalbard Temperatures, Solheim et al, 11/2011; read
more here. “…
models show that 60 per cent of the annual and winter temperature variations are explained by solar activity.”
49.
Mesospheric temperature trends at mid-latitudes in summer, Berger et al, 11/2011; “…This large cooling is primarily caused by long-term changes of ozone in the upper stratosphere in combination with a CO[SUB]2[/SUB] increase.”
50.
Variation in surface air temperature of China during the 20th century, Willie Soon, Koushik Dutta, David R. Legates, Victor Velasco, WeiJia Zhang, 10/2011, Journal of Atmospheric and Solar-Terrestrial Physics, Volume 73, Issue 16, pp. 2331-2344.
51.
Disturbances with hiatuses in high-latitude coral reef growth during the Holocene: Correlation with millennial-scale global climate change, Hamanaka et al, 10/2011, read
more here. “…
coral reef growth was interrupted by suborbital millennial-scale global climate change induced by persistent solar activity during the Holocene…”
52.
Mid-Holocene variability of the East Asian monsoon based on bulk organic δ13C and C/N records from the Pearl River estuary, southern China , 2011, read about it
here.
53.
Short term climate variability during “Roman Classical Period” in the eastern Mediterranean, Liang Chen et al, 10/2011; read
more here . “…
suggests that solar variability might be one of the major forcings of the regional climate.”
54.
A shared frequency set between the historical mid-latitude aurora records and the global surface temperature (
PDF), Nicola Scafetta, 10/2011,
Journal of Atmospheric and Solar-Terrestrial Physics
55.
Amplitudes, rates, periodicities and causes of temperature variations in the past 2485 years and future trends over the central-eastern Tibetan Plateau, 09/2011, LIU Yu; read more here. “The long-term trends (>1000 a) of temperature were controlled by the millennium-scale cycle, and amplitudes were dominated by multi-century cycles. Moreover, cold intervals corresponded to sunspot minimums. The prediction indicated that the temperature will decrease in the future until to 2068 AD…”
56.
Identifying natural contributions to late Holocene climate change , Humlum et al, 09/2011; read
more here. “…
causes of millennial climate changes remain poorly understood…the role of such recurrent natural climate variations in the future climate development.”
57.
The Evolution of the Albufereta Lagoon (Western Mediterranean): Climate Cycles and Sea-Level Changes , Garcia and Morilla, 08/2011; read
more here. “…
the two periods of most frequent superstorm strikes in the Aigues-Mortes Gulf (AD 455 and 1700-1900) coincide with two of the coldest periods in Europe during the late Holocene…”
58.
Temporal derivative of Total Solar Irradiance and anomalous Indian summer monsoon: An empirical evidence for a Sun–climate connection, Rajesh Agnihotri, Koushik Dutta, Willie Soon, 08/2011, Journal of Atmospheric and Solar-Terrestrial Physics, Volume 73, Issue 13, pp. 1980-1987
59.
Evidences for a quasi 60-year North Atlantic Oscillation since 1700 and its meaning for global climate change (
PDF), Adriano Mazzarella, Nicola Scafetta, 08/2011,
Theoretical and Applied Climatology
60.
Climate patterns in north central China during the last 1800 yr and their possible driving force, Tan et al, 07/2011, read
more here.
“…Solar activity may be the dominant force that drove the same-phase variations of the temperature and precipitation in north central China.”
61.
On the time-varying trend in global-mean surface temperature. Wu et al, 07/2011; Read
more here.
62.
Multifractal Detrended Cross-Correlation Analysis of Sunspot Numbers and River Flow Fluctuations, Hajian & Movahed, 07/2011; read
more here. “…
there exists a long-range cross-correlation between the sunspot numbers and the underlying streamflow records.”
63.
Holocene hydrological changes in south-western Mediterranean as recorded by lake-level fluctuations at Lago Preola, a coastal lake in southern Sicily, Italy, Magny et al, 06/2011; read
more here. “…
climate oscillation around 7500 – 7000 cal BP may have resulted from combined effects of a strong rate of change in insolation and of variations in solar activity.”
64.
Abrupt Holocene climate change and potential response to solar forcing in western Canada. Gavin et al, 05/2011: read
more here.
“…possible link between solar minima and El Niño-like conditions that are correlated with warm spring temperature in interior British Columbia.”
65.
Temperature prognosis based on long sunspot cycle 23, Solheim et al, 05/2011, read
more here. “…
We find that for the Norwegian local stations investigated that 30-90% of the temperature increase in this period may be attributed to the Sun. For the average of 60 European stations we find !60% and globally (HadCRUT3) 50%.”
66.
Possible impact of interplanetary and interstellar dust fluxes on the Earth’s climate, M. G. Ogurtsov, O. M. Raspopov, 04/2011, Geomagnetism and Aeronomy, Volume 51, Number 2, pp. 275-283
67.
A new approach to the long-term reconstruction of the solar irradiance leads to large historical solar forcing (
PDF), A. I. Shapiro et al., 04/2011, Astronomy & Astrophysics, Volume 529, A67
68.
Variations in climate parameters at time intervals from hundreds to tens of millions of years in the past and its relation to solar activity, O. M. Raspopov et. al., 02/2011, Journal of Atmospheric and Solar-Terrestrial Physics, Volume 73, Issues 2–3, pp. 388–399
69.
Natural climatic oscillations driven by solar activity, A. A. Gusev, 02/2011, Geomagnetism and Aeronomy, Volume 51, Number 1, pp. 131-138
70.
Variations in tree ring stable isotope records from northern Finland and their possible connection to solar activity, Maxim Ogurtsov, 02/2011, Journal of Atmospheric and Solar-Terrestrial Physics, Volume 73, Issues 2–3, pp. 383–387
71.
New Basic One-Dimensional One-Layer Model Obtains Excellent Agreement with the Observed Earth Temperature, Link et al, 01/2011; read
more here.
72.
Sun–earth relationship inferred by tree growth rings in conifers from Severiano De Almeida, Southern Brazil
(Journal of Atmospheric and Solar-Terrestrial Physics, 01/2011) – A. Prestes et al.
73.
Solar-geomagnetic activity influence on Earth’s climate Journal of Atmospheric and Solar-Terrestrial Physics, 01/2011) – S. Mufti, G.N. Shah
74.
Northern Hemisphere temperature patterns in the last 12 centuries, F. C. Ljungqvist, 2011; “…
dominance of negative anomalies is observed from the 16th to 18th centuries [...] 20th century warming is within the range of natural variability over the last 12 centuries.”
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